WO2023113053A1 - 인터렉티브 시스템 - Google Patents
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- WO2023113053A1 WO2023113053A1 PCT/KR2021/018876 KR2021018876W WO2023113053A1 WO 2023113053 A1 WO2023113053 A1 WO 2023113053A1 KR 2021018876 W KR2021018876 W KR 2021018876W WO 2023113053 A1 WO2023113053 A1 WO 2023113053A1
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Classifications
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
- G06Q50/10—Services
- G06Q50/26—Government or public services
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
- G06Q50/10—Services
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/02—Services making use of location information
- H04W4/021—Services related to particular areas, e.g. point of interest [POI] services, venue services or geofences
Definitions
- the following embodiments relate to interactive systems.
- the environmental information may include pest information, air quality information, water quality information, or hygiene information.
- conventional sterilization, deodorization, or cleaning devices used to collect various environmental information simply detect and operate by sensors, but do not provide related service information to users. Since the user cannot directly check environmental information and action guidelines accordingly, it is impossible to effectively manage the environment.
- a system for analyzing information of a management device that collects environment information is required.
- management devices that manage the environment of the target area. For example, demand for management devices is increasing in various fields such as pest control, air quality management, water quality management, and sanitation management, and various products are being developed accordingly. With the development of various management devices, a need for a system capable of interacting with a management device, a user, and a serviceman so as to integrally manage and control the management devices has emerged. For example, when an environment change event occurs around a management device, an interactive environment management system capable of operating the management device, providing necessary services to users, or providing necessary action guidelines to users in response to the environment change event that has occurred. this is required
- An object of an embodiment is to provide an interactive system that collects environmental information through a management device and analyzes it to generate analysis information about the environment.
- An object of an embodiment is to provide an interactive system that selects and provides service information using generated analysis information.
- An object of an embodiment is to provide an interactive system that generates user preference information by analyzing operational information of managed devices.
- An object of an embodiment is to provide an interactive system that provides user-customized information using generated user preference information.
- An object of the interactive environment management system is to provide a management service required according to an environmental state of a target area.
- An object of the interactive environment management system is to evaluate an environmental state of a target area based on environmental information of the target area.
- An object of the interactive environment management system is to provide a corresponding service suitable for a target area in response to environmental changes around the target area.
- An object of an embodiment is to provide an interactive environment management system capable of providing a management device and a user with a corresponding action in response to an environment change event occurring around a target space.
- An object of an embodiment is to provide an interactive environment management system capable of quantifying and analyzing the effect of an event on a target space.
- An object of an embodiment is to provide an interactive environment management system capable of grading each expected environmental change and degree of urgency and selecting a countermeasure using each grade as a factor.
- An interactive system includes at least one management device provided in a target space and collecting environment information of the target space; and a control server that analyzes the environment information to generate environment analysis information and selects at least one piece of service information matching the analysis information.
- control server divides the target space into one or more control areas, assigns a location weight according to the control area to generate a location index, and the location weight determines the use and area of the control area. , the degree of congestion, and at least one of the size and location information of the gate.
- control server further receives device information of the management device, generates the analysis information including a device index generated by indexing the device information, and the device information includes: It includes at least one of specification information, component information, consumable information, battery information, software version information, inspection information, sensor information, and memory information, and the control server includes at least one of the usage period, replacement history, and price of the management device.
- the device index may be generated by assigning a device weight determined to include one.
- control server may further receive information on a user using the management device, and generate the analysis information including a user index generated by indexing the user information.
- control server standardizes the plurality of environment information into one environment index and generates the analysis information using the standardized environment index, and the control server determines the number of the plurality of management devices Location information, device information, and user information may be further received, and the analysis information may be generated including an integrated index generated by indexing the environment information, the location information, the device information, and the user information.
- An interactive system includes at least one management device provided in a target space to manage an environment of the target space; and a control server that analyzes operation information of the management device to generate user propensity information and selects at least one piece of customized information according to the propensity information, wherein the control server transmits the customized information to the user or manager.
- the operating information includes at least one of an operating function, an operating time, an operating period, an operating frequency, and an operating pattern of the management device, and the control server determines the operating information for each function of the management device. It is collected, and a function interest index may be generated using the operational information.
- control server groups the management devices into at least one field, collects the device interest points for each field, and assigns a device weight to the device interest point to generate a field interest point;
- the control server may compare the field interest index for each field, and select more customized information for a field having a higher field interest index.
- control server groups the management devices into at least one field, collects the device interest points for each field, and assigns a device weight to the device interest point to generate a field interest point;
- the control server may select, as the customized information, information about a product corresponding to the field having the highest interest index in the field.
- control server groups the management devices into at least one field, collects the device interest points for each field, and assigns a device weight to the device interest point to generate a field interest point;
- the control server sets the field having the highest field interest index as the main field of interest and the second highest field as the secondary field of interest, and sets information on products corresponding to the main field of interest or the secondary field of interest as the customized field of interest. information can be selected.
- control server selects information on a product having a function with the highest function interest index as the customized information, or the control server selects a function with the highest function interest index as a main function of interest.
- the second highest function may be set as the secondary interest function, and information on a product having the primary interest function or the secondary interest function may be selected as the customized information.
- An interactive management system includes a management device provided in a target area and managing an environment of the target area; a control server that collects information through the management device and selects a management service required for the target area based on the collected information; and a manager device receiving an operation command for the selected management service, wherein the control server includes: a data collection unit that collects information related to the environment of the target area; an analyzer configured to analyze an environmental state of the target area through the collected information; a management unit that sets up a database for management services and selects a management service that matches the analysis result of the analysis unit; and a communication unit transmitting information on the selected service to the manager device.
- the analysis unit classifies the collected information into a plurality of factors, generates an analysis result of the environmental state of the target area through a combination of the classified factors, and individual weights for each factor. is applied to generate individual indicators, extracts some of the factors among the plurality of factors based on the individual indicators to generate the analysis result, and the management unit provides a management service corresponding to the individual indicators of the plurality of factors as a matrix. It is defined as a form, and a management service that matches from the matrix can be selected by combining individual indicators of the extracted factors.
- the analysis unit evaluates the environmental state of the target area as a digitized environmental index, the management unit selects the management service based on the environmental index, and the analysis unit determines the numerical range of the environmental index as Depending on the characteristics of the target area, a plurality of environmental grades may be classified, and the environmental level of the target area may be determined through the collected information.
- the analysis unit evaluates the environmental state of the target area as a digitized environmental index
- the management unit selects the management service based on the environmental index
- the control server is based on the target area
- Geo-fence information may be collected by setting a region range as a geo-fence, and a management service for the target area may be selected by reflecting the geo-fence information.
- the analysis unit evaluates the environmental state of the target area as a digitized environmental index, the management unit selects the management service based on the environmental index, and the analysis unit determines the management service in the target area. is performed, the environmental index of the target area may be re-evaluated through feedback according to the result of the execution.
- An interactive environment management system includes at least one management device provided in a target space to manage the environment of the target space; and a control server that, when an environmental change event occurs around the target space, quantifies and analyzes the impact of the event on the target space, and selects necessary countermeasures.
- the control server generates at least one reference environmental index serving as a reference for the environmental state of the target space, generates an expected environmental index of the target space according to the occurrence of the event, and generates the reference environment index.
- An index and an expected environmental index are compared to select the necessary countermeasure, the control server generates at least two or more environmental grades having the at least one reference environmental index as a numerical boundary, and the control server performs the event
- An expected environmental index according to time is generated in consideration of at least one of the type, scale, occurrence time, and distance between the event occurrence point and the target space, and the control server determines the expected environmental index for each unit time.
- the control server determines the environmental level corresponding to the expected environmental index for each unit of time, and assigns an environmental level for each unit of time, and the control server calculates a gradient of the expected environmental index for each unit of time, and the gradient Depending on the size of , the degree of urgency per unit time can be determined.
- the degree of urgency is evaluated as a plurality of urgency grades
- the control server assigns an urgency grade for each unit time that is matched according to the magnitude of the gradient for each unit time, and the control server takes the corresponding action
- a countermeasure for each unit of time may be selected in consideration of the type of event, the environmental level for each unit of time, and the emergency level for each unit of time.
- control server includes a database in which response measures according to a combination of the environment level and the emergency level are stored in a matrix form, and the matrix may be provided for each type of event.
- control server selects a matching response action from the matrix corresponding to the event according to a combination of the environment level per unit time and the emergency level per unit time, and the control server selects the response action is applied, regenerates an expected environmental index according to time from the point at which the corresponding measures are applied by reflecting feedback according to the corresponding measures, and the control server uses the regenerated expected environmental indexes for each unit of time.
- Environment level, emergency level per unit time, and response measures per unit time can be updated.
- the interactive system may collect environment information through a management device and generate analysis information about the environment by analyzing the collected environment information.
- the interactive system may use the generated analysis information to select and provide matching service information.
- the interactive system may generate user preference information by analyzing operation information of management devices.
- An interactive system may provide user-customized information by using the generated user preference information.
- the interactive environment management system may provide a manager with information about a management service required according to an environmental state of a target area.
- the interactive environment management system may perform a qualitative evaluation of an environmental state of a target area based on environmental information of the target area.
- An interactive environment management system may provide a corresponding service suitable for a target area in response to environmental changes around the target area.
- An interactive environment management system may provide a management system and a user with the most appropriate countermeasures in response to an environment change event occurring around a target space.
- the interactive environment management system may quantify and analyze the effect of the generated event on the target space.
- the interactive environment management system may classify expected environmental changes and levels of urgency, respectively, and select countermeasures using each level as a factor.
- FIG. 1 is a schematic installation diagram of an interactive system according to an embodiment.
- FIG. 2 is a schematic interaction diagram of an interactive system according to an exemplary embodiment.
- FIG. 3 is a block diagram of fields and functions of a management device according to an exemplary embodiment.
- FIG. 4 is a flowchart for generating a comprehensive index for managing an environment according to an embodiment.
- FIG. 5 is a flowchart of an interactive environment management method according to an embodiment.
- FIG. 6 is a schematic installation view of an interactive system according to an embodiment.
- FIG. 7 is a schematic interaction diagram of an interactive system according to an embodiment.
- FIG. 8 is a block diagram of fields and functions of a management device according to an exemplary embodiment.
- FIG. 9 is a flowchart for generating an index of interest according to an embodiment.
- FIG. 10 is a flowchart of an interactive management method according to an exemplary embodiment.
- FIG. 11 is a flowchart of a tendency information analysis step according to an embodiment.
- FIG. 12 is a structural diagram of an interactive environment management system according to an embodiment.
- FIG. 13 is a block diagram of an interactive environment management system according to an embodiment.
- FIG. 14 is a structural diagram of a control server according to an embodiment.
- 15 is a block diagram of an environment field managed by a management device according to an exemplary embodiment.
- 16 is a flowchart of an interactive environment management method according to an embodiment.
- 17 is a flowchart of an environmental state analysis step according to an embodiment.
- 19 is a diagram illustrating a class classification method in an environmental state analysis step.
- 20 is a flowchart of a management service selection step according to an embodiment.
- 21 is a flowchart illustrating a step of transmitting management service information according to an embodiment.
- 22 is a schematic diagram of an interactive environment management system according to an embodiment.
- FIG 23 is an interaction diagram of an interactive environment management system according to an embodiment.
- 24 is a block diagram of a field of a management device according to an embodiment.
- 25 is a flowchart for generating a reference environmental index and environmental grade according to an embodiment.
- 26 and 27 are graphs illustrating a reference environmental index and an environmental grade according to an exemplary embodiment.
- 29 and 30 are graphs showing expected environmental indices according to an embodiment.
- 31 is a response action matrix according to a combination of an environment level and an emergency level according to an embodiment.
- FIG. 32 is a graph in which the predicted environmental index according to FIG. 29 is regenerated according to the application of countermeasures.
- 33 is a flowchart of an interactive environment management method according to an embodiment.
- first, second, A, B, (a), and (b) may be used. These terms are only used to distinguish the component from other components, and the nature, order, or order of the corresponding component is not limited by the term.
- 1 is a schematic installation diagram of an interactive system according to an embodiment.
- 2 is a schematic interaction diagram of an interactive system according to an exemplary embodiment.
- an interactive system 1 may include a management device 11 and a control server 12 .
- the management device 11, the control server 12, and the user U may interact.
- the management device 11, the control server 12, and the manager may interact.
- the manager may mean a person who provides services for the management device 11 .
- the interactive system 1 may analyze environment information collected by the management device 11 in the control server 12 , and the control server 12 may generate analysis information by analyzing the environment information.
- the control server 12 may provide customized feedback by selecting service information that matches the analysis information and providing it to the user U or manager.
- the management device 11 may be a device provided in the target space and collecting environment information of the target space. Also, the management device 11 may be a device that manages the environment of the target space.
- the management device 11 may include at least one of a pest trapping device, an air quality measurement device, an air quality management device, a water quality measurement device, a water quality management device, a hygiene measurement device, and a hygiene management device.
- the management device 11 may include, but is not limited to, an air purifier, a dehumidifier, a control device, a sterilizer, a water purifier, a sterilizer, a dispenser, and a bidet.
- At least one management device 11 may be provided.
- a plurality of management devices 11 may be provided.
- a first management device 11a, a second management device 11b, a third management device 11c, and a fourth management device 11d may be provided in each target space.
- a plurality of management devices 11 are provided, a plurality of pieces of environment information may be collected.
- the environmental information collected by the management device 11 may include at least one of control information, air quality information, water quality information, and hygiene information.
- the control information may include internal and external weather information of the pest trapping device for trapping pests and pest information detected by the pest trapping device.
- pests may collectively refer to insects and animals that harm humans and livestock.
- the internal and external weather information of the insect trapping device may include at least one of temperature, humidity, wind direction, weather, time, and warnings or warnings issued by the Korea Meteorological Administration in an area equipped with the pest trapping device.
- Pest information detected by the pest trapping device may include at least one of types of pests, harmfulness information, behavioral information according to seasons and time, access information, movement information, weight information, and food intake information.
- the air quality information may include at least one of internal and external weather information, an air quality index, and components of a measuring device for measuring air quality.
- the internal and external weather information of the measuring device may include at least one of temperature, humidity, wind direction, weather, time, and warnings or warnings issued by the Korea Meteorological Administration in an area where the device is installed.
- the air quality information may include an air quality index including an air pollution measurement value indicating how much the air is currently polluted and how the level of pollution will change in the future.
- air quality information includes various volatile organic compounds (VOCs) such as formaldehyde, radon, toluene, benzene, and acetone, which are carcinogenic substances generated from various indoor building materials, pollutants such as nitrogen dioxide generated from asbestos, , component information on the ignition of gas used when cooking food in the kitchen or carbon dioxide generated in the process of breathing of the human body may be included.
- VOCs volatile organic compounds
- the water quality information may include at least one of internal and external weather information of the water quality measuring device and turbidity, color, carbonate hardness, total hardness, pH, odor, constituents, dissolved oxygen content, and conductivity of the water quality.
- the internal and external weather information of the water quality measurement device may include at least one of temperature, humidity, wind direction, weather, time, and warnings or warnings issued by the Korea Meteorological Administration in an area where the measurement device is equipped.
- the component may include TDS (Total Dissolved Solids). TDS is total dissolved solids, which refers to minerals, salts, metals, cations and anions dissolved in water.
- Inorganic substances such as mercury, cyan, arsenic, hexavalent chromium, cadmium, lead, fluorine, selenium, nitrate nitrogen, ammonia nitrogen, boron, and organic substances such as phenol, THM (Tri-Halo Methane), diazinon, parathion, fenitrothion, carbanyl, residual chlorine, benzene, toluene, ethylbenzene, xylene, chloroform, dibromochloromethane, 1.1.1-trichloroethane, 1.2-dibromo-3 -Chloropropane, tetrachloroethylene, chloral hydrate, trichlorethylene, dibro
- the hygiene information may include at least one of internal and external weather information of the hygiene measurement device that measures hygiene, and bacteria information of the inside and outside of the hygiene measurement device.
- Internal and external weather information of the sanitary measurement device may include at least one of temperature, humidity, wind direction, weather, time, and warnings or warnings issued by the Korea Meteorological Administration in an area where the measurement device is equipped.
- Bacterial information may include a variety of information capable of analyzing the current status of remaining bacteria, such as the type of bacteria detected by the hygiene measuring device, the degree of reproduction of bacteria, and the number of bacteria.
- the management device 11 may collect the aforementioned environmental information using a sensor.
- the sensor may be provided on one side of the management device 11 or in a target space where the management device 11 is provided. When provided in the target space, the sensor is preferably provided in a space capable of collecting the most standardized environment information in the target space.
- Sensors include temperature sensor, humidity sensor, sound sensor, vibration sensor, acceleration sensor, level sensor, pressure sensor, air pressure sensor, gas sensor, ion sensor, light sensor, infrared sensor, ultraviolet sensor, ultrasonic sensor, electromagnetic sensor, magnetoresistive sensor may include at least one of them.
- the sensor is not limited thereto, and may include various sensors capable of collecting environmental information.
- the management device 11 may receive input of environment information through an input unit.
- the input unit may include at least one of a keyboard, mouse, and trackpad.
- the management device 11 is a water purifier
- temperature or humidity information directly input by the user U may be received by including a touchpad type keyboard on one side of the water purifier.
- the management device 11 may receive environment information by communicating with an external server.
- the external server may include at least one of the Korea Meteorological Administration, Air Korea, the National Crop Disease and Pest Management System, the National Air Pollution Information Management System, the National Fine Dust Information Center, the Water Environment Information System, and the National Water Resources Management Comprehensive Information System.
- the external server may include at least one of the Korea Meteorological Administration, Air Korea, the National Crop Disease and Pest Management System, the National Air Pollution Information Management System, the National Fine Dust Information Center, the Water Environment Information System, and the National Water Resources Management Comprehensive Information System.
- the management device 11 may also collect information of the user U.
- the user U's information may include age, sex, height, weight, or disease history. Information on a plurality of users U may be input.
- the management device 11 may receive user U information by communicating with an external organization.
- the external institution may be a medical institution that holds user U's body information and medical information.
- the management device 11 may include a user recognition unit including a user recognition unit on one side to receive information of the user U.
- the user recognition means may include at least one of fingerprint, palm, iris, retina, face, voice, vein, height, weight, barcode, QR code, RFID, and NFC recognition.
- the management device 11 may collect location information of the target space.
- the location information may be information directly input from the user U using the management device 11, or information for receiving an installed location through, for example, GPS.
- the control server 12 may transmit/receive data with the management device 11 .
- the control server 12 may transmit/receive data with a plurality of management devices 11 .
- the control server 12 may be installed for each area unit.
- the control server 12 may include a data storage unit and a process for processing data.
- the control server 12 may receive environment information from the management device 11 .
- the control server 12 may receive at least one of the above-described control information, air quality information, water quality information, or hygiene information, but is not limited thereto.
- the control server 12 may generate environment analysis information by analyzing environment information of the management device 11 .
- the analysis information may refer to information about an environmental state in which the management device 11 is located. For example, if the management device 11 is an air purifier, it may be information about whether the concentration of dust in the space in which it is provided exceeds a preset reference dust concentration. In addition, when the management device 11 is a control device, it may be information about whether pests captured in the provided space exceed a standard capture level.
- the control server 12 may receive and analyze a plurality of environment information collected from a plurality of management devices 11 . At this time, the control server 12 may standardize a plurality of environment information collected from a plurality of management devices 11 into one index. For example, the control server 12 may receive information on temperature and pest capture from air purifiers and pest control devices, respectively, and calculate the degree of pest capture as one index when the temperature exceeds a reference value. Logic for standardizing a plurality of environmental information into one index is not limited thereto, and may generate various environmental indexes including air quality information and hygiene information.
- the control server 12 may receive operation information from the management device 11 .
- Operation information may refer to information about operation of the management device 11 .
- the operating information may include at least one of an operating function, an operating time, an operating period, an operating frequency, and an operating pattern of the management device 11, but is not limited thereto.
- the control server 12 may analyze operation information of the management device 11 to generate propensity information of the user U.
- the propensity information may refer to information about what type of propensity the user U has.
- the propensity information may include at least one of the user U's interest index by function, interest index by device, interest index by field, and general interest index, but is not limited thereto.
- the control server 12 may select at least one piece of service information that matches the analysis information obtained by analyzing environment information.
- the service information may include at least one of services and functions of the management device 11 for managing the environment, user U action guidelines, manager action guidelines, and customized product information recommended to users or managers. , but is not limited thereto.
- the service information on services and functions of the management device 11 may include, for example, an operating mode of the management device 11 required to improve the environment.
- information on inspection and replacement of the management device 11 may be included.
- the user U's action guideline may be a guideline such as whether to open or close a window to improve air quality, need to replace consumables, and the like, according to the analysis information.
- the action guideline for the manager may be a guideline that a visit to the management device 11 is required because the management device 11 needs to be inspected.
- the customized product information may include information on products necessary for the user U or manager, such as a deodorant and a remedy.
- the service information may further include various environmental management guidelines, such as management guidelines for purifying air quality below an acceptable standard, management guidelines for capturing pests, and management guidelines for purifying pollutants in the air. no.
- the control server 12 may provide service information to the user U through the management device 11 .
- the control server 12 may provide service information to be displayed on the management device 11 .
- a notification When a notification is required, a notification or an alarm may be generated in the management device 11 .
- the control server 12 may directly control the operation of the management device 11 according to the service information. For example, when the determined service information is information to reinforce air purification in a space where the management device 11 is provided, the control server 12 may directly control the operating mode of the air purifier to reinforce air purification.
- the control server 12 may directly provide service information to the user U or manager. At this time, the control server 12 may provide service information through at least one of the user U's terminal and the manager's terminal.
- the terminal may mean a device capable of data communication, such as a smart phone, a PC, a laptop, a smart watch, and the like.
- the control server 12 may provide service information through applications, messengers, text messages, phone calls, notification sounds, and displays.
- the control server 12 may provide service information to the manager and deliver the service information to the user U through the manager.
- control server 12 may further include user information of the user U using the management device 11 and communicate with a user terminal matching the information of the user U. Since the user information is included in the management device 11 in advance, it is possible to immediately match the user U using the management device 11 and efficiently communicate with the user terminal.
- control server 12 When the control server 12 communicates with the manager terminal, the control server 12 includes the location information of the management device 11 and the manager located closest to the location information of the management device 11 among the manager terminals. can communicate with the terminal.
- the control server 12 transmits service information to the manager closest to the management device 11, so that when the manager needs to move to manage the management device 11, it can efficiently provide a movement line.
- control server 12 may provide service information through the management device 11, the terminal of the user U or the terminal of the manager, and may receive action results corresponding to the provided service information. .
- service information may be provided through the management device 11, the terminal of the user U or the terminal of the manager, and may receive action results corresponding to the provided service information.
- bidirectional communication is possible, satisfaction and convenience of the user U may be improved, and management efficiency of the management device 11 may be improved.
- the interactive system 1 analyzes the environmental information collected by the management device 11 in the control server 12 to generate analysis information, selects and provides service information matching the analysis information, and provides the management device. Satisfaction and convenience can be provided to the user U or manager using (11).
- analysis information generation and service information selection of the control server 12 will be described in detail.
- FIG. 3 is a block diagram of fields and functions of a management device according to an embodiment
- FIG. 4 is a flowchart for generating a comprehensive index for managing an environment according to an embodiment.
- the control server 12 may collect environment information for each function of the management device 11 .
- a plurality of functions may be included in one management device 11 .
- the control server 12 may receive environment information for each function of the management device 11 .
- air quality information and control information may be simultaneously received from one management device 11, and environmental information received from a plurality of functions is not limited thereto.
- the management device 11 may further receive device operation information for each function. For example, at least one of operating time, operating period, operating frequency, and operating pattern of the management device 11 may be further received.
- the control server 12 may group the management devices 11 into at least one field.
- the control server 12 may be grouped into at least one of a pest field, an air field, a water quality field, and a sanitation field according to the purpose and effect of the management device 11 .
- One management device 11 may be grouped into two or more fields. Grouping may be predetermined.
- the control server 12 may receive environment information of the management device 11 corresponding to each field. By grouping the management devices 11, the control server 12 has an effect of determining in which field the importance of environmental management is high. Here, more service information may be selected and provided for fields of high importance. Also, service information may be provided more frequently.
- the control server 12 may generate analysis information by indexing environmental information. That is, the analysis information may include at least one of a control index generated by indexing environmental information, an air quality index, a water quality index, and a sanitation index. For example, a low air quality index may be generated when the air quality is good, and a high air quality index may be generated when the air quality is poor. In addition, when the pest capture degree is low, a low control index may be generated, and when the pest capture degree is high, a high control index may be generated.
- the control server 12 may index the environment information using an environment weight according to the environment information collected by the management device 11 .
- the environmental weight may be applied differently according to the field of the environment in which the management device 11 is provided, a reference value indicating the corresponding environment, and the like.
- a different environmental weight may be applied to each management device 11 .
- the control server 12 may generate analysis information indicating that a high level of management is required for the environment when the control index, the air quality index, the water quality index, or the sanitation index is high.
- a standardized environmental index may be calculated by integrating the control index, the air quality index, the water quality index, and the sanitation index. there is.
- a process of generating one environmental index by generating a matrix corresponding to a plurality of indices may be included.
- the control server 12 may further receive location information of the management device 11 and generate analysis information including a location index generated by indexing the location information.
- the location information may be information directly input from the user U using the management device 11 or information directly receiving the location where the management device 11 is installed through GPS or the like. .
- the control server 12 may generate the location index by partitioning the target space into one or more control areas and assigning a location weight according to the control area. For example, when the target space provided with the management device 11 is a house, the control server 12 may divide the target space into control areas such as a living room, a room, a kitchen, and a bathroom. In addition, since management of air purification is more frequently required in the case of a kitchen where various foods are prepared, a location index may be generated by assigning a high weight.
- the location weight for generating the location index by the control server 12 may be determined by including at least one of the use, area, congestion level, and size and location information of the control area.
- the control server 12 includes information about whether there are mountains or rivers around the target space where the management device 11 is equipped, whether there are facilities such as factories or hospitals, and how close they are located, including location weights. can also decide Depending on this information, the need or importance of environmental management may be evaluated differently, and a high weight may be assigned when the need for management is high. Meanwhile, when a plurality of management devices 11 are provided, the control server 12 may standardize the location index by taking an average as many as the number of management devices 11 .
- the control server 12 may further receive device information of the management device 11 and generate analysis information including a device index generated by indexing the device information.
- the device information may include at least one of specification information, component information, consumable information, battery information, software version information, inspection information, sensor information, and memory information of the management device 11, but is not limited thereto. .
- the control server 12 may generate a device index including device weights.
- the device weight may be applied including at least one of a usage period, a replacement history, and a price of the management device 11 along with the device information.
- a weight may be assigned according to the operating time, operating frequency, and operating pattern of the management device 11 . For example, the longer the usage period of the management device 11 and the higher the operating frequency, the higher the importance of the management device 11, and thus a higher device weight may be assigned.
- the control server 12 may standardize the device index by taking an average as many as the number of management devices 11 .
- the control server 12 may further receive information on the user U using the management device 11 and generate analysis information, including a user index generated by indexing the user information. Since the user information is the same as described above, the same content will be omitted.
- the control server 12 may generate a user index by assigning a user weight according to the user U. For example, when the user U is an infant, the importance of environmental management may be highly evaluated, and therefore, when the user U uses the management device 11, a high user weight may be assigned. In addition, since the importance of management is highly required for a user (U) who has a relatively poor health condition or suffers from a specific disease, a high user weight may be assigned.
- the control server 12 may generate information on each user U for each number of users U. For example, when personal information about two users U is input to the management device 11, the environmental information transmitted through the corresponding management device 11 is classified into two groups, and each user U is divided into two groups. Analysis information can be generated. In order to classify the analysis information for each user U, the control server 12 may use machine learning. When it is determined that a specific user U is using the management device 11, the control server 12 may provide service information using analysis information for the corresponding user U.
- the control server 12 may generate analysis information by receiving at least one piece of environment information, location information, device information, or user information, assigning a weight to each of them, and indexing them.
- each index may be integrated and calculated as one index to generate analysis information, and accordingly, service information may be selected.
- a plurality of management devices 11 when a plurality of management devices 11 are provided, location information, device information, or user information of the plurality of management devices 11 may be received, weights may be assigned to each information, and the information may be indexed.
- an integrated index may be generated by indexing each piece of information, and analysis information according to the integrated index may be generated. For example, even in the case of having the same location index, it is determined that environmental management is more necessary for the user U suffering from a disease, and the integrated index may be generated with a high weighted index.
- the control server 12 may control the operation of the management device 11 .
- the control server 12 may control the management device 11 based on service information selected according to the analysis information. Accordingly, the control server 12 may directly manage the environment by directly communicating with the management device 11 without providing service information to the user U or the manager.
- the control server 12 may determine the frequency of providing service information to the user U or manager according to the integrated index. If the integration index is high, it may mean that the need for environmental management of the target space is high, or that the user U is very interested in environmental management of the target space. Therefore, the need for environmental management of the target space can be satisfied by setting the frequency of providing service information as the integration index increases. On the other hand, when the integration index is low, it may mean that the need for environmental management of the target space is low or that the user U is less interested in environmental management of the target space. Accordingly, when the integration index is low, the frequency of providing service information may be set low. The control server 12 may grade the integrated index for each section and generate an integrated index grade. In this case, the control server 12 may determine the frequency of providing service information to correspond to the integrated index level.
- the control server 12 may further receive an interest index of the user U for each management device 11 and provide service information according to another embodiment.
- the interest index of the user U may be an index indicating how interested the user U is in the corresponding management device 11 .
- the interest index may be generated for each function of the management device 11 . For example, the control server 11 may determine that the interest index is higher as the function operation period of the management device 11 is longer. Also, the interest index may be an index indicating how interested the user U is in the target space in which the management device 11 is provided.
- the control server 12 may provide service information to the user U in a specific pattern based on the interest index of the user U. For example, when the user U is using a specific function or management device 11, service information on the corresponding function or management device 11 can be provided. In addition, it can be provided at the time when the user U mainly uses the management device 11 .
- the control server 11 may adjust the service information providing pattern in proportion to the time or frequency of exposing the service information to the user U in proportion to the interest index. For example, service information with a relatively high interest index may make the time provided to the user U relatively long, and service information with a relatively low interest index may shorten the time provided to the user U. In this way, by generating analysis information and providing service information in consideration of the interest index of the user U, it is possible to provide appropriate service information to the user U at the right time.
- FIG. 5 is a flowchart of a method for managing an interactive environment according to an exemplary embodiment.
- an interactive environment management method may be a method of interaction between a management device, a control server, and a user.
- environment information collected by a management device is received by a control server, and the control server analyzes the environment information to generate analysis information on the environment information.
- the control server may provide customized feedback by selecting service information using the analysis information and providing the service information to a user or manager.
- An interactive environment management method may include providing management devices (21), analyzing environment information (22), selecting service information (23), and providing service information (22).
- the step of providing a management device 21 may be a step of providing at least one management device that is provided in the target space and collects the environment of the target space. Environment information, user information, and location information may be input to the management device.
- the management device may transmit/receive data with the control server.
- the management device may transmit environment information to the control server.
- the management device may transmit user information or location information to the control server.
- the control server may be installed in units of a predetermined area to transmit/receive data with at least one management device.
- the control server may include a data storage unit and a process for processing data.
- the environmental information analysis step 22 may be a step of receiving the environment information of the management device from the control server and generating analysis information by analyzing the environment information.
- Environmental information may include at least one of control information, air quality information, water quality information, and hygiene information, but is not limited thereto.
- the control server may generate analysis information by analyzing environment information of the management device.
- the analysis information may refer to information about an environmental state in which the management device is located.
- the analysis step 22 will be described in detail.
- the analysis step 22 may be a step in which the control server generates analysis information by indexing the environment information received from the management device. That is, it may be a step of generating analysis information including at least one of a control server indexing environmental information, a control index, an air quality index, a water quality index, and a sanitation index.
- the control server may index the environment information using an environment weight according to environment information collected from the management device. The environmental weight may be applied differently according to the field of the environment in which the management device is provided, a reference value representing the environment, and the like.
- the analysis step 22 may be a step of generating a standardized environmental index, including generating a matrix that integrates the control index, the air quality index, the water quality index, and the sanitation index.
- the analyzing step 22 may include receiving a plurality of pieces of environment information from the plurality of management devices and standardizing the pieces of environment information into one environment index.
- the control server may generate analysis information using a standardized environmental index.
- the analysis step 22 may be a step in which the control server receives the location information of the management device and generates analysis information including a location index generated by indexing the location information.
- the control server may generate the location index by partitioning the target space into one or more control areas and assigning a location weight according to the control area.
- the location weight may be determined by including at least one of information about the use, area, and congestion of the control area, and the size and location of the gate.
- the control server may standardize location indices by averaging as many as the number of management devices to generate analysis information.
- the analysis step 22 may be a step in which the control server receives device information of the management device and generates analysis information including a device index generated by indexing the device information.
- the control server may generate a device index including device weights.
- the device weight may be applied including any one of the usage period, replacement history, price, operation time, operation frequency, and operation pattern of the management device along with device information.
- the control server may standardize the device index by averaging as many as the number of managed devices to generate analysis information.
- the analysis step 22 may be a step in which the control server receives user information using the management device and generates analysis information including a user index generated by indexing the user information.
- the control server may generate a user index by assigning user weights according to users.
- the management device includes user information for a plurality of users, the control server may generate user information for each number of users.
- control server further receives location information, device information, and user information from a plurality of management devices as described above, and generates analysis information including an integrated index generated by indexing each information.
- the selection step 23 of selecting service information may be a step in which the control server selects at least one piece of service information that matches the analysis information.
- the control server may select service information based on analysis information generated using at least one of the above-mentioned environment information, location index, device index, user index, or integrated index.
- the control server may select more suitable service information by further including the user's interest index.
- the selection step 23 may be a step of selecting services and functions of the management device for managing the environment based on the analysis information.
- the control server may select service information including an operating mode and function of the management device to improve the environment.
- the control server may select service information for inspecting or replacing a management device.
- the selecting step 23 may be a step of selecting action guidelines for users or managers based on the analysis information.
- the control server may select service information including action guidelines for a user or manager to operate, inspect, or replace a management device.
- service information including guidelines for the user or manager to act to improve the environment may be selected separately from the management device.
- the selecting step 23 may be a step of selecting customized product information recommended to the user or manager based on the analysis information.
- the control server may select service information including product information for inspecting or replacing management devices, consumable information provided in management devices, product information for replacing the consumables, and product information required to improve the environment. .
- the service information is provided to at least one of a management device, a user using the management device, and a manager managing the management device. It may be a step to
- the providing step 24 may include providing service information to a user through a management device.
- the control server may provide the service information so that the service information is displayed on the management device.
- the control server may generate a notification or an alarm to the management device and provide service information.
- the control server may further include controlling an operation of the management device according to the service information.
- the control server may directly control the operation of the management device according to service information provided to the management device.
- the providing step 24 may include communicating with an external terminal to provide service information through at least one of a user's terminal and a manager's terminal.
- the control server may communicate with either a user's terminal or a manager's terminal.
- the terminal may mean a device capable of data communication, such as a smart phone, a PC, a laptop, a smart watch, and the like.
- the control server may provide service information to a user terminal or a manager's terminal through applications, messengers, text messages, phone calls, notification sounds, and displays. Further, the control server may include the location information of the management device and communicate with a manager's terminal located closest to the location information of the management device among the manager's terminals.
- the providing step 24 may be a step of providing the service information selected by the control server in a specific pattern. For example, it may include determining, by the control server, a frequency of providing service information to the user according to the integrated index.
- the control server may grade the integrated index for each section and generate an integrated index grade.
- the control server may determine the frequency of providing service information to correspond to the integrated index level.
- a step of providing service information selected by the control server to the user in a specific pattern may be included.
- the control server may provide service information of which the user's interest index is high during a time when the user mainly uses the management device.
- the control server may adjust the service information providing pattern in proportion to the interest index for the time or frequency of exposing the service information to the user.
- service information on the corresponding function and management device may be provided.
- the interactive environment management method may further include, after the providing step 24, a result receiving step of receiving a result of a behavior of a management device, user, or manager corresponding to the service information provided by the control server.
- the control server may receive the operation status of the operation mode of the management device corresponding to the service information.
- the control server may receive the user's or manager's action result corresponding to the service information. At this time, the control server may receive the action result through the user's terminal or the manager's terminal.
- a management device that collects environment information of a target space, an interactive system that analyzes the environment information to generate analysis information about the environment, and selects service information matching the analysis information, and an interactive environment management method using the same is initiated Through the interactive system and interactive environment management method described above, environment information of managed devices may be analyzed to generate environment analysis information.
- customized service information may be provided to a management device, a user, or a manager using the generated analysis information. Accordingly, it is possible to improve a user's or manager's satisfaction with the management device and provide convenience for environment management.
- FIG. 6 is a schematic installation view of an interactive system according to an embodiment.
- 7 is a schematic interaction diagram of an interactive system according to an embodiment.
- the interactive system 3 may include a management device 31 and a control server 32 .
- the management device 31, the control server 32, and the user U may interact.
- the management device 31, the control server 32, and the manager may interact.
- the interactive system 3 collects operation information of the management device 31 in the control server 32, and the control server 32 analyzes the operation information to generate user U's propensity information.
- the control server 32 may provide customized feedback by selecting customized information using the propensity information and providing the customized information to the user U or manager.
- the manager may mean a person who provides services for the management device 31.
- the management device 31 may be a device provided in the target space to manage the environment of the target space.
- the management device 31 may include, but is not limited to, an air purifier, a dehumidifier, a control device, a sterilizer, a water purifier, a sterilizer, a dispenser, and a bidet.
- At least one management device 31 may be provided.
- a first management device 31a, a second management device 31b, a third management device 31c, and a fourth management device 31d may be provided in each target space.
- Personal information of the user U may be input to the management device 31 .
- the personal information of the user U may include age, sex, height, weight, or disease history. Personal information of a plurality of users (U) may be input.
- Positional information of the target space may be input to the management device 31 .
- the management device 31 may receive the installed location through GPS or the like.
- personal information may be received from an external organization.
- the external institution may be a medical institution that holds the user's body information and medical information.
- the control server 32 may transmit/receive at least one data with the management device 31 .
- the control server 32 may be installed for each area unit.
- the control server 32 may include a data storage unit and a process for processing data.
- the control server 32 may receive operation information from the management device 31 .
- Operation information may mean information about the operation of the management device 31 .
- the operating information may include at least one of an operating function, operating time, operating period, operating frequency, and operating pattern of the management device 31, but is not limited thereto.
- the control server 32 may analyze operation information of the management device 31 to generate propensity information of the user U.
- the propensity information may refer to information about what type of propensity the user U has.
- the propensity information may include at least one of the user U's interest index by function, interest index by device, interest index by field, and general interest index, but is not limited thereto.
- the control server 32 may select at least one piece of customized information according to the propensity information.
- Customized information may refer to information suitable for the user U's inclination.
- the customized information may include at least one of products, services, and functions recommended to the user, and information on inspection and replacement of a management device being used by the user, but is not limited thereto.
- the interactive system 3 analyzes the operation information of the management device 31 in the control server 32, analyzes the user U's propensity, and provides customized information to the user U. satisfaction and convenience can be improved.
- the propensity information and customized information will be described in detail.
- FIG. 8 is a block diagram of fields and functions of a management device according to an exemplary embodiment.
- 9 is a flowchart for generating an index of interest according to an embodiment.
- the control server 32 may collect operation information for each function of the management device 31 .
- a plurality of functions may be included in one management device 31 .
- the control server 32 may collect at least one of operating time, operating period, operating frequency, and operating pattern for each function of the management device 31 .
- the operation time may refer to information about the operation time of the corresponding function.
- the operation period may refer to information about how long the corresponding function has been operated.
- the operation frequency may refer to information on how often a corresponding function is operated.
- the operation pattern may refer to information about the operation pattern of the corresponding function.
- the control server 32 may collect operation information for each function and generate a feature interest index using the operation information.
- the function interest index may be an index indicating how interested the user U is in a corresponding function.
- a function interest index may be generated for each function.
- the control server 32 may generate a function interest index using numerical values of operation information of a corresponding function. For example, the function interest index may increase as the operation period of the corresponding function increases, and the function interest index may increase as the operation frequency increases.
- the control server 32 may generate a feature interest index by assigning an operating weight to operating information of a corresponding function. The operation weight may be applied differently for each function according to the characteristics of the corresponding function and the operation pattern of the corresponding function.
- the weight applied to the operation period may be set low.
- a high weight applied to the operation period may be set.
- the control server 32 may collect function interest points for each management device 31 .
- a plurality of function interest points may be generated in the management device 31, and the control server 32 may collect function interest points for each management device 31.
- the control server 32 may generate a device interest index using the function interest index.
- the device interest index may be an index indicating how interested the user U is in the corresponding management device 31 .
- the control server 32 may generate a device interest index by assigning a function weight to the function interest index.
- the function weight may be determined in consideration of environmental information of the target space or personal information of the user U.
- the environmental information of the target space may include a location of the target space and a geographical environment around the target space.
- the environmental information of the target space may include information on whether the target space is a living room, a kitchen, a bedroom, or a bathroom.
- Environmental information of the target space may include information on whether there are factories, hospitals, roads, etc., mountains, fields, forests, rivers, rivers, or seas around the target space, and how close they are. Depending on such environmental information, the necessity or importance of the corresponding function may be evaluated differently. Accordingly, the function weight may be determined in consideration of the environmental information of the target space.
- a high function weight may be assigned.
- the user U's personal information may include information about the user U's age, sex, height, weight, and disease history.
- the necessity or importance of the corresponding function may be differently evaluated. For example, when the user U is a young infant, the importance of a specific function may be highly evaluated, and thus a high function weight may be assigned to the corresponding function.
- a high function weight can be assigned to the corresponding function.
- the control server 32 may normalize the device interest index by taking an average as many as the number of functions.
- the control server 32 may generate a device interest index by collecting operation information for each management device 31 .
- the device interest index may be generated directly without going through the function interest index.
- the control server 32 may generate a device interest index by assigning a weight to operation information for each management device 31 .
- the weight assigned may be determined by considering at least one of characteristics of the corresponding function, operation pattern of the corresponding function, environmental information of the target space, and personal information of the user U.
- the control server 32 may group the management devices 31 into at least one field. For example, according to the purpose of the management device 31, the control server 32 may be grouped into at least one of an air field, a water quality field, a pest field, and a sanitation field. One management device 31 may be grouped into two or more fields. Grouping may be predetermined.
- the control server 32 may collect the device interest index of the management device 31 corresponding to each field. That is, the control server 32 may collect interest indices of management devices 31 corresponding to each field for each field.
- the control server 32 may generate a sector interest index using the device interest index.
- the field interest index may be an index indicating how interested the user U is in the corresponding field. For example, the control server 32 may generate a field interest index by assigning a device weight to the device interest index.
- the device weight may be determined in consideration of at least one of a usage period, replacement history, and price of the corresponding management device 31 .
- the level of interest of the corresponding device may be evaluated differently. For example, when the user U uses the management device 31 for a long time, the importance of the management device 31 is regarded as high, and a high device weight may be assigned. For example, if the user U has a history of frequently replacing the management device 31 with a new one, it may mean that the user U has a lot of interest in the management device, so a high device weight may be assigned. can For example, when the price of the management device 31 is high, it may mean that the user U has a lot of interest in the management device, so a high device weight may be assigned.
- the control server 32 may normalize the field interest index by taking an average as many as the number of management devices 31 .
- the control server 32 may collect field interest points and generate a comprehensive interest point using the field interest points.
- the overall interest index may refer to an index indicating how interested the user U is in managing the target space.
- the control server 32 may generate a comprehensive interest index by assigning a weight to a sector interest index.
- the field weight may be determined in consideration of environmental information of the target space or personal information of the user U.
- the environmental information of the target space may include information on whether the target space is a kitchen, a bedroom, or a bathroom.
- Environmental information of the target space may include information on whether there are mountains or rivers around the target space, whether there are factories or hospitals, and how close they are. Depending on this environmental information, the necessity or importance of the field can be evaluated differently.
- field weights may be determined in consideration of environmental information of the target space. For example, if the need for the corresponding field is high due to the environmental characteristics of the target space, a high weight may be assigned to the field.
- the user U's personal information may include information about the user U's age, gender, height, weight, and disease history.
- the necessity or importance of the corresponding field may be evaluated differently. For example, when the user U is a young infant, the importance of a specific field may be highly evaluated, and thus a high field weight may be assigned to the corresponding field. For example, when the user U has a history of suffering from a specific disease, the importance of the specific field may be highly evaluated, and thus a high field weight may be assigned to the corresponding field.
- the control server 32 may select customized information using at least one of a function interest index, a device interest index, a field interest index, and a comprehensive interest index.
- the control server 32 may provide customized information to the user U through the display of the management device 31 .
- the control server 32 may provide customized information to the user U through the user U's personal terminal.
- the terminal of the user U may include a smart phone, PC, laptop, tablet, smart watch, and a dedicated terminal, etc., and provides customized information through applications, messengers, text messages, calls, notification sounds, and displays. It can be provided to the user U.
- the control server 32 may provide customized information to the manager and deliver the customized information to the user U through the manager.
- the control server 32 may determine the frequency of providing customized information to the user U according to the total interest index.
- the overall interest index is high, it may mean that the user U is very interested in managing the target space. Therefore, by setting the frequency of providing customized information higher as the comprehensive interest index of the user U increases, it is possible to satisfy the user U's need for managing the target space.
- the overall interest index is low, it may mean that the user U has low interest in managing the target space. Therefore, by setting the frequency of providing customized information lower as the comprehensive interest index of the user U is lower, it is possible to provide only the minimum amount of customized information necessary for the user U.
- the control server 32 may generate a comprehensive interest level by grading the comprehensive interest index for each section.
- the control server 32 may determine the frequency of providing customized information to correspond to the comprehensive interest level.
- the control server 32 compares field interest indices for each field, and may select more customized information for a field having a higher field interest indices. For example, the control server 32 may select, as customized information, information about a product corresponding to a field having the highest field interest index. The control server 32 sets the field with the highest field interest index as the main field of interest and the second highest field as the secondary field of interest, and sets the information on the product corresponding to the main field of interest or the secondary field of interest as customized information. can be selected The control server 32 may select product information in each field as customized information in proportion to the field interest index. For example, when the ratio of interest indices between fields is 5:3:2, the number of customized information corresponding to each field may be selected at a ratio of 5:3:2.
- control server 32 may select information on products corresponding to the main field of interest and the secondary field of interest as customized information according to the interest index ratio between the main field of interest and the secondary field of interest. According to this configuration, the user U can provide more customized information about the field of interest.
- the control server 32 compares device interest indices, and may select more customized information for a management device 31 having a higher device interest indices. For example, the control server 32 may select device information about the management device 31 having the highest device interest index as customized information. The control server 32 sets the management device 31 having the highest device interest index as a main device of interest and the management device 31 having the second highest device interest as a secondary device of interest, and sets the device for the main device of interest or the auxiliary device of interest. Information can be selected as customized information. The control server 32 may select device information of each management device 31 as customized information in proportion to the device interest index.
- the control server 32 may select device information corresponding to the main device of interest and the auxiliary device of interest as customized information according to the device interest index ratio of the main device of interest and the auxiliary device of interest. According to this configuration, the user U can provide more customized information about the management device 31 of interest.
- the above-described device information includes information on new products of the management device 31, information on inspection of the management device 31, information on replacement of the management device 31, information on consumables of the management device 31, It may include at least one of news information about the management device 31 and information about a software update of the management device 31 .
- the control server 32 may select specific customized information for the corresponding management device 31 using state information of the corresponding management device 31 . For example, the control server 32 customizes information on a new product of the corresponding management device 31 when a product newer than the corresponding management device 31 is released or when the warranty period of the corresponding management device 31 ends. information can be selected. When the inspection period of the management device 31 arrives, the control server 32 may select information about the inspection of the management device 31 as customized information.
- the control server 32 may select information about replacement of the corresponding management device 31 as customized information when the corresponding management device 31 is defective or out of order.
- the control server 32 may select information on the consumables of the management device 31 as customized information when consumables of the corresponding management device 31 are exhausted or when a new product of the consumables is released.
- news information on the management device 31 is issued, the control server 32 may select the news information on the management device 31 as customized information.
- News information may be a concept including news, magazines, columns, postings, and the like. According to this configuration, it may be possible to provide suitable information about the management device 31 of interest to the user U.
- the control server 32 may compare the function interest index and select information about a product having a function having a high function interest index as customized information. For example, the control server 32 may select information about the management device 31 including the function having the highest function interest index as customized information. The control server 32 sets the function with the highest function interest index as the main interest function and the second highest function as the secondary interest function, and selects information on products having the main interest function or the auxiliary interest function as customized information. can do. The control server 32 may select information about the management device 31 including both the main function of interest and the auxiliary function of interest as customized information. The control server 32 may select device information including each function as customized information in proportion to the function interest index. According to this configuration, more customized information about the management device 31 including the function of interest to the user U can be provided.
- control server 32 may select, as customized information, information on a product that the user U is not using among products corresponding to the main field of interest or the secondary field of interest. For example, the control server 32 may select customized information in consideration of a function interest index or a device interest index. For example, among the management devices 31 not in use by the user U, information about a management device 31 including a function having a high function interest rate may be selected as customized information. According to this configuration, since the user U can recommend the management device 31 including the function of interest to the user U, the needs of the user U can be satisfied. In addition, among the management devices 31 not in use by the user U, information about a management device 31 similar to the management device 31 having a high device interest index may be selected as customized information.
- the management device 31 similar to the device in which the user U is interested can be recommended to the user U, the needs of the user U can be satisfied.
- the most suitable management device 31 for the user U is selected among the management devices 31 that are not being used even though they correspond to the user U's main field of interest or secondary field of interest, and the information about this is converted into customized information. Since it can be provided, it is possible to improve the satisfaction of the user (U).
- the control server 32 may provide the user U with selected customized information in a specific pattern. For example, the customized information having the highest interest index may be provided during the time when the user U mainly uses the management device 31 .
- the control server 32 may adjust the time or frequency of exposing the customized information to the user U in proportion to the interest index. For example, customized information with a relatively high interest index can make the time exposed to the user U relatively long, and customized information with a relatively low interest index can make the time exposed to the user U relatively short. there is.
- the control server 32 may provide customized information on the corresponding function, management device 31 or field when the user U is using the corresponding function, management device 31 or field.
- the control server 32 may provide the user U with customized information including information on products having the main interest function or the auxiliary interest function when the user U is using the main interest function or the auxiliary interest function.
- the control server 32 may provide customized information including device information on the main device of interest or the auxiliary device of interest to the user U when the user U is using the main device of interest or the auxiliary device of interest. .
- the control server 32 provides customized information including product information corresponding to the main field of interest or the auxiliary field of interest when the user U is using the management device 31 corresponding to the main field of interest or the secondary field of interest. It can be provided to the user U. In this way, by providing customized information in consideration of the function, manager, or field being used by the user U, appropriate customized information can be provided to the user U in a timely manner.
- the control server 32 may generate propensity information of each user U for each number of users U. For example, when the personal information of two users (U) is input to the management device 31, operation information transmitted through the corresponding management device 31 is classified into two groups, and propensity information for each user U is classified. can create In order to classify operation information for each user U, the control server 32 may use machine learning. Alternatively, the operation information may be classified for each user U by transmitting the information on the operating entity from the management device 31 to the control server 32 together. The control server 32 may generate propensity information for each user U and select customized information for each user U. When it is determined that the user U is using the management device 31, the control server 32 may provide customized information for the user U.
- the control server 32 may select information on a product that the user U is not using as customized information in consideration of environmental information of the target space. For example, the control server 32 may analyze environmental information of the target space where the management device 31 is installed to determine products required for the target space. For example, the control server 32 determines that the air quality management device 31 is necessary when the target space has a higher dust generation rate than other spaces, and the user U determines that the air quality management device 31 is required. If not using, information on the management device 31 in the field of air quality may be provided as customized information. The control server 32 may use information on the management devices 31 of other users U provided in the target space when determining products required for the target space. For example, if there are many management devices 31 of a specific field in the target space, the control server 32 may determine that the target space requires the management device 31 of the corresponding field.
- FIG. 10 is a flowchart of an interactive management method according to an exemplary embodiment.
- an interactive management method 4 may be a method of interaction between a management device, a control server, and a user.
- operation information of management devices is collected by a control server, and the control server may generate user tendency information by analyzing the operation information.
- the control server may provide customized feedback by selecting customized information using the propensity information and providing the customized information to the user or manager.
- the interactive management method 4 may include providing a management device 41 , analyzing propensity information 42 , selecting customized information 43 , and providing customized information 44 .
- the step of providing a management device 41 may be a step of providing at least one management device provided in the target space to manage the environment of the target space. Personal information or locational information of a user may be input to the management device.
- the management device may transmit and receive data to and from the control server.
- the management device may transmit operation information to the control server.
- the control server may be installed in units of a predetermined area to transmit/receive data with at least one management device.
- the control server may include a data storage unit and a process for processing data.
- the propensity information analysis step 42 may be a step of receiving operation information of the management device from the control server and generating user propensity information by analyzing the operation information.
- the operating information may include at least one of an operating function, an operating time, an operating period, an operating frequency, and an operating pattern, but is not limited thereto.
- the control server may generate user tendency information by analyzing operation information of the management device.
- the propensity information may refer to information about what kind of propensity the user has.
- the propensity information analysis step 42 includes a function interest index generation step 421, a device interest index generation step 422, a field interest index generation step 423, and a comprehensive interest index generation step 424.
- the function interest index generation step 411 may be a step in which the control server collects operation information for each function of the management device and generates a function interest index using the operation information.
- the function interest index may be an index indicating how interested a user is in a corresponding function.
- a function interest index may be generated for each function.
- the control server may generate a function interest index using numerical values of operation information of a corresponding function.
- the operation weight may be applied differently for each function according to the characteristics of the corresponding function and the operation pattern of the corresponding function.
- the device interest index generating step 422 may be a step in which the control server collects operation information for each managed device and generates a device interest index using the operation information.
- the control server may collect function interest indices for each management device.
- a management device has a plurality of functions
- a plurality of feature interest points may be generated in the management device, and the control server may collect function interest points for each management device.
- the control server may generate a device interest index using the function interest index.
- the device interest index may be an index indicating how interested a user is in a corresponding managed device.
- the control server may generate a device interest index by assigning a function weight to the function interest index.
- the function weight may be determined in consideration of environmental information of the target space or personal information of the user.
- the environmental information of the target space may include a location of the target space and a geographical environment around the target space.
- the user's personal information may include information about the user's age, gender, height, weight, and disease history.
- the control server may normalize the device interest index for managed devices having a plurality of functions by taking an average as many as the number of functions.
- the device interest index generation step 422 may be a step in which the control server collects operation information for each managed device and generates a device interest index using the operation information.
- the device interest index may be generated directly without going through the function interest index.
- the control server may generate a device interest index by assigning a weight to operation information for each managed device. At this time, the weight assigned may be determined by considering at least one of characteristics of the corresponding function, operation pattern of the corresponding function, environmental information of the target space, and personal information of the user.
- the sector interest index generation step 423 is a step in which the control server groups management devices into at least one field, collects the device interest points for each field, and assigns a device weight to the device interest point to generate the field interest index.
- the control server may group management devices into at least one field. One management device may be grouped into two or more fields. Grouping may be predetermined.
- the control server may collect device interest indices of management devices corresponding to each field. That is, the control server may collect interest indices of management devices corresponding to each field for each field.
- the control server may generate a field interest index using the device interest index.
- the field interest index may be an index indicating how interested a user is in a corresponding field.
- control server may generate a field interest index by assigning a device weight to the device interest index.
- the device weight may be determined in consideration of at least one of a usage period, replacement history, and price of the corresponding management device.
- control server may normalize the field interest index by taking an average as many as the number of management devices.
- the generating comprehensive interest index 424 may be a step in which the control server collects field interest points and assigns a field weight to the field interest points to generate a comprehensive interest point.
- the overall interest index may refer to an index indicating how much the user is interested in managing the target space.
- the control server may generate a comprehensive interest index by assigning a weight to a sector interest index.
- the field weight may be determined in consideration of environmental information of the target space or personal information of the user.
- the user's personal information may include information about the user's age, gender, height, weight, and disease history.
- the customized information selection step 43 may be a step in which the control server selects at least one piece of customized information according to propensity information.
- the control server may select customized information using at least one of a function interest index, a device interest index, a field interest index, and a comprehensive interest index.
- the control server compares field interest indices for each field, and can select more customized information for a field with a higher field interest indices.
- the field with the highest field interest index in the control server is set as the main field of interest, and the second highest field is set as the secondary field of interest, and information on products corresponding to the main field of interest or the secondary field of interest is obtained.
- a step of selecting with customized information may be included.
- the control server may select product information in each field as customized information in proportion to the field interest index.
- the control server may select information on products corresponding to the main field of interest and the secondary field of interest as customized information according to the interest index ratio between the main field of interest and the secondary field of interest.
- the selecting step 43 may include selecting, as customized information, device information about a managed device having the highest device interest index in the control server.
- the control server compares device interest indices, and may select more customized information for a management device having a higher device interest indices. For example, the control server may select device information about a management device having the highest device interest index as customized information.
- the management device with the highest device interest index is set as the main device of interest, and the management device with the second highest device interest is set as the auxiliary device of interest in the control server, and device information on the main device of interest or the auxiliary device of interest is customized. It may include a step of selecting with information.
- the control server may select device information of each managed device as customized information in proportion to the device interest index.
- the control server may select device information corresponding to the main device of interest and the auxiliary device of interest as customized information according to the device interest index ratio of the main device of interest and the auxiliary device of interest.
- the above-described device information includes at least one of information on new products of managed devices, information on inspection of managed devices, information on replacement of managed devices, information on consumables of managed devices, and news information on managed devices. can do.
- the control server may select specific customized information for the corresponding management device using state information of the corresponding management device.
- News information may be a concept including news, magazines, columns, postings, and the like.
- the selecting step 43 may include selecting information about a product having a function having the highest function interest index as customized information in the control server.
- the control server may compare the function interest index and select information about a product having a function having a high function interest index as customized information. For example, the control server may select information about a management device including a function having the highest function interest index as customized information.
- the function with the highest function interest index in the control server is set as the main interest function, and the second highest function is set as the secondary interest function, and the information on the product having the main interest function or the auxiliary interest function is customized. It may include a step of selecting with information.
- the control server may select information about a management device including both a main function of interest and a secondary function of interest as customized information.
- the control server may select device information including each function as customized information in proportion to the function interest index.
- the selection step 43 may include a step of selecting, by the control server, information about a product that the user is not using among products corresponding to the main field of interest or the secondary field of interest as customized information.
- the control server may select customized information in consideration of a function interest index or a device interest index.
- information on a managed device similar to a managed device having a high device interest index may be selected as customized information. According to this configuration, it is possible to select the most suitable management device for the user among management devices that are not in use even though they correspond to the user's main field of interest or secondary field of interest, and provide information about this as customized information, thus increasing user satisfaction. can improve
- control server may select information on a product that is not used by the user as customized information in consideration of environmental information of the target space. For example, the control server may determine products required for the target space by analyzing environmental information of the target space where the management device is installed. The control server may use information on management devices of other users provided in the target space when determining products required for the target space. For example, if there are many management devices in a specific field in the target space, the control server may determine that the target space requires management devices in the corresponding field.
- the customized information providing step 44 may be a providing step of providing the customized information to the user or manager.
- the control server may provide customized information to the user through the display of the management device.
- the control server may provide customized information to the user through the user's personal terminal.
- the control server may provide customized information to the manager and deliver the customized information to the user through the manager.
- the customized information providing step 44 may include determining the frequency at which the control server provides the customized information to the user according to the total interest index.
- the control server may generate a comprehensive interest level by grading the comprehensive interest index for each section.
- the control server may determine the frequency of providing customized information to correspond to the comprehensive interest level.
- the control server may provide the user with selected customized information in a specific pattern. For example, customized information having the highest interest index may be provided during a time when a user mainly uses a management device.
- the control server may adjust the time or frequency of exposing the customized information to the user in proportion to the interest index. For example, customized information with a relatively high interest index may have a relatively long exposure time to users, and customized information with a relatively low interest index may have a relatively short exposure time to users.
- the control server may provide customized information on the corresponding function, management device or field when the user is using the corresponding function, management device or field.
- the control server may provide the user with customized information including information on products having the main function of interest or the secondary function of interest when the user is using the function of main interest or the function of secondary interest.
- the control server may provide the user with customized information including device information on the main device of interest or the auxiliary device of interest when the user is using the main device of interest or the auxiliary device of interest.
- the control server may provide customized information including product information corresponding to the main field of interest or the secondary field of interest to the user when the user is using a management device corresponding to the main field of interest or the secondary field of interest. In this way, by providing customized information in consideration of the function, manager, or field being used by the user, appropriate customized information can be provided to the user in a timely manner.
- FIG. 12 is a structural diagram of an interactive environment management system according to an embodiment
- FIG. 13 is a block diagram of an interactive environment management system according to an embodiment
- FIG. 14 is a structural diagram of a control server according to an embodiment
- FIG. 15 is a block diagram of an interactive environment management system according to an embodiment. It is a block diagram of an environment field managed by a management device according to an embodiment.
- the interactive environment management system may analyze the environmental state of a target area in real time and select a management service required for the environment of the target area.
- the interactive environment management system may provide a manager who manages the environment of the target area with an operation command for the selected management service.
- the interactive environment management system may include a management device, a control server, and a manager device.
- the interactive environment management system can actively and preemptively manage the environment of the target area by selecting an appropriate management service based on the environmental state of the target area and providing the selected management service to the manager.
- a manager may refer to a person who provides management services for a target area.
- the management device may be provided in the target area to manage the environment of the target area.
- a management device may manage one or more environmental fields.
- the management device may manage at least one environmental field among a control field, an air quality field, a water quality field, and a sanitation field.
- the management device 51 in the field of pest control may include a pest trapping device, a rodent trapping device, and the like.
- the air quality management device 51 may include an air purifier, a ventilator, a dehumidifier, a humidifier, a dispenser, and the like.
- the management device 51 in the field of water quality may include a water purifier and the like.
- the hygiene management device 51 may include a sterilizer, a sterilizer, a bidet, and the like. However, this is illustrative and not limited thereto.
- the control server may collect information through the management device and select a management service required for the target area based on the collected information.
- the control server may perform two-way communication with at least one or more management devices.
- the control server sets a certain area as one management unit and may be installed in each management unit.
- the control server may include a data collection unit, an analysis unit, a management unit, and a communication unit.
- the data collection unit may include information related to the environment of the target area.
- the data collection unit may collect environmental information of a target area recognized through a management device.
- the environmental information may refer to environmental information managed by the management device, such as control, air quality, water quality, and sanitation in the target area.
- the control information may include internal and external weather information of the pest trapping device for trapping pests and pest information detected by the pest trapping device.
- pests may collectively refer to insects and animals that harm humans and livestock.
- the internal and external weather information of the insect trapping device may include at least one of temperature, humidity, wind direction, weather, time, and warnings or warnings issued by the Korea Meteorological Administration in an area equipped with the pest trapping device.
- Pest information detected by the pest trapping device may include at least one of types of pests, harmfulness information, behavioral information according to seasons and time, access information, movement information, weight information, and food intake information.
- the air quality information may include at least one of internal and external weather information, an air quality index, and components of a measuring device for measuring air quality.
- the internal and external weather information of the measuring device may include at least one of temperature, humidity, wind direction, weather, time, and warnings or warnings issued by the Korea Meteorological Administration in an area where the device is installed.
- the air quality information may include an air quality index including an air pollution measurement value indicating how much the air is currently polluted and how the level of pollution will change in the future.
- air quality information includes various volatile organic compounds (VOCs) such as formaldehyde, radon, toluene, benzene, and acetone, which are carcinogenic substances generated from various indoor building materials, pollutants such as nitrogen dioxide generated from asbestos, , component information on the ignition of gas used when cooking food in the kitchen or carbon dioxide generated in the process of breathing of the human body may be included.
- VOCs volatile organic compounds
- the water quality information may include at least one of internal and external weather information of the water quality measuring device and turbidity, color, carbonate hardness, total hardness, pH, odor, constituents, dissolved oxygen content, and conductivity of the water quality.
- the internal and external weather information of the water quality measurement device may include at least one of temperature, humidity, wind direction, weather, time, and warnings or warnings issued by the Korea Meteorological Administration in an area where the measurement device is equipped.
- the component may include TDS (Total Dissolved Solids). TDS is total dissolved solids, which refers to minerals, salts, metals, cations and anions dissolved in water.
- Inorganic substances such as mercury, cyan, arsenic, hexavalent chromium, cadmium, lead, fluorine, selenium, nitrate nitrogen, ammonia nitrogen, boron, and organic substances such as phenol, THM (Tri-Halo Methane), diazinon, parathion, fenitrothion, carbanyl, residual chlorine, benzene, toluene, ethylbenzene, xylene, chloroform, dibromochloromethane, 1.1.1-trichloroethane, 1.2-dibromo-3 -Chloropropane, tetrachloroethylene, chloral hydrate, trichlorethylene, dibro
- the hygiene information may include at least one of internal and external weather information of the hygiene measurement device that measures hygiene, and bacteria information of the inside and outside of the hygiene measurement device.
- Internal and external weather information of the sanitary measurement device may include at least one of temperature, humidity, wind direction, weather, time, and warnings or warnings issued by the Korea Meteorological Administration in an area where the measurement device is provided.
- Bacterial information may include a variety of information capable of analyzing the current status of remaining bacteria, such as the type of bacteria detected by the hygiene measuring device, the degree of reproduction of bacteria, and the number of bacteria.
- the data collection unit may include operation information of the management device along with environment information.
- the operation information collected by the data collection unit includes the operation function of the management device, operation time, operation period, operation frequency and operation pattern, information on maintenance and replacement of the management device, information on the software version of the management device, etc. can do.
- the data collection unit may collect surrounding environment information of the target area.
- the control server may collect real-time environment information of the target area and device information of the management device through the management device.
- the control server may collect environmental information around the target area through an external server.
- external servers provide various environmental information such as the Korea Meteorological Administration, National Fire and Prevention Agency, Air Korea, National Crop Disease and Pest Control System, National Air Pollution Information Management System, National Fine Dust Information Center, Water Environment Information System, and National Water Resources Management Comprehensive System. It can be linked with an external server provided.
- Environment information around the target area may mean environment information within a regional range including the target area.
- the environmental information around the target area is an environmental change event that affects the target area, for example, occurrence of pests, outbreak of dust, occurrence of fire, yellow dust warning, fine dust warning, ultrafine dust warning, strong wind warning, storm warning, Heavy rain warning, heavy snow warning, drying warning, storm surge warning, typhoon warning, heat wave warning, cold wave warning, radon occurrence, volatile organic compound (VOCs) occurrence, radioactivity occurrence, epidemic outbreak, natural disaster occurrence, weather change and water quality change
- VOCs volatile organic compound
- a change may occur in the environmental state of the target area.
- the event is not limited thereto, and any event that can cause a change in environmental state in the target area may correspond to the event.
- the analysis unit may analyze the environmental state of the target area based on the information collected through the data collection unit.
- the analysis unit may analyze the environmental state of the target area in various ways.
- the analysis unit may classify the collected information into a plurality of factors, and generate an analysis result of the environmental state of the target area through a combination of the classified factors. For example, when the analyzer analyzes air quality, the analyzer may classify information about air quality within a target area into factors such as fine dust concentration, radon concentration, carbon dioxide concentration, and carbon monoxide concentration. The analyzer may generate an individual indicator by applying an individual weight to each of the classified factors, and may generate an analysis result by extracting some factors from among a plurality of factors based on the generated individual indicator. Since the effect on the environment is different depending on the concentration of each factor, the analysis unit can perform efficient management by quantifying the value of each factor into individual indicators.
- factors such as fine dust concentration, radon concentration, carbon dioxide concentration, and carbon monoxide concentration.
- the analyzer may generate an individual indicator by applying an individual weight to each of the classified factors, and may generate an analysis result by extracting some factors from among a plurality of factors based on the generated individual indicator. Since the effect on the environment is different
- the analysis unit may generate an analysis result by selectively extracting a factor having a high impact on the environmental state of a target area among individual indicators of each factor. For example, when the carbon monoxide risk index in the target area is higher than other factors, the analysis unit may analyze air quality in the target area as a dangerous state.
- the analysis unit may extract and quantify some factors requiring conflicting management services among a plurality of factors, and generate an analysis result based on the values of the extracted factors. For example, assuming that the analysis unit manages the air quality in the target area, an increase or decrease in the carbon dioxide concentration in the target area requires ventilation in the target area, while an increase or decrease in the fine dust concentration in the target area requires a window closing action in the target area. can request In this case, the analysis unit may generate an accurate analysis result to provide a more suitable management service based on the numerical value of the extracted factor.
- the analysis unit may classify the environmental state of the target area into one environmental grade among a plurality of reference environmental grades. For example, assuming that the analyzer analyzes the air quality of the target area, the analyzer may classify the air quality of the target area as one of a plurality of standard environment grades such as a dangerous state, a stable state, and a comfortable state. In this case, the classification of the standard environment level may be set according to the characteristics of the target area. The characteristics of the target area may include the location, size, purpose of use, information on the number of people entering the target area, and the like.
- the reference environment level may be classified into a plurality of detailed grades when the target area requires a more detailed environmental condition, for example, when the target area requires a high level of sanitation such as in a hospital. On the other hand, when the target area requires a relatively low level of sanitation, such as a factory, the number of classifications of the standard environment class may decrease.
- the analysis unit may evaluate the environmental state of the target area as a digitized environmental index.
- a plurality of environmental grades may be classified through the digitized environmental index.
- a plurality of environmental grades may be set to classify numerical ranges of digitized environmental indices, and the setting of the environmental grades may be determined according to environmental characteristics of a target area.
- the analysis unit may correct the digitized environmental index through environmental information around the target area.
- the control server may set and manage a regional range based on a target area as a geofence.
- the analysis unit may analyze the environmental state of the target area by reflecting environmental information within the set geofence.
- the analysis unit may set one or more surveillance zones located within the geofence.
- the surveillance zone set by the analysis unit may be a chemical factory adjacent to the food factory.
- the analysis unit may quantify the influence of the environment of the monitoring area on the environment of the target area to generate an environmental correction value, and correct the environmental index of the target area through the environmental correction value.
- the environmental correction value may reflect information such as the distance between the monitoring area and the target area, the geographical characteristics between the monitoring area and the target area, and the environmental state of the monitoring area.
- the analyzer may recognize an environmental event occurring within the geofence and correct an environmental index of the target area through an effect of the recognized environmental event on the target area. For example, when a forest fire occurs within a geofence, the analyzer may analyze the air quality of the target region by predicting a change in air quality in the target region according to the influence of the forest fire. The analyzer may quantify the effect of the recognized environmental event on the target area, generate an event correction value, and correct an environmental index of the target area through the event correction value.
- the analysis unit may evaluate an expected environmental index according to time in the target area through environmental information in the geofence. Through the expected environment index, the management department can determine the corresponding management service over time in the target area.
- the analysis unit may re-evaluate the environmental index of the target area through feedback based on the performance result.
- the management unit may select a management service required for the target area based on the environmental state of the target area analyzed by the analysis unit.
- the management unit may set a database for management services, and select a management service matching the analysis result of the analysis unit from the database.
- the management unit may define management services that match each environmental level of the target area evaluated by the analysis unit, and may select a management service suitable for the target area through the determined environmental level of the target area.
- the management unit may select a management service suitable for the environmental state of the target area from among management services matching the environmental level of the target area based on the type of received information. For example, when the air quality of the target area is determined to be dangerous, the corresponding management service may include services such as ventilation of the target area, removal of pollutants, inspection of management equipment, and the like.
- the management unit may determine that the inspection of the target device is a suitable management service among management services matching the environmental level.
- the management unit may define management services corresponding to individual indicators of a plurality of factors classified by the analysis unit in the form of a matrix, and select a management service matching from the matrix by combining individual indicators of the extracted factors. For example, when corresponding management services are defined according to the individual indicators of each factor, the management unit combines the management services that match the individual indicators of each factor in a matrix form, and gives a comprehensive management service operation order for the target area. can determine
- the communication unit may transmit information about the selected management service to the manager device.
- the communication unit may recognize a location of a manager having a manager device in real time through location information of the manager device.
- the communication unit may select a manager device close to the target area and transmit a work command signal according to the management service to the selected manager device.
- 16 is a flowchart of an interactive environment management method according to an embodiment.
- the interactive environment management method can effectively provide management services required for the environment of the target area.
- An interactive environment management method may collect environmental information about a target area equipped with management devices, analyze an environmental state of the target area based on the collected information, and select an appropriate management service.
- the interactive environment management method can provide a service related to the environment of a target area in an active and preemptive manner by providing a selected management service to a manager who manages a target area.
- the interactive environment management method includes collecting information about the environment of the target area, analyzing the environmental state of the target area based on the collected information, selecting a management service matching the analysis result, and selecting the selected management service. It may include transmitting information about.
- information on one or more environmental factors of the target area may be collected.
- the information collection may be performed through a management device installed in the target area.
- environmental factors of the target area managed by the management device may include at least one of pest conditions, air conditions, water quality conditions, and hygiene conditions for the target area.
- the information collected through the management device may include environment information of a target area sensed by the management device and operation information of the management device.
- the environmental state of the target area may be analyzed in various ways.
- FIG. 17 is a flowchart of an environmental state analysis step according to an embodiment
- FIG. 18 is a graph showing a factor extraction method in the environmental state analysis step
- FIG. 19 is a diagram showing a grade classification method in the environmental state analysis step.
- the step of analyzing the environmental state of the target area includes the step of classifying the collected information into a plurality of factors, the step of extracting some of the factors among the plurality of factors classified according to set conditions. and generating an analysis result of the environmental state of the target area by combining the extracted factors.
- information on an environmental element to be analyzed may be classified into each factor.
- an environmental element to be analyzed is a pest-related element
- the collected information may be classified into elements such as the type of pest, the number of pests per unit area, and the state of a pest trapping device.
- the step of extracting factors includes setting individual weights for each factor, generating individual indicators for each factor, and extracting some of the factors from a plurality of factors based on the ranking of the individual indicators.
- the step of extracting factors includes setting individual weights for each factor, generating individual indicators for each factor, and extracting some of the factors from a plurality of factors based on the ranking of the individual indicators.
- individual weights for each factor classified based on the characteristics of the target area may be set. For example, when the target area is a food factory, a weight for pests may be set higher than a weight for air quality.
- individual indicators for each factor may be generated by applying individual weights to each of the classified factors.
- some factors among a plurality of factors may be extracted according to set conditions.
- factors requiring conflicting management services among a plurality of factors may be selectively extracted and quantified.
- the environmental state of the target area may be analyzed according to the extracted factors.
- the step of generating an analysis result for the environmental state of the target area may include evaluating the environmental state of the target area as a digitized environmental index, setting a plurality of standard environmental ratings based on the characteristics of the target area, and Classifying the environmental state of the environment into one environment grade among a plurality of reference environmental grades.
- Evaluating the environmental state of the target area with the environmental index may include generating an initial value of the environmental index through environmental information of the target area; generating a correction value for the environmental index; and generating a result value for the environmental index by applying the correction value to the initial value.
- the correction value may be generated by quantifying an effect of an environment of a surveillance area set within a regional range based on the target area on the target area.
- the correction value may be generated by quantifying an effect of an environmental event occurring within a regional range based on the target area on the target area.
- a plurality of reference environmental grades may be set by partitioning a numerical range of the environmental index into sections.
- the setting of the standard environment level may be performed through information on the characteristics of the target area, eg, the location, geographic characteristics, size, purpose of use, number of people entering and leaving, and occupants of the target area.
- a management service suitable for the target area may be selected based on the analyzed environmental state of the target area.
- FIG. 20 is a flowchart of a management service selection step according to an embodiment
- FIG. 21 is a flowchart of a management service information transmission step according to an embodiment.
- selecting a management service may include defining a management service for each of the reference environment levels; and selecting a management service matching the environmental level of the classified target area.
- the management service information transmitting step may provide a management service for the selected target area to a manager who manages the target area. Transmission of the work command for the management service may be performed through the manager device. Transmitting the information on the management service may include: recognizing each location of a manager managing the target area through a device; selecting a manager to perform the management service through proximity to the target area; and transmitting a work command signal according to the management service to a device of the selected manager.
- the step of selecting a manager it is possible to determine whether or not the management service can be performed through schedule information of the manager, and select a manager capable of performing the management service.
- 22 is a schematic diagram of an interactive environment management system according to an embodiment.
- 23 is an interaction diagram of an interactive environment management system according to an embodiment.
- the interactive environment management system 7 may include a management device 71 and a control server 72 .
- the interactive environment management system 7 may detect an environment change event generated around a target space equipped with the management device 71 .
- the interactive environment management system 7 may quantify and analyze the effect of the event on the target space, and select necessary countermeasures according to the analyzed result.
- the interactive environment management system 7 may manage the environmental state of the target space by actively and preemptively responding to the occurrence of an event by providing a management device, a user, or a manager with a selected countermeasure.
- the manager may refer to a person who provides services for the management device 71.
- 24 is a block diagram of a field of a management device according to an embodiment.
- the management device 71 is provided in the target space to manage the environment of the target space.
- the management device 71 may include management devices in various fields.
- the management device 71 may include a management device in at least one of the field of pest control, air quality, water quality, and sanitation.
- the management device 71 in the field of pest control may include a pest trapping device, a bulbous trapping device, and the like.
- the air quality management device 71 may include an air purifier, a ventilator, a dehumidifier, a humidifier, a dispenser, and the like.
- the management device 71 in the field of water quality may include a water purifier and the like.
- the hygiene management device 71 may include a sterilizer, a sterilizer, a bidet, and the like. However, this is illustrative and not limited thereto.
- the control server 72 may transmit/receive data with at least one management device 71 .
- the control server 72 may be installed for each area unit.
- the control server 72 may detect an environmental change event occurring around the target space.
- the control server 72 may receive information about changes in the environment of the target space from the management device 71 .
- the control server 72 may receive information about an event occurring in the target space from an external server.
- the external server uses at least one of the Korea Meteorological Administration, the National Fire and Prevention Agency, Air Korea, the National Crop Disease and Pest Control System, the National Air Pollution Information Management System, the National Fine Dust Information Center, the Water Environment Information System, and the National Water Resources Management Comprehensive Information System.
- the control server 72 may detect an environmental change event through a separate sensor disposed in a nearby area of the target space.
- the environment change event may refer to an event that affects the target space.
- events include pest occurrence, draught occurrence, fire occurrence, yellow dust warning, fine dust warning, ultrafine dust warning, strong wind warning, storm warning, heavy rain warning, heavy snow warning, dry warning, storm surge warning, typhoon warning, It may include at least one of a heat wave warning, a cold wave warning, radon generation, volatile organic compounds (VOCs) generation, radiation generation, infectious disease outbreak, natural disaster occurrence, weather change, and water quality change.
- VOCs volatile organic compounds
- control server 72 may quantify and analyze the effect of the event on the target space.
- the control server 72 may select necessary countermeasures based on the analysis result.
- control server 72 a detailed event analysis method and a corresponding action selection method of the control server 72 will be described.
- 25 is a flowchart for generating a reference environmental index and environmental grade according to an embodiment.
- the control server 72 may generate a standard environmental index and environmental grade.
- the environmental index may refer to a numerical value representing an environmental state of a target space. The worse the environmental condition, the larger the environmental index.
- the reference environmental index may refer to a numerical value that is a standard for the environmental state of the target space. That is, the reference environmental index may refer to a numerical value that is a standard for evaluating an environmental state from numerical values of the environmental index.
- the reference environmental index may be set differently for each target space in consideration of the characteristics of the target space. That is, the control server 72 may consider environmental information of the target space or personal information of a user staying in the target space when generating the reference environment index.
- the environmental information of the target space may include the location, purpose and scale of use of the target space, and the location, purpose and scale of use of facilities around the target space.
- a criterion for managing the environmental state of the target space may vary depending on whether the purpose of using the target space is a school, a hospital, a residence, or a factory.
- management standards for environmental conditions required may vary depending on whether the purpose of using the target space is a school, a hospital, a residence, or a factory.
- management standards for environmental conditions required may vary.
- a hospital may require a higher management status than a residence
- a residence may require a higher management status than a factory.
- management standards for the required environmental state may vary depending on whether there are factories, hospitals, roads, etc., or mountains, fields, forests, rivers, rivers, or seas around the target space.
- the user's personal information may include at least one of age, gender, height, weight, and disease history.
- a criterion for managing the environmental state of the target space may vary. For example, if the user is a young infant, a higher level of care may be required. For example, when a user has a history of suffering from a specific disease, strict management may be required for factors that may cause the disease.
- each authentication information may be considered for a plurality of users.
- the personal information personal information registered in the management device 71 may be received or may be received from an external organization.
- the external institution may be a medical institution that holds the user's body information and medical information.
- the control server 72 may generate at least one reference environmental index.
- the control server 72 may generate first, second and third reference environment indices.
- the control server 72 may generate at least 23 or more environmental grades having at least one reference environmental index as a numerical boundary.
- the control server 72 may generate first, second, third, and fourth environmental grades having the first, second, and third reference environmental indices as respective numerical boundaries.
- the first environmental grade corresponds to a section less than the first standard environmental index
- the second environmental grade corresponds to a section equal to or greater than the first environmental index and less than the second standard environmental index
- the third environmental grade corresponds to the first environmental index.
- the fourth environmental level may correspond to a section equal to or higher than the third standard environmental index.
- the first, second, third, and fourth environmental levels may mean a comfort level, an appropriate level, a warning level, and a danger level, respectively. Meanwhile, this is an example, and various numbers of reference environmental indexes and environmental grades may be generated.
- 26 and 27 are graphs illustrating a reference environmental index and an environmental grade according to an exemplary embodiment.
- the standard environmental index can be strictly set.
- the standard environmental index is set to 20, 40, and 60, less than 20 is a comfort level, 20 or more and less than 40 is an appropriate level, 40 or more and less than 60 is a warning level, and 60 or more and 100 or less are It can be classified as a risk class.
- the standard environmental indexes and environmental grades may be set as shown in FIG. 26 .
- the standard environmental index may be set more gently than in the case of FIG. 26 .
- the standard environmental index is set to 20, 60, and 80, less than 20 is a comfort level, 20 or more and less than 60 is an appropriate level, 60 or more and less than 80 is a warning level, and 80 or more and 100 or less are It can be classified as a risk class.
- 28 is a flowchart of a process of selecting a countermeasure according to an embodiment.
- 29 and 30 are graphs showing expected environmental indices according to an embodiment.
- control server 72 may generate an expected environmental index according to the occurrence of an event, assign an environmental grade for each unit time and an emergency level for each unit time, and select a countermeasure for each unit time based on this. there is.
- the control server 72 may generate an estimated environmental index of the target space according to the occurrence of the event.
- the expected environmental index may refer to a prediction result in which the effect of an event on a target space is quantified. Referring to FIGS. 29 and 30 , the control server 72 may generate an expected environmental index as a function of time. That is, since the predicted environmental index may change with time, the predicted environmental index may be a kind of function having time as a variable.
- the control server 72 may generate an estimated environmental index according to time in consideration of at least one of the event type, scale, occurrence time, and distance between the event occurrence point and the target space. For example, depending on the type of event, the expected environmental index may be generated differently. For example, when the scale of the event is large, the predicted environmental index may be generated to have a larger value, and when the scale of the event is small, the predicted environmental index may be generated to have a relatively small value. For example, the expected environment index may be set differently depending on whether the event occurs during working hours or early morning.
- the predicted environmental index when an event occurs in a location very close to the target space, the predicted environmental index may be generated to have a larger value, and when the event occurs in a location relatively far from the target space, the predicted environmental index is relatively It can be created to have a small value.
- the control server 72 may divide the generated estimated environment index by unit time.
- the unit time may mean a time interval of a certain unit, such as 1 hour or 30 minutes.
- the control server 72 may divide the expected environmental index into unit time, assign an environment level and an emergency level to each unit time, and select a countermeasure for each unit time.
- the control server 72 may determine the environmental level corresponding to the expected environmental index for each unit of time, and may assign an environment level for each unit of time. For example, the control server 72 may assign an environmental grade based on an average value of expected environmental indices for a unit time. For example, referring to FIGS. 29 and 30, the control server 72 evaluates to which grade the average value of the expected environmental index per unit time (P1, P2, P3) corresponds, and assigns an environmental grade for each unit time. can do. In the case of FIG. 29 , environment level E2 may be assigned to unit time P1, environment level E3 may be assigned to unit time P2, and environment level E4 may be assigned to unit time P3. In the case of FIG.
- environment level E2 may be assigned to unit time P1
- environment level E3 may be assigned to unit time P2
- environment level E3 may be assigned to unit time P3.
- the control server 72 may assign an environment grade based on a maximum value, a minimum value, or a median value of an expected environmental index for a unit time.
- the control server 72 may calculate the slope of the expected environmental index for each unit time and determine the degree of urgency for each unit time according to the magnitude of the slope.
- the expected environmental indices may have different slopes for each unit time. If the slope of the predicted environmental index is large, it may mean that the environmental state deteriorates rapidly, and if the slope of the predicted environmental index is relatively small, it may mean that the environmental state deteriorates relatively gently. That is, if the slope of the expected environmental index is large, the degree of urgency will be high, and if the slope is small, it may mean that the degree of urgency is relatively low.
- the control server 72 may calculate the slope of the expected environmental index based on the slope of the median value of unit time.
- control server 72 may calculate the slope of the expected environmental index corresponding to a time of (T0 + T1)/2.
- the control server 72 may calculate a straight line slope between the predicted environmental index corresponding to the time T0 and the predicted environmental index corresponding to the time T1.
- the control server 72 may assign an emergency grade according to the magnitude of the inclination. That is, the degree of urgency may be evaluated as a plurality of urgency grades. For example, it may be evaluated as a first urgency level (R1), a second urgency level (R2), a third urgency level (R3), and a fourth urgency level (R4) according to the size range of the slope.
- the control server 72 may assign an emergency level for each unit of time that matches the gradient of the expected environment index for each unit of time. For example, in the case of FIG. 29 , the urgency level R2 may be assigned to the unit time P1, the urgency level R4 to the unit time P2, and the urgency level R3 to the unit time P3. In the case of FIG.
- the urgency level R2 may be assigned in the unit time P1, the urgency level R3 in the unit time P2, and the urgency level R2 in the unit time P3. For example, when the gradient of the predicted environmental level has a negative value, the emergency level R1 may be assigned.
- the control server 72 may select a necessary countermeasure by comparing the standard environmental index and the predicted environmental index. Specifically, selection of such countermeasures may be selected per unit time.
- the countermeasure may include at least one of environment management through a management device, provision of a management service necessary for the target space, and provision of action guidelines to be performed to the user.
- the control server 72 may remotely operate the management device 71 to manage the environment of the target space.
- the management server 72 may send a notification to provide a management service corresponding to the target space to a manager near the target space.
- the control server 72 may send information on the action instructions to be performed to the user staying in the target space to the user through an application, messenger, text message, phone call, notification sound and display. there is.
- the control server may include a database in which a plurality of countermeasures for each environmental level are listed and stored. Response measures that can be implemented for each type of event may be listed and stored in the database.
- actionable countermeasures may include operating an air purifier, providing air purifier filter replacement service, stopping ventilation fans, closing windows, providing a fine dust mask, and suggesting wearing a fine dust mask. there is.
- a plurality of countermeasures may be differentially set in type, intensity, and frequency for each environmental level.
- the control server 72 compares the standard environmental index and the expected environmental index for each unit of time, assigns an environmental grade for each unit of time, and selects a response measure matching the assigned environmental level for each unit of time in consideration of the type of event. can For example, in the case of FIG. 29 , since the environmental level in unit time P1 is E2, a corresponding action matching the type of event generated from the database and the environmental level E2 may be selected as the corresponding action for P1.
- the control server 72 may additionally consider the urgency level in selecting a countermeasure. That is, the control server 72 may select a countermeasure for each unit of time by comprehensively considering the environmental level and the emergency level for each unit of time.
- countermeasures according to a combination of environment level and emergency level may be stored in a matrix form.
- 31 is a response action matrix according to a combination of an environment level and an emergency level according to an embodiment. Referring to FIG. 31 , when the environment level is E1 and the emergency level is R1, A11 may be matched as a response measure, and when the environment level is E1 and the emergency level is R2, A12 may be matched as a countermeasure.
- These matrices may be set for each type of event.
- the control server 72 may reflect feedback according to the countermeasure.
- the control server 72 may regenerate the predicted environmental index according to time after the countermeasure is applied. That is, the control server 72 may quantify the event situation and the influence of the selected countermeasure at that time, and regenerate the predicted environmental index according to time.
- the control server 72 may update the environment level for each unit of time, the emergency level for each unit of time, and the countermeasure for each unit of time in the same way as described above using the regenerated estimated environmental index.
- FIG. 32 is a graph in which the predicted environmental index according to FIG. 29 is regenerated according to the application of countermeasures. Specifically, FIG. 32 is a graph showing that the expected environmental index is regenerated from time T1 on the assumption that countermeasures are applied at time T1 in the situation of FIG. 29 .
- the environmental level was E3 and the emergency level was R4 at unit time P2, and the corresponding countermeasure was A34.
- the emergency level has been changed to R3, and the corresponding countermeasure may be A33. That is, the control server may update the environment level, emergency level, and response measures in P2 to E3, R3, and A33, respectively, by reflecting the feedback of the response measures.
- control server may update the environment level, emergency level, and response measures in P3 to E2, R1, and A31, respectively. For example, if the countermeasures are applied again at T2, the control server 72 feeds back the countermeasures again from the time T2 onwards, repeatedly regenerates the expected environmental index, and updates the environmental grade, emergency grade, and countermeasures, respectively. can do. According to this configuration, it is possible to determine the optimal response action every time by reflecting the occurrence of an event and corresponding action measures every moment, and as a result, it is possible to effectively respond to the occurrence of an event.
- 33 is a flowchart of an interactive environment management method according to an embodiment.
- 34 is a flowchart of analysis steps according to one embodiment.
- an interactive environment management method 8 detects an environment change event generated around a target space equipped with a management device, quantifies the effect of the generated event on the target space, and A method of managing the environmental state of the target space by actively and preemptively responding to event occurrence by analyzing, selecting necessary countermeasures according to the analyzed results, and providing the selected countermeasures to the management device, user, or manager can be
- the interactive environment management method 8 includes a management device provision step 81, an event detection step 82, an analysis step 83, an action selection step 84, a feedback step 85, and an update step. (86) may be included.
- the step of providing a management device 81 may be a step of providing at least one management device that is provided in the target space and manages the environment of the target space.
- the management device may include management devices in various fields.
- the management device may include a management device in at least one of a control field, an air quality field, a water quality field, and a sanitation field.
- the event detection step 82 may be a step of detecting an environment change event occurring around the target space.
- the event detection step may include receiving information about environmental changes from a management device installed in the target space, receiving information about an event that has occurred in the target space from an external server, or receiving information on a separate location located in the vicinity of the target space.
- An environmental change event may be sensed through the sensing unit.
- the analysis step 83 may be a step of quantifying and analyzing the effect of the event on the target space. Specifically, referring to FIG. 34 , the analysis step 83 includes the steps of generating a standard environmental index 831, generating an environmental grade 832, generating an expected environmental index 833, assigning an environmental grade 834, and An urgency determination step 835 may be included.
- the step of generating a reference environmental index 831 may be a step of generating at least one reference environmental index serving as a standard for the environmental state of the target space.
- the reference environmental index may be set differently for each target space in consideration of the characteristics of the target space.
- the control server may generate at least one reference environmental index by considering environmental information of the target space or user's personal information.
- the environmental grade generating step 832 may be a step of generating at least 23 or more environmental grades having at least one reference environmental index as a numerical boundary.
- the expected environmental index generation step 833 may be a step of generating an estimated environmental index of the target space according to the occurrence of an event.
- the expected environmental index may be generated as a value that changes over time. That is, the expected environmental index may be a kind of function having time as a variable.
- the predicted environmental index according to time may be generated in consideration of at least one of the event type, scale, occurrence time, and distance between the event occurrence point and the target space.
- the environmental grade assignment step 834 may be a step of dividing the expected environmental index by unit time, determining an environmental grade corresponding to the expected environmental index by unit time, and assigning an environmental grade by unit time.
- the control server may assign an environmental grade based on an average value of expected environmental indexes for a unit time.
- the control server may assign an environment grade based on a maximum value, a minimum value, or a median value of an expected environmental index for a unit time.
- the urgency determination step 835 may be a step of calculating the slope of the expected environmental index for each unit of time and determining the level of urgency for each unit of time according to the magnitude of the slope. Specifically, in the urgency determination step 835, an urgency level may be assigned for each unit time according to the magnitude of the inclination.
- the control server may calculate the slope of the expected environmental index based on the slope of the median value of unit time.
- the control server may calculate the slope of the expected environmental index based on the slope of a straight line connecting both end values of unit time.
- the control server may assign an emergency level matching the gradient according to the size of the gradient for each unit time.
- the action selection step 84 may be an action selection step of selecting a necessary countermeasure. Specifically, the action selection step 84 may be a step of selecting a necessary countermeasure by comparing the standard environmental index and the expected environmental index.
- Required countermeasures may include at least one of environment management through a management device, provision of a management service necessary for a target space, and provision of action guidelines to be performed to a user. Selection of such countermeasures may be selected per unit time.
- the control server may include a database in which a plurality of countermeasures for each environmental level are listed and stored. Response measures that can be implemented for each type of event may be listed and stored in the database. The control server may select a countermeasure for each unit of time that matches each environment level for each unit of time in consideration of the type of event from the database.
- a response action may be selected for each unit time from the database by comprehensively considering the type of event, the environment level for each unit time, and the emergency level for each unit time.
- countermeasures according to the combination of environment level and emergency level may be stored in a matrix form.
- the control server may select a matching response action from a matrix corresponding to an event according to a combination of an environment level per unit time and an emergency level per unit time.
- the feedback step 85 may be a step of resetting the expected environmental index by reflecting the feedback according to the countermeasure when the countermeasure is applied.
- the control server may regenerate the expected environmental index over time from the point in time when the countermeasures are applied. That is, the control server may quantify the influence of the event situation and the selected countermeasure at that time, and regenerate the expected environmental index according to time.
- the updating step 86 may be a step of updating an environment level for each unit time, an emergency level for each unit time, and a countermeasure for each unit time using the regenerated expected environmental index.
- the countermeasures may be fed back again to repeatedly regenerate the expected environmental index, and the environment level, emergency level, and countermeasures may be respectively updated. According to this method, it is possible to determine the optimal response action every time by reflecting the occurrence of an event and corresponding action measures every moment, and as a result, it is possible to effectively respond to the occurrence of an event.
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Abstract
Description
Claims (20)
- 대상 공간에 구비되어, 상기 대상 공간의 환경 정보를 수집하는 적어도 하나의 관리 기기; 및상기 환경 정보를 분석하여 환경에 대한 분석 정보를 생성하며, 상기 분석 정보에 매칭되는 적어도 하나의 서비스 정보를 선정하는 관제 서버를 포함하는 인터렉티브 시스템.
- 제1항에 있어서,상기 관제 서버는, 상기 대상 공간을 하나 이상의 제어 영역으로 구획하고, 상기 제어 영역에 따른 위치 가중치를 부여하여 위치 지수를 생성하고,상기 위치 가중치는, 상기 제어 영역의 용도, 면적, 혼잡도 및 개폐구의 크기와 위치 정보 중 적어도 하나를 포함하여 결정되는 인터렉티브 시스템.
- 제1항에 있어서,상기 관제 서버는, 상기 관리 기기의 기기 정보를 더 수신하고, 상기 기기 정보를 지수화하여 생성하는 기기 지수를 포함하여 상기 분석 정보를 생성하고,상기 기기 정보는, 상기 관리 기기의 사양 정보, 구성품 정보, 소모품 정보, 배터리 정보, 소프트웨어 버전 정보, 점검 정보, 센서 정보 및 메모리 정보 중 적어도 하나를 포함하고,상기 관제 서버는, 상기 관리 기기의 사용 기간, 교체 이력 및 가격 중 적어도 어느 하나를 포함하여 결정되는 기기 가중치를 부여하여 상기 기기 지수를 생성하는 인터렉티브 시스템.
- 제1항에 있어서,상기 관제 서버는, 상기 관리 기기를 사용하는 유저의 정보를 더 수신하고, 상기 유저 정보를 지수화하여 생성하는 유저 지수를 포함하여 상기 분석 정보를 생성하는 인터렉티브 시스템.
- 제1항에 있어서,상기 관제 서버는, 상기 복수의 환경 정보를 하나의 환경 지수로 표준화하고, 상기 표준화된 환경 지수를 이용하여 상기 분석 정보를 생성하고,상기 관제 서버는, 상기 복수 개의 관리 기기의 위치 정보, 기기 정보 및 유저 정보를 더 수신하고, 상기 환경 정보, 상기 위치 정보, 상기 기기 정보 및 상기 유저 정보를 지수화하여 생성하는 통합 지수를 포함하여 상기 분석 정보를 생성하는 인터렉티브 시스템.
- 대상 공간에 구비되어 상기 대상 공간의 환경을 관리하는 적어도 하나의 관리 기기; 및상기 관리 기기의 작동 정보를 분석하여 유저의 성향 정보를 생성하며, 상기 성향 정보에 따라 적어도 하나의 맞춤형 정보를 선정하는 관제 서버를 포함하고,상기 관제 서버는, 상기 맞춤형 정보를 상기 유저 또는 매니저에게 제공하고,상기 작동 정보는, 상기 관리 기기의 작동 기능, 작동 시간, 작동 기간, 작동 빈도 및 작동 패턴 중 적어도 어느 하나를 포함하고,상기 관제 서버는, 상기 관리 기기의 기능 별로 상기 작동 정보를 취합하고, 상기 작동 정보를 이용하여 기능 관심지수를 생성하는, 인터렉티브 시스템.
- 제6항에 있어서,상기 관제 서버는, 상기 관리 기기를 적어도 하나의 분야로 그룹핑하고, 상기 분야 별로 상기 기기 관심지수를 취합하고, 상기 기기 관심지수에 기기 가중치를 부여하여 분야 관심지수를 생성하고,상기 관제 서버는, 상기 분야 별로 상기 분야 관심지수를 비교하여, 상기 분야 관심지수가 높은 분야일수록 더 많은 맞춤형 정보를 선정하는, 인터렉티브 시스템.
- 제6항에 있어서,상기 관제 서버는, 상기 관리 기기를 적어도 하나의 분야로 그룹핑하고, 상기 분야 별로 상기 기기 관심지수를 취합하고, 상기 기기 관심지수에 기기 가중치를 부여하여 분야 관심지수를 생성하고,상기 관제 서버는, 상기 분야 관심지수가 가장 높은 분야에 해당하는 상품에 대한 정보를 상기 맞춤형 정보로 선정하는, 인터렉티브 시스템.
- 제6항에 있어서,상기 관제 서버는, 상기 관리 기기를 적어도 하나의 분야로 그룹핑하고, 상기 분야 별로 상기 기기 관심지수를 취합하고, 상기 기기 관심지수에 기기 가중치를 부여하여 분야 관심지수를 생성하고,상기 관제 서버는, 상기 분야 관심지수가 가장 높은 분야를 주 관심분야로, 두 번째로 높은 분야를 보조 관심분야로 설정하고, 상기 주 관심분야 또는 보조 관심분야에 해당하는 상품에 대한 정보를 상기 맞춤형 정보로 선정하는, 인터렉티브 시스템.
- 제6항에 있어서,상기 관제 서버는, 상기 기능 관심지수가 가장 높은 기능을 갖는 상품에 대한 정보를 상기 맞춤형 정보로 선정하거나,상기 관제 서버는, 상기 기능 관심지수가 가장 높은 기능을 주 관심기능으로, 두 번째로 높은 기능을 보조 관심기능으로 설정하고, 상기 주 관심기능 또는 보조 관심기능을 갖는 상품에 대한 정보를 상기 맞춤형 정보로 선정하는, 인터렉티브 시스템.
- 대상 구역에 구비되고, 상기 대상 구역의 환경을 관리하는 관리 기기;상기 관리 기기를 통해 정보를 수집하고, 상기 수집된 정보에 기초하여 상기 대상 구역에 요구되는 관리 서비스를 선정하는 관제 서버; 및상기 선정된 관리 서비스에 대한 작업 명령을 수신하는 매니저 디바이스를 포함하고,상기 관제 서버는,상기 대상 구역의 환경과 관련한 정보를 수집하는 데이터 수집부;상기 수집된 정보를 통해 상기 대상 구역의 환경 상태를 분석하는 분석부;관리 서비스에 대한 데이터베이스를 설정하고, 상기 분석부의 분석 결과에 매칭되는 관리 서비스를 선정하는 관리부; 및상기 선정된 서비스에 대한 정보를 상기 매니저 디바이스로 전송하는 통신부를 포함하는, 인터렉티브 관리 시스템.
- 제11항에 있어서,상기 분석부는,상기 수집된 정보를 복수의 인자로 분류하고, 분류된 인자의 조합을 통해 상기 대상 구역의 환경 상태에 대한 분석 결과를 생성하고,상기 각각의 인자에 대해 개별 가중치를 적용하여 개별 지표를 생성하고,상기 개별 지표에 기초하여 상기 복수의 인자 중 일부의 인자를 추출하여 상기 분석 결과를 생성하고,상기 관리부는 상기 복수의 인자의 개별 지표에 대응하는 관리 서비스를 매트릭스 형태로 정의하고, 상기 추출된 인자의 개별 지표를 조합하여 상기 매트릭스로부터 매칭되는 관리 서비스를 선정하는, 인터렉티브 관리 시스템.
- 제11항에 있어서,상기 분석부는 상기 대상 구역의 환경 상태를 수치화된 환경 지수로 평가하고, 상기 관리부는 상기 환경 지수에 기초하여 상기 관리 서비스를 선정하고,상기 분석부는 상기 환경 지수의 수치범위를 상기 대상 구역의 특성에 따라 복수의 환경 등급으로 구분하고, 상기 수집된 정보를 통해 상기 대상 구역의 환경 등급을 결정하는, 인터렉티브 관리 시스템.
- 제11항에 있어서,상기 분석부는 상기 대상 구역의 환경 상태를 수치화된 환경 지수로 평가하고, 상기 관리부는 상기 환경 지수에 기초하여 상기 관리 서비스를 선정하고,상기 관제 서버는 상기 대상 구역을 기준으로 하는 지역 범위를 지오펜스로 설정하여 지오펜스 정보를 수집하고, 상기 지오펜스 정보를 반영하여 상기 대상 구역에 대한 관리 서비스를 선정하는, 인터렉티브 관리 시스템.
- 제11항에 있어서,상기 분석부는 상기 대상 구역의 환경 상태를 수치화된 환경 지수로 평가하고, 상기 관리부는 상기 환경 지수에 기초하여 상기 관리 서비스를 선정하고,상기 분석부는,상기 대상 구역에 상기 관리 서비스가 수행되면, 상기 수행 결과에 따른 피드백을 통해 상기 대상 구역의 환경 지수를 재 평가하는, 인터렉티브 관리 시스템.
- 대상 공간에 구비되어 상기 대상 공간의 환경을 관리하는 적어도 하나의 관리 기기; 및상기 대상 공간 주변에 환경 변화 이벤트가 발생하면, 상기 이벤트가 상기 대상 공간에 미치는 영향을 수치화하여 분석하고, 필요한 대응 조치를 선정하는 관제 서버를 포함하는, 인터렉티브 환경 관리 시스템.
- 제16항에 있어서,상기 관제 서버는,상기 대상 공간의 환경 상태에 대한 기준이 되는 적어도 하나의 기준 환경지수를 생성하고,상기 이벤트 발생에 따른 상기 대상 공간의 예상 환경지수를 생성하고,상기 기준 환경지수 및 예상 환경지수를 비교하여 상기 필요한 대응 조치를 선정하고,상기 관제 서버는, 상기 적어도 하나의 기준 환경지수를 수치 경계로 하는 적어도 2개 이상의 환경등급을 생성하고,상기 관제 서버는, 상기 이벤트의 종류, 규모, 발생 시점 및 상기 이벤트 발생 지점과 상기 대상 공간 사이의 거리 중 적어도 어느 하나를 고려하여, 시간에 따른 예상 환경지수를 생성하고,상기 관제 서버는, 상기 예상 환경지수를 단위 시간 별로 분할하고, 상기 단위 시간 별로 상기 예상 환경지수가 해당하는 상기 환경등급을 판단하여 단위 시간 별 환경등급을 부여하고,상기 관제 서버는, 상기 단위 시간 별로 상기 예상 환경지수의 기울기를 산출하고, 상기 기울기의 크기에 따라 단위 시간 별 긴급도를 판단하는, 인터렉티브 환경 관리 시스템.
- 제17항에 있어서,상기 긴급도는 복수 개의 긴급등급으로 평가되고,상기 관제 서버는, 단위 시간 별로 상기 기울기의 크기에 따라 매칭되는 단위 시간 별 긴급등급을 부여하고,상기 관제 서버는, 상기 대응 조치를 선정함에 있어서, 상기 이벤트의 종류, 단위 시간 별 환경등급 및 단위 시간 별 긴급등급을 고려하여, 단위 시간 별 대응 조치를 선정하는, 인터렉티브 환경 관리 시스템.
- 제18항에 있어서,상기 관제 서버는, 상기 환경등급 및 긴급등급의 조합에 따른 대응 조치가 매트릭스 형태로 저장되는 데이터 베이스를 포함하고,상기 매트릭스는, 상기 이벤트의 종류 별로 각각의 구비되는, 인터렉티브 환경 관리 시스템.
- 제19항에 있어서,상기 관제 서버는, 상기 단위 시간 별 환경등급 및 단위 시간 별 긴급등급의 조합에 따라 상기 이벤트에 대응되는 상기 매트릭스로부터 매칭되는 대응 조치를 선정하고,상기 관제 서버는, 상기 대응 조치가 적용되면, 상기 대응 조치에 따른 피드백을 반영하여 상기 대응 조치가 적용된 시점 이후부터 시간에 따른 예상 환경지수를 재생성하고,상기 관제 서버는, 상기 재생성된 예상 환경지수를 이용하여, 상기 단위 시간 별 환경등급, 단위 시간 별 긴급등급 및 단위 시간 별 대응 조치를 업데이트하는, 인터렉티브 환경 관리 시스템.
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