CN115865568B - Intelligent gateway for all-optical network - Google Patents

Abstract

The invention is applicable to the technical field of network equipment, and particularly relates to an intelligent gateway for an all-optical network, which comprises: the device detection module is used for detecting the device through the gateway and obtaining an intelligent device list; the device judging module is used for carrying out user detection and judging whether the device to be accessed exists or not according to the accessed intelligent device; the data transmission module is used for detecting wireless signals, receiving a connection request and sending the connection request to the auditing equipment through the gateway; and the data connection module is used for receiving the auditing result from the auditing equipment, sending a connection data packet through the gateway and carrying out connection supervision through the auditing equipment. According to the method and the device, the corresponding trigger action is set according to the intelligent equipment in the current environment, so that when the trigger action is detected, equipment detection is actively carried out, data connection between the equipment to be accessed and the intelligent gateway is completed, the speed of equipment connection is improved, and the time for establishing the data connection is shortened.

Description

Intelligent gateway for all-optical network

Technical Field

The invention belongs to the technical field of network equipment, and particularly relates to an intelligent gateway for an all-optical network.

Background

The all-optical network refers to that signals are only subjected to electric/optical and optical/electric conversion when entering and exiting the network, and exist in an optical form all the time in the transmission and exchange processes in the network, and as no electric treatment exists in the whole transmission process, various transmission modes such as PDH, SDH, ATM and the like can be used, so that the utilization rate of network resources is improved.

The intelligent gateway is network equipment, is key to the intellectualization of a local area network, generally supports virtual network access, wifi access, wired broadband access and the like, and can realize the functions of information acquisition, information input, information output, centralized control, remote control, linkage control and the like of equipment such as sensors, network equipment, cameras, hosts and the like in the local area network.

In the current intelligent gateway, the access of the device is usually required to be manually operated, so that the operation convenience is poor, and the time required for the access of the device is long.

Disclosure of Invention

The embodiment of the invention aims to provide an intelligent gateway for an all-optical network, and aims to solve the problems that the current intelligent gateway is usually required to be manually operated in equipment access, so that the operation convenience is poor and the time required for equipment access is long.

The embodiment of the invention is realized in that an intelligent gateway for an all-optical network comprises:

the device detection module is used for detecting the device through the gateway to obtain an intelligent device list, and the intelligent device list classifies functions of the intelligent device;

the device judging module is used for carrying out user detection and judging whether the device to be accessed exists or not according to the accessed intelligent device;

the data transmission module is used for carrying out wireless signal detection, receiving a connection request sent by equipment to be accessed, and sending the connection request to the auditing equipment through the gateway;

and the data connection module is used for receiving the auditing result from the auditing equipment, sending a connection data packet through the gateway, carrying out connection supervision through the auditing equipment, and completing the access of the equipment according to the connection data packet by the equipment to be accessed.

Preferably, the device determination module includes:

the action monitoring unit is used for determining a new user to detect a trigger action according to the intelligent equipment list and performing real-time monitoring on the trigger action;

the signal detection unit is used for carrying out access signal request detection according to the intelligent equipment list when the triggering action is monitored;

and the signal recording unit is used for recording the detected device signals and determining the device to be accessed based on the recorded signal changes.

Preferably, the data transmission module includes:

the temporary communication unit is used for detecting wireless signals, establishing a temporary communication connection channel with equipment to be accessed, wherein the temporary communication connection channel limits the format of data transmission and the size of data transmission content;

the request receiving unit is used for sending a data request list to the equipment to be accessed through the temporary communication connection channel and receiving a connection request from the equipment to be accessed;

and the request sending unit is used for sending the received connection request to the auditing equipment through the gateway.

Preferably, the data connection module includes:

the connection judging unit is used for receiving the auditing result returned by the auditing equipment and judging whether to connect according to the auditing result;

the information acquisition unit is used for packaging information required by access and sending the information to the equipment to be accessed as a connection data packet;

and the connection monitoring unit is used for monitoring the equipment through the auditing equipment and judging whether the equipment is normally connected or not according to the monitored audio information.

Preferably, after the audio information is received, the audio information is translated to obtain the data transmission progress information.

Preferably, the triggering action includes opening an entrance door, detecting a person who does not save facial information, or monitoring unsaved voiceprint information.

Preferably, when the wireless signal is detected, the Bluetooth signal is detected, and the Bluetooth information is acquired.

Preferably, when the triggering action is that a person who does not store facial information is detected, the intelligent device with the image acquisition function is called to acquire an image, the acquired image is subjected to facial recognition, the acquired image is compared with data in a preset personnel database, if the comparison fails, the existence of the person who does not store the facial information is judged, and at the moment, the existence of the equipment to be accessed is judged.

Preferably, when the triggering action is detecting the opening state of the entrance door, the detection signal sent by the door and window sensor is received.

Another object of an embodiment of the present invention is to provide a device access method for an intelligent gateway of an all-optical network, where the method includes:

detecting equipment through a gateway, and acquiring an intelligent equipment list, wherein the intelligent equipment list classifies functions of intelligent equipment;

user detection is carried out, and whether equipment to be accessed exists is judged according to the accessed intelligent equipment;

performing wireless signal detection, receiving a connection request sent by equipment to be accessed, and sending the connection request to auditing equipment through a gateway;

and receiving an auditing result from the auditing equipment, sending a connection data packet through the gateway, performing connection supervision through the auditing equipment, and completing the access of the equipment according to the connection data packet by the equipment to be accessed.

Preferably, the step of performing user detection, determining whether there is a device to be accessed according to the accessed intelligent device, specifically includes:

determining a new user to detect a trigger action according to the intelligent equipment list, and monitoring the trigger action in real time;

when the triggering action is monitored, carrying out access signal request detection according to the intelligent equipment list;

and recording the detected device signals, and determining the device to be accessed based on the recorded signal changes.

Preferably, the step of performing wireless signal detection, receiving a connection request sent from a device to be accessed, and sending the connection request to an auditing device through a gateway specifically includes:

performing wireless signal detection, and establishing a temporary communication connection channel with equipment to be accessed, wherein the temporary communication connection channel limits the format of data transmission and the size of data transmission content;

transmitting a data request list to equipment to be accessed through a temporary communication connection channel, and receiving a connection request from the equipment to be accessed;

and sending the received connection request to auditing equipment through a gateway.

Preferably, the step of receiving the auditing result from the auditing device, sending a connection data packet through the gateway, and performing connection supervision through the auditing device specifically includes:

receiving an auditing result returned by the auditing equipment, and judging whether to connect according to the auditing result;

packaging information required by access, and sending the information to the equipment to be accessed as a connection data packet;

and monitoring the equipment through the auditing equipment, and judging whether the equipment is normally connected or not according to the monitored audio information.

According to the device access method for the intelligent gateway of the all-optical network, corresponding trigger actions are set according to the intelligent devices in the current environment, so that when the trigger actions are detected, device detection is actively carried out, data connection between the device to be accessed and the intelligent gateway is completed, the device connection speed is improved, and the time for establishing the data connection is shortened.

Drawings

Fig. 1 is a flowchart of a device access method of an intelligent gateway for an all-optical network according to an embodiment of the present invention;

fig. 2 is a flowchart of a step of performing user detection according to an embodiment of the present invention, where whether a device to be accessed exists is determined according to an accessed intelligent device;

fig. 3 is a flowchart of steps for performing wireless signal detection, receiving a connection request sent from a device to be accessed, and sending the connection request to an auditing device through a gateway according to an embodiment of the present invention;

FIG. 4 is a flowchart of steps for receiving an audit result from an audit device, sending a connection data packet through a gateway, and performing connection supervision through the audit device, according to an embodiment of the present invention;

fig. 5 is a schematic diagram of an intelligent gateway for an all-optical network according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a device determination module according to an embodiment of the present invention;

fig. 7 is a schematic diagram of a data transmission module according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a data connection module according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that the terms "first," "second," and the like, as used herein, may be used to describe various elements, but these elements are not limited by these terms unless otherwise specified. These terms are only used to distinguish one element from another element. For example, a first xx script may be referred to as a second xx script, and similarly, a second xx script may be referred to as a first xx script, without departing from the scope of the present application.

As shown in fig. 1, a flowchart of a device access method for an intelligent gateway of an all-optical network according to an embodiment of the present invention is provided, where the method includes:

s100, detecting equipment through a gateway, and acquiring an intelligent equipment list, wherein the intelligent equipment list is used for classifying functions of intelligent equipment.

In this step, device detection is performed through the gateway, after each intelligent device completes connection, the intelligent gateway identifies and records the model of each intelligent device, so that the functions of each intelligent device are determined, the functions of each intelligent device at least comprise image acquisition, recording, bluetooth communication and WIFI communication, corresponding labels are set for each intelligent device according to the functions of the intelligent devices, the intelligent gateway and each intelligent device are signed with corresponding protocols before, according to the protocols, the intelligent gateway can realize the corresponding functions through each intelligent device, and specifically, each intelligent device is provided with corresponding storage areas in respective storage areas for storing data generated during the calling of the intelligent gateway, and the data of the parts are not communicated with the data generated during the operation of the intelligent device and can only be transmitted to the intelligent gateway.

And S200, performing user detection, and judging whether the device to be accessed exists according to the accessed intelligent device.

In this step, user detection is performed, and a specific trigger action is set according to the function of each intelligent device, where the trigger action includes three types of door opening, detecting a person who does not store face information, and monitoring unsaved voiceprint information, and then a corresponding door and window sensor, an image acquisition device, and a recording device are needed, and if the door and window sensor is included in the intelligent device, the trigger action can be set to open the door, if the intelligent device with the image acquisition function is included, the trigger action can be set to be used as a person who detects unsaved face information, and if the intelligent device with the recording function is included, the trigger action can be set to monitor unsaved voiceprint information, and if the corresponding intelligent device detects the corresponding trigger action, it is determined that a person enters the current environment, and then data connection needs to be started.

S300, wireless signal detection is carried out, a connection request sent by equipment to be accessed is received, and the connection request is sent to auditing equipment through a gateway.

In this step, wireless signal detection is performed, specifically, the wireless signal detection is bluetooth signal detection, that is, when it is determined that a person enters the current area, a bluetooth module in the intelligent gateway is started, bluetooth signal detection is performed through the bluetooth module, corresponding equipment to be accessed is detected through the bluetooth signal, the identity of the equipment to be accessed is further determined, a temporary communication connection channel is established between the bluetooth communication and the equipment to be accessed, a data transmission format and content are limited through the temporary communication connection channel, so that the receiving of a connection request is realized, the connection request is sent to a corresponding auditing device, the auditing device is each specific mobile terminal in the current local area network, after the mobile terminal receives the corresponding connection request, the existence of the equipment to be accessed is displayed, if yes, confirmation can be performed through the auditing device, such as shaking the mobile terminal, at this time is regarded as consent, if no consent is obtained, the mobile terminal is overturned, and if no access is refused, if no more connection request is received within a preset time, such as a ten-minute can only automatic connection application is refused, and an auditing result is returned to the intelligent gateway if consent is not obtained.

S400, receiving an auditing result from the auditing equipment, sending a connection data packet through the gateway, performing connection supervision through the auditing equipment, and completing the access of the equipment according to the connection data packet by the equipment to be accessed.

In this step, an audit result from an audit device is received, information about whether to agree is recorded in the audit result, specifically, a corresponding character can be set, if the audit result contains a character "0", access is considered as allowed, if the audit result contains a character "1", access is considered as refused, when access is allowed, an account number and a password for connection are packaged into a connection data packet, the connection data packet is sent to a corresponding device to be accessed, and in this process, connection supervision is performed through the audit device to ensure that the current device to be accessed is the device to be accessed, and access of the device not in the current area to the current intelligent gateway is avoided.

As shown in fig. 2, as a preferred embodiment of the present invention, the step of performing user detection and determining whether there is a device to be accessed according to the accessed intelligent device specifically includes:

s201, determining a new user to detect a trigger action according to the intelligent device list, and monitoring the trigger action in real time.

In this step, determining a new user detection trigger action according to the smart device list, determining the sequence of each trigger action according to the preset priority of the trigger action, where the trigger action can be selected by the user autonomously, and the specific trigger action needs to be determined according to the functions of the smart device, if the current smart device includes a recording function and an image acquisition function, at least two trigger actions are provided, and if the trigger actions include a and B, it is determined that the trigger actions are established only when the a and B occur simultaneously, and monitoring in different forms is performed according to different trigger actions; when touching and starting the intelligent device as a person which does not store the face information, calling the intelligent device with the image acquisition function to acquire an image, carrying out face recognition on the acquired image, comparing the acquired image with data in a preset person database, and judging that the person which does not store the face information exists if the comparison fails, wherein at the moment, judging that the device to be accessed exists.

S202, when the triggering action is monitored, the access signal request detection is carried out according to the intelligent equipment list.

In this step, when the triggering action is monitored, the access signal request detection is performed according to the intelligent device list, and when the triggering actions are multiple, the determination is performed according to the set triggering action combination, when the intelligent gateway is detected by the device to be accessed, the signal adjustment is performed according to the preset signal intensity change curve, and each intelligent device in the intelligent device list records the signal, which may be specifically a bluetooth signal.

And S203, recording the detected device signals, and determining the device to be accessed based on the recorded signal changes.

In this step, the detected device signals are recorded according to time, the detected signal intensity of each intelligent device is determined, the number of intelligent devices with detected signal intensity exceeding a preset value is calculated, the duty ratio is calculated, for example, ten devices with bluetooth functions are included in the intelligent device list, if the detected bluetooth signal intensity of three intelligent devices is higher than the preset value, the corresponding detection success rate is calculated to be 0.3, if the preset value is 0.2, the device to be accessed is determined to be successful, and it is required to be stated that when the signal intensity of the device to be accessed changes, the device to be accessed sends own unique identification characters through the signal, and the unique identification characters can be specifically bluetooth addresses.

As shown in fig. 3, as a preferred embodiment of the present invention, the steps of performing wireless signal detection, receiving a connection request sent from a device to be accessed, and sending the connection request to an auditing device through a gateway specifically include:

s301, wireless signal detection is carried out, a temporary communication connection channel is established with equipment to be accessed, and the temporary communication connection channel limits the format of data transmission and the size of data transmission content.

In this step, wireless signal detection is performed, and since the bluetooth address of the device to be accessed is already known, a temporary communication connection channel can be established with the device to be accessed accordingly, and the type, content format and other information of data transmission are limited by setting the temporary communication bluetooth channel, so as to ensure that the data to be transmitted is specific content.

S302, a data request list is sent to the equipment to be accessed through the temporary communication connection channel, and a connection request from the equipment to be accessed is received.

In this step, a data request table is sent to the device to be accessed through the temporary communication connection channel, in order to perform verification, the intelligent gateway requests data to the device to be accessed through the temporary communication connection channel, the requested data content is preset, such as the device type, the device connection time and the like, and after the device to be accessed obtains the information, the device to be accessed feeds back according to the data request table to obtain the connection request.

S303, the received connection request is sent to the auditing equipment through the gateway.

In the step, the received connection request is sent to the auditing equipment through the gateway, and the auditing equipment displays the connection request so as to enable the auditing equipment to audit, so as to judge whether to permit the auditing equipment to establish connection with the current intelligent gateway.

As shown in fig. 4, as a preferred embodiment of the present invention, the steps of receiving an audit result from an audit device, sending a connection data packet through a gateway, and performing connection supervision through the audit device specifically include:

s401, receiving an auditing result returned by the auditing equipment, and judging whether to connect according to the auditing result.

In the module, an auditing result returned from the auditing equipment is received, the auditing result is marked by a specific character, and then the intelligent gateway identifies according to the character after receiving, so as to judge whether connection is permitted or not.

And S402, packaging information required by access, and sending the information to the equipment to be accessed as a connection data packet.

In the module, the information required for accessing is packaged, specifically, the account number and the password of the intelligent gateway can be accessed, or the specific authentication character string can be used for packaging and sending the information to the corresponding equipment to be accessed through wireless communication, such as Bluetooth connection and transmission through the obtained Bluetooth address.

S403, monitoring equipment through the auditing equipment, and judging whether the equipment is normally connected or not according to the monitored audio information.

In the module, equipment monitoring is carried out through the auditing equipment, in order to ensure that connection is successful, the intelligent gateway continuously sends connection progress to the auditing equipment, the equipment to be accessed plays preset voice according to the connection progress to broadcast the progress, the content of the equipment to be accessed is identified according to monitored audio information, the connection progress from different sources is compared, if the two progress are consistent, normal connection is indicated, on the contrary, abnormal connection is indicated, connection is disconnected, connection with equipment not in a current area is prevented from being established, and the volume of broadcasting is limited when broadcasting is carried out.

As shown in fig. 5, an intelligent gateway for an all-optical network according to an embodiment of the present invention includes:

the device detection module 100 is configured to perform device detection through a gateway, and obtain an intelligent device list, where the intelligent device list classifies functions of intelligent devices.

In this gateway, the device detection module 100 performs device detection through the gateway, after each intelligent device completes connection, identifies and records its model through the intelligent gateway, thereby determining the function of each intelligent device, the functions of the intelligent device at least include image acquisition, recording, bluetooth communication and WIFI communication, corresponding tags are set for each intelligent device according to the functions of the intelligent device, the intelligent gateway signs a corresponding protocol with each intelligent device before, according to the protocol, the intelligent gateway can implement the corresponding functions through each intelligent device, specifically, each intelligent device defines a corresponding storage area in each storage area for storing data generated when the intelligent gateway calls, the data of the part do not communicate with data generated when the intelligent device itself runs, and only can be transmitted to the intelligent gateway.

The device determining module 200 is configured to perform user detection, and determine whether a device to be accessed exists according to the accessed intelligent device.

In the gateway, the device determining module 200 performs user detection, and sets a specific trigger action according to the function of each intelligent device, if the trigger action includes three types of door opening, detecting a person who does not store face information, and monitoring unsaved voiceprint information, then a corresponding door and window sensor, an image acquisition device, and a recording device are required, if the door and window sensor is included in the intelligent device, the trigger action can be set to be door opening, if the intelligent device with the image acquisition function is included, the trigger action can be set to be used as detecting a person who does not store face information, if the intelligent device with the recording function is included, the trigger action can be set to be used for monitoring unsaved voiceprint information, then when the corresponding intelligent device detects the corresponding trigger action, it is determined that the person enters the current environment, and then data connection needs to be started.

The data transmission module 300 is configured to perform wireless signal detection, receive a connection request sent from a device to be accessed, and send the connection request to an auditing device through a gateway.

In the gateway, the data transmission module 300 performs wireless signal detection, specifically, the wireless signal detection is bluetooth signal detection, that is, when it is determined that a person enters the current area, a bluetooth module in the intelligent gateway is started, the bluetooth module detects a bluetooth signal, a corresponding device to be accessed is detected through the bluetooth signal, the identity of the device to be accessed is further determined, a temporary communication connection channel is established between the data transmission module and the device to be accessed through bluetooth communication, the format and the content of data transmission are limited through the temporary communication connection channel, so as to realize the receiving of a connection request, and the connection request is sent to a corresponding auditing device, the auditing device is a specific mobile terminal in the current local area network, after the mobile terminal receives the corresponding connection request, the existence of the device to be accessed is displayed, if agreeing, the mobile terminal can be confirmed through the auditing device, that agreeing is considered at the moment, if not agreeing, the mobile terminal is overturned, if not agreeing, if refusing, the access request is not received any, if the auditing result is only refused, but the automatic connection request is refused, and if agreeing or not agreeing any, the automatic connection request is returned to the intelligent gateway.

The data connection module 400 is configured to receive an audit result from the audit device, send a connection data packet through the gateway, perform connection supervision through the audit device, and complete access of the device to be accessed according to the connection data packet.

In the gateway, the data connection module 400 receives an audit result from an audit device, records information about whether to agree with the audit result, specifically, can set a corresponding character, if the audit result contains a character "0", the access is considered as allowed, if the audit result contains a character "1", the access is considered as refused, when the access is allowed, an account number and a password for connection are packaged into a connection data packet, the connection data packet is sent to a corresponding device to be accessed, and in the process, the connection supervision is performed through the audit device to ensure that the current device to be accessed is the device to be accessed, so that the device not in the current area is prevented from accessing the current intelligent gateway.

As shown in fig. 6, as a preferred embodiment of the present invention, the device determination module 200 includes:

the action monitoring unit 201 is configured to determine that the new user detects the trigger action according to the smart device list, and perform real-time monitoring of the trigger action.

In the module, the action monitoring unit 201 determines a new user to detect trigger actions according to the list of the intelligent device, determines the sequence of each trigger action according to the priority of the preset trigger actions, of course, the trigger actions can be selected autonomously by the user, the specific trigger actions which can be realized are determined according to the functions of the intelligent device, if the current intelligent device comprises a recording function and an image acquisition function, at least two trigger actions are provided, the trigger actions can be used independently or in combination, if the trigger actions comprise A and B, the trigger actions are judged to be established only when the A and the B occur simultaneously, and different forms of monitoring are carried out according to different trigger actions; when touching and starting the intelligent device as a person which does not store the face information, calling the intelligent device with the image acquisition function to acquire an image, carrying out face recognition on the acquired image, comparing the acquired image with data in a preset person database, and judging that the person which does not store the face information exists if the comparison fails, wherein at the moment, judging that the device to be accessed exists.

The signal detection unit 202 is configured to perform access signal request detection according to the smart device list when the trigger action is monitored.

In this module, when the signal detection unit 202 monitors the triggering actions, it detects the access signal request according to the smart device list, and when the triggering actions are multiple, it determines according to the set triggering action combination, when the smart gateway is detected by the device to be accessed, it adjusts the signal according to the preset signal strength change curve, and each smart device in the smart device list records the signal, which may be specifically a bluetooth signal.

And a signal recording unit 203, configured to record the detected device signal, and determine the device to be accessed based on the recorded signal change.

In this module, the signal recording unit 203 records the detected device signals, records according to time, determines the signal intensity detected by each intelligent device, calculates the number of intelligent devices whose detected signal intensity exceeds a preset value, calculates the duty ratio of the intelligent devices, for example, ten devices including bluetooth functions in the intelligent device list, wherein the detected bluetooth signal intensity of three intelligent devices is higher than the preset value, calculates the corresponding detection success rate to be 0.3, if the preset value is 0.2, the device to be accessed determines success, and it needs to be stated that when the signal intensity of the device to be accessed changes, the device to be accessed sends its unique identification character, which may be specifically a bluetooth address.

As shown in fig. 7, as a preferred embodiment of the present invention, the data transmission module 300 includes:

the temporary communication unit 301 is configured to perform wireless signal detection, and establish a temporary communication connection channel with the device to be accessed, where the temporary communication connection channel defines a format of data transmission and a size of data transmission content.

In this module, the temporary communication unit 301 performs wireless signal detection, and as the bluetooth address of the device to be accessed is already known, a temporary communication connection channel can be established with the device to be accessed accordingly, and the type, content format and other information of data transmission are limited by setting the temporary communication bluetooth channel, so as to ensure that the data to be transmitted is specific content.

The request receiving unit 302 is configured to send a data request table to the device to be accessed through the temporary communication connection channel, and receive a connection request from the device to be accessed.

In this module, the request receiving unit 302 sends a data request table to the device to be accessed through the temporary communication connection channel, and for verification, the intelligent gateway requests data to the device to be accessed through the temporary communication connection channel, and the requested data content is preset, such as the device type, the device connection time, etc., and after the device to be accessed obtains the information, the connection request is obtained by feeding back according to the data request table.

The request sending unit 303 is configured to send the received connection request to the auditing device through the gateway.

In this module, the request sending unit 303 sends the received connection request to the auditing device through the gateway, and the auditing device displays the connection request, so that the auditing device performs auditing to determine whether to permit the connection with the current intelligent gateway.

As shown in fig. 8, as a preferred embodiment of the present invention, the data connection module 400 includes:

the connection determining unit 401 is configured to receive an audit result returned from the audit device, and determine whether to perform connection according to the audit result.

In this module, the connection determination unit 401 receives the auditing result returned from the auditing device, and the auditing result is marked with a specific character, and then the intelligent gateway recognizes according to the character after receiving, thereby determining whether to permit connection.

The information acquisition unit 402 is configured to package information required for access, and send the information as a connection data packet to a device to be accessed.

In this module, the information acquisition unit 402 packages information required for accessing, specifically, may be an account number password of an access intelligent gateway or a specific authentication string, packages the information, and sends the packaged information to a corresponding device to be accessed through wireless communication, for example, bluetooth connection and transmission are performed through an obtained bluetooth address.

And the connection monitoring unit 403 is configured to monitor the device through the auditing device, and determine whether the device is normally connected according to the monitored audio information.

In this module, the connection monitoring unit 403 monitors the device through the auditing device, in order to ensure that the connection is successful, the intelligent gateway continuously sends the connection progress to the auditing device, and the device to be accessed plays a preset voice according to the connection progress to broadcast the progress, identifies the content according to the monitored audio information, compares the connection progress from different sources, if the two progress are consistent, indicates that the connection is normal, otherwise indicates that the connection is abnormal, and disconnects the connection, so that the connection with the device not in the current area is avoided, and the volume of broadcasting is limited when broadcasting.

It should be understood that, although the steps in the flowcharts of the embodiments of the present invention are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in various embodiments may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor do the order in which the sub-steps or stages are performed necessarily performed in sequence, but may be performed alternately or alternately with at least a portion of the sub-steps or stages of other steps or other steps.

Those skilled in the art will appreciate that all or part of the processes in the methods of the above embodiments may be implemented by a computer program for instructing relevant hardware, where the program may be stored in a non-volatile computer readable storage medium, and where the program, when executed, may include processes in the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (2)

1. An intelligent gateway for an all-optical network, the gateway comprising:

the device detection module is used for detecting the device through the gateway to obtain an intelligent device list, and the intelligent device list classifies functions of the intelligent device;

the device judging module is used for carrying out user detection and judging whether the device to be accessed exists or not according to the accessed intelligent device;

the data transmission module is used for carrying out wireless signal detection, receiving a connection request sent by equipment to be accessed, and sending the connection request to the auditing equipment through the gateway;

the data connection module is used for receiving the auditing result from the auditing equipment, sending a connection data packet through the gateway, carrying out connection supervision through the auditing equipment, and completing the access of the equipment according to the connection data packet by the equipment to be accessed;

the device determination module includes:

the action monitoring unit determines the sequence of each trigger action according to the preset priority of the trigger action, the trigger action can be selected by a user independently, the trigger action which can be realized specifically is determined according to the function of the intelligent equipment, the new user is determined according to the intelligent equipment list to detect the trigger action, and the trigger action is monitored in real time;

the signal detection unit is used for carrying out access signal request detection according to the intelligent equipment list when the triggering action is monitored;

the signal recording unit is used for recording the detected equipment signals and determining equipment to be accessed based on the recorded signal changes;

the data connection module includes:

the connection judging unit is used for receiving the auditing result returned by the auditing equipment and judging whether to connect according to the auditing result;

the information acquisition unit is used for packaging information required by access and sending the information to the equipment to be accessed as a connection data packet;

the intelligent gateway is used for monitoring the equipment through the auditing equipment, and for ensuring the connection success, the intelligent gateway continuously transmits the connection progress to the auditing equipment, the equipment to be accessed plays a preset voice according to the connection progress to broadcast the progress, the content of the equipment is identified according to the monitored audio information, and whether the equipment is normally connected is judged according to the audio information;

after the audio information is received, translating the audio information to obtain data transmission progress information;

the triggering action comprises opening a door, detecting personnel without face information or monitoring the unsaved voiceprint information;

when the wireless signal is detected, bluetooth signal detection is carried out, and Bluetooth information is acquired;

triggering to be used as a person without face information storage is detected, calling intelligent equipment with an image acquisition function to acquire images, carrying out face recognition on the acquired images, comparing the acquired images with data in a preset person database, judging that the person without the face information storage exists if the comparison fails, and judging that equipment to be accessed exists at the moment;

when the triggering action is to detect the opening state of the entrance door, the detection signal sent by the door and window sensor is received.

2. The intelligent gateway for an all-optical network according to claim 1, wherein the data transmission module comprises:

the temporary communication unit is used for detecting wireless signals, establishing a temporary communication connection channel with equipment to be accessed, wherein the temporary communication connection channel limits the format of data transmission and the size of data transmission content;

the request receiving unit is used for sending a data request list to the equipment to be accessed through the temporary communication connection channel and receiving a connection request from the equipment to be accessed;

and the request sending unit is used for sending the received connection request to the auditing equipment through the gateway.

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