JP2010015255A - Management system, computer program and management method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a management system, a computer program and a management method allowing the comprehension of a responsive situation of a managed person based on the scheduled information of the managed person. <P>SOLUTION: A control part 10 of a doctor management server 1 acquires doctor information from each doctor terminal when the execution of doctor retrieval processing is requested from a nurse terminal. The doctor information is, for example, the scheduled information in a prescribed time zone from a present time. The control part 10 divides the schedule information acquired from each doctor terminal into the scheduled information of a time zone during movement and the schedule information of a time zone during a medical examination (during a visit to a patient's house), and sets a responsive level in each time zone. The control part 10 integrates responsive levels set to the time zone during the movement and the time zone during medical examination. The control part 10 generates responsive level display screen information for displaying a responsive level obtained by the integration, and transmits the execution of the doctor retrieval processing to the nurse terminal having performed the request. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a management system for managing a schedule of a managed person, a computer program for realizing the operation of the management system by a computer, and a management method by the management system.

  For example, in home medical services, home-visit nursing services, home-visit nursing services, etc., service providers such as doctors, nurses, care workers, and home-care workers visit the service users' homes to provide medical and nursing services. provide. At that time, the service provider often visits the service user's home (visit destination) alone. Therefore, each service provider may need to contact other service providers when visiting a plurality of destinations. For example, when a nurse who is a service provider receives a request for a service from a service user, it may be necessary to contact the doctor in order to ask the doctor for a nursing instruction regarding the received request.

  In such a case, at present, each service provider uses a mobile phone, for example, to communicate with the service provider to be contacted. However, since the service provider is visiting each destination and cannot grasp the situation of each service provider, it often gives up contact with other service providers unless there is a high urgency. In this case, for example, after each service provider has finished visiting all destinations and returned to the office, the office will contact other service providers at the office. Judgment of changes and nursing instructions are postponed.

  Also, when a highly urgent incident occurs, even if a service provider (for example, a nurse) tries to contact another service provider (for example, a doctor), the doctor can call Sometimes you can't get out. In this case, the nurse needs to continue to call a plurality of doctors until one of the doctors can be contacted. Service providers are often scheduled to provide services to a large number of service users within a specified time, and if this happens, to contact other service providers It takes time and may affect the original business. Also, not only service providers who want to contact other service providers, but also other service providers who have been contacted by this service provider will take time to make a phone call, affecting the original business. There is a fear.

  Patent Document 1 discloses a method for determining a maintenance person who performs maintenance work on a device in which some kind of failure has occurred. The method of Patent Document 1 is a maintenance service that is dispatched based on the maintenance work suitability of each maintenance worker calculated based on the years of maintenance experience and actual results, and the distance from the position of each maintenance worker to the work site. It is the structure which determines a member. By using such a method, it is possible to appropriately determine maintenance personnel who can resolve the failure that has occurred earlier.

Patent Document 2 discloses a method of acquiring information on the presence status or busyness of a contact partner before contacting them. The method of patent document 2 is a structure which statistically processes the input interval to a terminal in a terminal used by a contact partner, and determines the presence status or busyness of the contact partner from the processing result. By using such a method, it is possible to contact the contact partner at an appropriate timing based on the presence status or busyness of the contact partner.
JP 2006-106861 A JP 2004-171444 A

  As described above, the method disclosed in Patent Document 1 determines the optimum maintenance staff at the present time, and the method disclosed in Patent Document 2 determines the current attendance status or busyness of the contact partner. Therefore, the methods disclosed in Patent Documents 1 and 2 do not take into account the future schedule of the maintenance person or the contact partner, and therefore have a problem that it is impossible to grasp the situation of the partner after a predetermined time elapses from the present time, for example.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a management system and a computer program capable of grasping the response status of the managed person based on the schedule information of the managed person And providing a management method.

  Another object of the present invention is to provide a management system capable of grasping the response possible status of the managed person at any future date and time.

  The management system disclosed in the present application is a management system for managing a schedule of a managed person, and identifies a response status of the managed person in a predetermined time zone based on the schedule information of the managed person, and the identified response Output possible status to outside.

  According to the management system disclosed in the present application, it is possible to grasp the response possible status in consideration of the status of the managed person in the future time zone based on the schedule information of the managed person.

  The management system disclosed in the present application is a management system for managing a schedule of a managed person. Based on each schedule information of a plurality of managed persons, the response status of each of the managed persons in a predetermined time zone is determined. Identify. In addition, the management system disclosed in the present application accepts designation of a date and time in the predetermined time zone, selects a predetermined number of managed persons in order of the possibility of response at the date and time when the designation is received, and selects the selected managed person Information is output to the outside.

  According to the management system disclosed in the present application, based on the schedule information of a plurality of managed persons, the respective respondable situations of the managed persons in a predetermined time zone are specified. In addition, when designation of the date and time in a predetermined time zone is received, a predetermined number of managed persons are selected in descending order of the possibility of response at the date and time when the designation is received. Therefore, based on the schedule information, it is possible to grasp the predetermined number of managed persons who are highly likely to respond at any date and time after grasping the response possible situation in consideration of the status of the managed person in the future time zone It becomes possible.

  In the management system disclosed in the present application, it is possible to grasp the response possible status in consideration of the status of the managed person in the future time zone, and therefore it is possible to take an appropriate appointment according to the status of the managed person in the future .

  In the management system disclosed in the present application, it is possible to grasp a predetermined number of managed persons who are highly likely to respond at an arbitrary date and time after grasping a response possible situation in consideration of the situation of the managed person in a future time zone. Therefore, it is possible to take an appropriate appointment according to the situation of the manager at an arbitrary date and time.

  Hereinafter, the management system disclosed in the present application will be described in detail with reference to the drawings illustrating embodiments applied to a doctor management system. In addition, the doctor management system of each of the following embodiments is a system that manages the schedules of a plurality of doctors who visit a patient's home to perform a medical examination or the like in order to provide home medical services.

(Embodiment 1)
The doctor management system according to the first embodiment will be described below. FIG. 1 is a schematic diagram illustrating a configuration of a doctor management system according to the first embodiment. The doctor management system according to the first embodiment includes a doctor management server 1, a plurality of nurse terminals 3, 3,..., A plurality of doctor terminals 4, 4,. The doctor management server 1, the plurality of nurse terminals 3, 3,..., The plurality of doctor terminals 4, 4,... Are provided so as to communicate with each other via a network N such as the Internet.

  The nurse terminals 3, 3... And the doctor terminals 4, 4,... Are configured to be able to perform wireless communication via the network N, and the nearest wireless access point (hereinafter referred to as wireless AP) 2 connected to the network N. Wireless communication with Therefore, each of the nurse terminals 3, 3... And the doctor terminals 4, 4,... Is configured to access the network N via the nearest wireless AP 2.

  FIG. 2 is a block diagram illustrating a configuration of the doctor management server 1 according to the first embodiment. The doctor management server 1 of the first embodiment is, for example, a known server computer. The doctor management server 1 of the first embodiment realizes the management system disclosed in the present application by causing the server computer to read the computer program disclosed in the present application and causing the CPU of the server computer to execute the computer program. Note that the management system disclosed in the present application may be realized by hardware having equivalent functions.

  The doctor management server 1 according to the first embodiment includes a control unit 10, a ROM (Read Only Memory) 11, a RAM (Random Access Memory) 12, a hard disk driver (hereinafter referred to as HDD) 13, a communication interface 14, and the like. These hardware units are connected to each other via a bus 1a.

  The control unit 10 is a CPU (Central Processing Unit) or an MPU (Micro Processor Unit) or the like, and has a clock that clocks absolute time (year, month, day, hour, minute, second). The control unit 10 appropriately reads and executes a control program stored in advance in the ROM 11 or the HDD 13 in the RAM 12 according to a predetermined timing based on the time indicated by its own clock, and controls the operation of each hardware unit described above. The ROM 11 stores in advance various control programs necessary for operating the doctor management server 1 as a management system disclosed in the present application. The RAM 12 is an SRAM or a flash memory, and temporarily stores various data generated when the control unit 10 executes the control program.

  The HDD 13 is a large capacity storage device. The HDD 13 stores in advance various control programs necessary for operating the doctor management server 1 as a management system disclosed in the present application. The HDD 13 includes a doctor search processing program 13a which is a computer program disclosed in the present application, a doctor schedule information database (hereinafter referred to as a doctor schedule information DB) 13b as shown in FIG. 3, a nurse schedule information database (hereinafter referred to as a nurse). 13c) and the like are stored.

  Note that the various types of information in the doctor search processing program 13a, the doctor schedule information DB 13b, and the nurse schedule information DB 13c are not limited to the configuration stored in the HDD 13 in advance. For example, when the doctor management server 1 includes a driver (not shown) capable of reading data stored in an external memory (not shown), various information stored in the external memory is read by the driver. You may store in HDD13. Further, the doctor management server 1 may download various types of information from an external device via the network N and store them in the HDD 13.

  The communication interface (input unit, output unit) 14 is an interface for connecting to the network N. The communication interface 14 communicates with any one of the nurse terminals 3, 3... And the doctor terminals 4, 4.

  FIG. 3 is a schematic diagram showing the registration contents of the doctor schedule information DB 13b. As shown in FIG. 3, in the doctor schedule information DB 13b, doctor information of a plurality of doctors managed by the doctor management system of the first embodiment and schedule information of each doctor are registered in association with each other. The doctor information includes a doctor ID and a doctor name assigned to each doctor. The schedule information includes a date and time (scheduled date and time), a patient ID and a patient name corresponding to each scheduled date and time. In addition, the patient ID and the patient name corresponding to each scheduled date and time of the scheduled information indicate the visited place on each scheduled date and time.

  The registered content of the doctor schedule information DB 13b is registered or changed by the doctor in charge or the schedule manager whenever a visit patient schedule for each doctor enters. The registered contents of the doctor schedule information DB 13b are registered or changed via an operation unit (not shown) of the doctor management server 1 or various terminal devices that can communicate with the doctor management server 1. The

  Although the registration contents of the nurse schedule information DB 13c are not shown in the figure, the doctor information in the doctor schedule information DB 13b shown in FIG. 3 merely replaces the nurse information including the nurse ID and the nurse name. The registered contents of the nurse schedule information DB 13c are also registered or changed by the nurse in charge or the schedule manager each time a visit patient schedule for each nurse enters.

  FIG. 4 is a block diagram illustrating a configuration of the nurse terminal 3 according to the first embodiment. The nurse terminal 3 according to the first embodiment is, for example, a known tablet personal computer. The nurse terminal 3 includes a control unit 30, a ROM 31, a RAM 32, a storage unit 33, an operation unit 34, a display unit 35, a wireless communication interface 36, etc., and these hardware units are connected to each other via a bus 3 a. ing.

  The control unit 30 is a CPU or MPU. The control unit 30 appropriately reads and executes a control program stored in advance in the ROM 31 or the storage unit 33 in the RAM 32 according to a predetermined timing, and controls the operation of each hardware unit described above. The ROM 31 stores various control programs necessary for operating the nurse terminal 3 in advance. The RAM 32 is an SRAM or a flash memory, and temporarily stores various data generated when the control unit 30 executes the control program.

  The storage unit 33 is a non-volatile memory such as a flash memory. In the storage unit 33, various control programs and schedule information 33a necessary for operating the nurse terminal 3 are stored in advance. The schedule information 33a is sequentially updated at a predetermined timing. The HDD may be used as the storage unit 33.

  The operation unit 34 and the display unit 35 constitute a digitizer or a tablet. Specifically, the display unit 35 is, for example, a liquid crystal display, and in accordance with an instruction from the control unit 30, the operation state of the nurse terminal 3, information input via the operation unit 34, and a user (nurse) Information to be notified and operation keys necessary for the user to operate the nurse terminal 3 are displayed. The operation unit 34 is, for example, a stylus pen or a mouse. When the user operates the operation key displayed on the display unit 35 with the operation unit 34, the operation unit 34 sends a control signal corresponding to the operated operation key to the control unit 30, and the control unit 30 receives the operation key from the operation unit 34. A process corresponding to the acquired control signal is executed.

  The wireless communication interface 36 is connected to an antenna (not shown) that transmits and receives radio waves for wireless communication via the network N, and communicates with the nearest wireless AP 2 via the antenna according to instructions from the control unit 30. Establish a connection. The wireless communication interface 36 communicates with any one of the doctor management server 1, the doctor terminals 4, 4... And the other nurse terminals 3, 3.

  The schedule information 33a stored in the storage unit 33 of the nurse terminal 3 configured as described above is downloaded from the nurse schedule information DB 13c of the doctor management server 1 at a predetermined timing (for example, every day, every week, etc.). . When the schedule information 33a is downloaded from the nurse schedule information DB 13c of the doctor management server 1 every day, for example, the schedule information for one day from the nurse schedule information DB 13c of the doctor management server 1 on the morning of the day or the night before. What is necessary is just to download 33a.

  Further, when the schedule information 33a is downloaded weekly from the nurse schedule information DB 13c of the doctor management server 1, for example, the schedule information 33a is set to 1 from the nurse schedule information DB 13c of the doctor management server 1 on the morning of the first day of the week or the night of the weekend. What is necessary is just to download the schedule information 33a for a week.

  FIG. 5 is a block diagram illustrating a configuration of the doctor terminal 4 according to the first embodiment. The doctor terminal 4 according to the first embodiment is, for example, a known tablet personal computer. The doctor terminal 4 includes a control unit 40, a ROM 41, a RAM 42, a storage unit 43, an operation unit 44, a display unit 45, a wireless communication interface 46, a GPS (Global Positioning System) reception unit 47, and the like. They are connected to each other via a bus 4a.

  The control unit 40 is a CPU or MPU. The control unit 40 reads out the control program stored in advance in the ROM 41 or the storage unit 43 to the RAM 42 and executes it according to a predetermined timing, and controls the operation of each hardware unit described above. The ROM 41 stores in advance various control programs necessary for operating the doctor terminal 4. The RAM 42 is an SRAM or a flash memory, and temporarily stores various data generated when the control unit 40 executes the control program.

  The storage unit 43 is a non-volatile memory such as a flash memory. The storage unit 43 stores various control programs necessary for operating the doctor terminal 4 in advance. The storage unit 43 stores information such as schedule information 43a, current position information 43b, and current status information 43c, and the information is sequentially updated at a predetermined timing. Further, the storage unit 43 stores a position acquisition processing program for acquiring position information based on the GPS signal received by the GPS receiving unit 47. Note that an HDD may be used as the storage unit 43.

  The operation unit 44 and the display unit 45 constitute a digitizer or a tablet. Specifically, the display unit 45 is, for example, a liquid crystal display, and notifies an operation state of the doctor terminal 4, information input via the operation unit 44, and a user (doctor) according to an instruction from the control unit 40. Information to be displayed and operation keys necessary for the user to operate the doctor terminal 4 are displayed. The operation unit 44 is, for example, a stylus pen or a mouse. When the user operates the operation key displayed on the display unit 45 with the operation unit 44, the operation unit 44 sends a control signal corresponding to the operated operation key to the control unit 40, and the control unit 40 receives the operation key from the operation unit 44. A process corresponding to the acquired control signal is executed.

  The wireless communication interface 46 is connected to an antenna (not shown) that transmits and receives radio waves for wireless communication via the network N, and communicates with the nearest wireless AP 2 via the antenna according to instructions from the control unit 40. Establish a connection. The wireless communication interface 46 communicates with any one of the doctor management server 1, the nurse terminals 3, 3... And the other doctor terminals 4, 4.

  The GPS receiver 47 is connected to an antenna (not shown) that receives radio waves (GPS signals) sent from a plurality of GPS satellites (not shown), and receives GPS signals via the antennas. The control unit 40 detects the current position of the doctor terminal 4 based on the GPS signal received by the GPS receiving unit 47 by executing the position acquisition processing program stored in the storage unit 43. The control unit 40 acquires the detected current position as position information including data on latitude, longitude, and altitude.

  The schedule information 43a stored in the storage unit 43 of the doctor terminal 4 having the above-described configuration is downloaded from the doctor schedule information DB 13b of the doctor management server 1 at a predetermined timing (for example, every day, every week, etc.). When the schedule information 43a is downloaded daily from the doctor schedule information DB 13b of the doctor management server 1, for example, the schedule information 43a for one day is stored from the doctor schedule information DB 13b of the doctor management server 1 on the morning of the day or the night before. Download it. In addition, when the schedule information 43a is downloaded weekly from the doctor schedule information DB 13b of the doctor management server 1, for example, for one week from the doctor schedule information DB 13b of the doctor management server 1 on the morning of the day of the week or the night of the weekend. The schedule information 43a may be downloaded.

  The current position information 43b stored in the storage unit 43 of the doctor terminal 4 is updated each time the control unit 40 acquires information on the current position at a predetermined timing based on the radio wave received by the GPS receiving unit 47. The The control unit 40 periodically detects the current position of the doctor terminal 4 such as at intervals of several minutes, and stores information on the detected current position in the storage unit 43 as current position information 43b. As will be described later, the current status information 43c stored in the storage unit 43 of the doctor terminal 4 is input each time the doctor performs an input operation via the operation unit 44 via a display screen as shown in FIG. Updated.

  FIG. 6 is a schematic diagram showing a configuration of a display screen displayed on the doctor terminal 4 and the nurse terminal 3. FIG. 6A shows an example of the display screen of the doctor terminal 4, and FIG. 6B shows an example of the display screen of the nurse terminal 3. In addition, the doctor who performs home medical service performs an examination act on the patient while displaying the display screen as shown in FIG. 6A on the display unit 45 of the doctor terminal 4. In addition, the nurse who performs the home-visit nursing service performs a diagnosis action (nursing action) on the patient while displaying a display screen as shown in FIG. 6B on the display unit 35 of the nurse terminal 3.

  The doctor activates the doctor terminal 4 when visiting the patient's home and starting the examination. Based on the schedule information 43a in the storage unit 43, the control unit 40 of the doctor terminal 4 causes the display unit 45 to display a display screen related to the patient to be visited next, as shown in FIG. As shown in FIG. 6A, the display screen of the doctor terminal 4 displays a patient ID and a patient name, a doctor ID and a doctor name, a plurality of examination steps included in the examination action, and the like. The examination step includes the steps of start, inquiry, notification of examination results, examination, explanation of findings, entry of medical charts, next schedule confirmation, and termination. It is desirable that the examination step be appropriately set according to the patient's medical condition, the doctor's examination policy, and the like.

  The doctor clicks (selects) each examination step with the operation unit 44 when starting each examination step while performing the examination action according to the examination step displayed on the display screen shown in FIG. The control unit 40 stores the clicked diagnosis step in the storage unit 43 as current status information 43c indicating the current diagnosis step every time each diagnosis step is clicked via the display screen shown in FIG. Update and store. Therefore, the control unit 40 grasps (stores) the current diagnosis step for the patient who is currently being examined and who is the next patient when the examination of the patient currently being examined is completed.

  Moreover, the display of each examination step in the display screen shown in FIG. 6A is linked to information necessary for each examination step, and is clicked when the doctor clicks each examination step in the display screen. Various information necessary for the examination step is displayed on the display unit 45. Specifically, when the doctor clicks “question” on the display screen, the contents of the medical chart at the previous examination are displayed on the display unit 45. Further, when the doctor clicks “notification of examination result” on the display screen, the examination result is displayed on the display unit 45. With such a configuration, the doctor can efficiently perform a medical examination while viewing various information appropriately displayed on the display unit 45 of the doctor terminal 4.

  The examination step clicked by the doctor, that is, the examination step that has already been completed, is displayed so as to be distinguished from the examination step that has not yet been completed. In the display screen shown in FIG. 6A, the already completed examination steps are displayed in a frame surrounded by a solid line, and the examination steps that have not been completed are displayed in a frame surrounded by a broken line. Accordingly, the display screen shown in FIG. 6A is a display screen in a state where the current examination step is “diagnosis”.

  Moreover, the required time and level value (it mentions later) according to each examination step are displayed on the lower stage of each examination step of the display screen shown to Fig.6 (a). In the first embodiment, the time required for each diagnosis step and the level value are set in advance, and when the control unit 40 downloads the schedule information 43a from the doctor management server 1, the time required for each diagnosis step and The level value is also downloaded together.

  In addition, you may make it change the required time and level value of each diagnosis step via the display screen shown to Fig.6 (a), for example. In this case, each changed value needs to be stored in the storage unit 43 of the doctor terminal 4 or transmitted to the doctor management server 1 and stored in the HDD 13 of the doctor management server 1 for each doctor. Further, the required time and level value of each examination step may not be displayed on the display screen shown in FIG.

  On the other hand, the nurse also activates the nurse terminal 3 when visiting the patient's home and starting a diagnosis (nursing). Based on the schedule information 33a in the storage unit 33, the control unit 30 of the nurse terminal 3 causes the display unit 35 to display a display screen related to the next visited patient, as shown in FIG. In addition, since the nurse performs an examination according to each patient's examination step and inputs the information every time the examination step is completed, the control unit 30 grasps who the next patient is ( Remember).

  The display screen shown in FIG. 6B displays the same contents as the display screen shown in FIG. However, the display screen shown in FIG. 6 (b) does not display the required time and level value of each examination step displayed in the display screen shown in FIG. 6 (a), but the “doctor search request” button is not displayed. indicate. Specifically, as shown in FIG. 6B, the display screen of the nurse terminal 3 includes a patient ID and a patient name, a nurse ID and a nurse name, a plurality of examination steps, and a “doctor search request” button. Etc. are displayed.

  The examination step includes the steps of start, inquiry, notification of examination results, examination, explanation of findings, entry of medical charts, next schedule confirmation, and termination. It is desirable that the examination step be appropriately set according to the patient's medical condition, the nurse's examination policy, and the like.

  The nurse clicks (selects) the next diagnosis step with the operation unit 34 each time the diagnosis step is completed while performing the diagnosis according to the diagnosis step displayed on the display screen shown in FIG. In addition, the display of each examination step in the display screen shown in FIG. 6B is linked to information necessary for each examination step, and is clicked when the nurse clicks each examination step in the display screen. Various information necessary for the examination step is displayed on the display unit 35. With such a configuration, the nurse can perform an examination efficiently while viewing various information appropriately displayed on the display unit 35 of the nurse terminal 3.

  The “doctor search request” button is used to request the doctor management server 1 to search for the response status of each doctor when the nurse needs to contact the doctor while visiting the patient's home. It is a button to operate. For example, the nurse accepts a request regarding a diagnosis (nursing) from a patient, and when it is necessary to contact a doctor in order to ask the doctor for a nursing instruction regarding the received request, the operation unit 34 displays a “doctor search request” button. To operate through. The processing performed by the control unit 30 of the nurse terminal 3 after the nurse operates the “doctor search request” button will be described later.

  Hereinafter, in the doctor management system having the above-described configuration, functions realized when the control unit 10 of the doctor management server 1 executes a control program stored in the ROM 11 or the HDD 13 will be described. FIG. 7 is a functional block diagram illustrating a functional configuration of the doctor management server 1 according to the first embodiment.

  In the doctor management server 1 according to the first embodiment, the control unit 10 executes a control program stored in the ROM 11 or the HDD 13 to thereby perform a search request occurrence detection unit 10a, a doctor information acquisition unit 10b, a situation determination unit 10c, The functions such as the response possible level estimation means 10d during movement, the response possible level estimation means 10e during diagnosis, the response possible level generation means 10f, and the response possible level transmission means 10g are realized.

  In the doctor management system of the first embodiment, as described above, when the nurse operates the “doctor search request” button displayed on the display unit 35 of the nurse terminal 3, the control unit 30 of the nurse terminal 3 The doctor management server 1 is requested to execute doctor search processing via the network N. Note that the nurse terminal 3 may always display a “doctor search request” button on the display unit 35 during activation, not only in the display screen shown in FIG.

  When the nurse terminal 3 requests the doctor management server 1 to execute the doctor search process, the communication interface 14 of the doctor management server 1 receives a request for execution of the doctor search process from the nurse terminal 3 via the network N. . The search request occurrence detection means 10a detects whether or not a request for executing a doctor search process has occurred based on whether or not the communication interface 14 has received a request for execution of the doctor search process. When the search request occurrence detection unit 10a detects that a request for execution of the doctor search process has occurred, the search request generation detection unit 10a notifies the doctor information acquisition unit 10b to that effect.

  The doctor information acquisition unit 10b requests doctor information from all the doctor terminals 4 via the network N when the search request generation detection unit 10a is notified of the generation of the request for executing the doctor search process.

  When the doctor information is requested from the doctor management server 1, the control unit (current state detection unit) 40 of each doctor terminal 4 indicates the current position and current state information indicated by the current position information 43 b stored in the storage unit 43. Based on the current situation indicated by 43c, the current situation is identified in the schedule information 43a stored in the storage unit 43. The control unit (schedule information specifying means) 40 extracts schedule information in a predetermined time zone (for example, 2 hours) from the specified current situation from the schedule information 43 a stored in the storage unit 43.

  The control unit 40 of the doctor terminal 4 transmits the schedule information extracted from the schedule information 43a and the current position information 43b to the doctor management server 1 via the network N as doctor information. The doctor information acquisition unit (schedule information acquisition unit) 10b acquires the doctor information transmitted from all the doctor terminals 4 via the communication interface 14, and sends the acquired doctor information to the situation determination unit 10c.

  Note that the schedule information 43 a stored in the storage unit 43 of the doctor terminal 4 is also included in the doctor schedule information DB 13 b stored in the HDD 13 of the doctor management server 1. Therefore, the control unit 40 of the doctor terminal 4 may transmit the current status information 43c to the doctor management server 1 as doctor information instead of the schedule information extracted from the schedule information 43a. In this case, the control unit 10 (doctor information acquisition unit 10b) of the doctor management server 1 stores, for each doctor, schedule information in a predetermined time zone (for example, 2 hours) from the current situation in the HDD 13. What is necessary is just to extract from schedule information DB13b.

  Specifically, the doctor information acquisition means (current situation detection means, schedule information identification means) 10b sets the current position indicated by the current position information 43b acquired from each doctor terminal 4 and the current situation indicated by the current situation information 43c. Based on the doctor schedule information DB 13b stored in the HDD 13, schedule information in a predetermined time zone is extracted from the current situation. Then, the doctor information acquisition unit 10b notifies the situation determination unit 10c of the schedule information extracted from the doctor schedule information DB 13b.

  The situation determination means (classification means) 10c includes, for each doctor, schedule information of each doctor (schedule information in a predetermined time zone), schedule information of the time zone being moved, and examination (visiting the patient's home). It is divided into schedule information of the time zone. The situation determination means 10c notifies the schedule information divided into the moving time zone to the response level estimation means (identification means) 10d that is moving, and can respond to the schedule information divided into the time zone being examined. The level estimation means (specification means) 10e is notified.

  The responsiveness level estimation means 10d during movement calculates the notified time ST of the moving time zone, that is, the time ST from the start date and time of the moving time zone to the scheduled date and time when the next examination is started. To do. The response possible level estimation means (movement time calculation means) 10d during movement calculates the distance from the current position of the doctor indicated by the current position information 43b of the doctor information acquired from the doctor terminal 4 to the next visit location (patient house). Based on this, the travel time TT required to travel to the next visit location is calculated. The travel time TT may be calculated simply based on a function proportional to the travel distance, or may be calculated by multiplying the travel distance by a coefficient corresponding to the moving means (car, train, walk, etc.). .

The respondable level estimation means 10d during movement calculates the margin time MT by subtracting the movement time TT from the time ST. The spare time MT is the time required to move to the next visited place and indicates the time that does not require actual movement.
The responsiveness level estimation means 10d during movement sets the responsiveness level L (t) from the start date / time of the time zone during movement notified from the situation determination means 10c until the margin time MT elapses to a Max value (for example, 10). Moreover, the response possible level estimation means 10d during movement sets the response possible level L (t) between the elapse of the margin time MT and the end date and time of the movement time zone, for example, according to the following Expression 1. .

L (t) = a (t−ST) ² + b (Formula 1)
a = (Max−b) / (MT−ST) ²
b = Responsible level L set at the start of the examination step

  It should be noted that the response possible level L (t) after the allowance time MT has elapsed in the moving time zone may be set to a smaller value as the time until the start of the next diagnosis is shorter. Is not limited. If the calculated margin time MT is 0 or less, the doctor is currently moving and there is no margin time other than the movement time. It is only necessary to set the possible level L (t).

  The responsiveness level estimation means 10e during the examination can respond based on the time required for each examination step registered in advance and the responsiveness level in each examination step for the time zone under examination notified from the situation determination means 10c. Set the level L (t). In addition, the time required for each examination step and the response possible level in each examination step are stored in advance in the HDD 13 of the doctor management server 1.

Specifically, “required time” and “level value” displayed on the display screen shown in FIG. 6A are stored in the HDD 13 corresponding to each examination step. The level value shown in FIG. 6A indicates an increase / decrease value with 0 as a reference.
The response possible level estimation means 10e during the examination sets the start date and time of the notified time zone during the examination as the start of the examination step, and the response possible level from the start date and time until the required time of the start step elapses L (t) is set to the response possible level in the start step.

  Similarly, the response possible level estimation means 10e during the medical check is from the scheduled end date / time of the start step (the date / time when the start step required time has elapsed since the start step start date / time) until the required time of the inquiry step elapses. The response possible level L (t) is set to the response possible level in the inquiry step. The response possible level estimation means 10e during the diagnosis performs such processing for all the diagnosis steps.

  In addition, when the schedule information acquired from the doctor terminal 4 is the schedule information that starts at any of the examination steps, the doctor is currently undergoing the examination. It is only necessary to set the response level for each subsequent examination step.

  In the first embodiment, the responsiveness level L in each examination step is set to +6, +5, +3, etc., with 0 as a reference, so the responsiveness level in each examination step is set to 6, 5, 3,. The However, for example, an increase / decrease value of the response possible level in each examination step can be set based on a predetermined Min value (minimum value). In this case, the response possible level of each examination step is (Min value) +6, (Min value) +5, (Min value) +3...

  Each of the responsiveness level estimation means 10d during movement and the responsiveness level estimation means 10e during diagnosis sends the responsiveness level in each set time zone to the responsiveness level generation means 10f.

  The response level generation unit 10f integrates the response level acquired from the response level estimation unit 10d during movement and the response level estimation unit 10e during diagnosis, and can respond in a predetermined time zone as shown in FIG. Generate a level.

  FIG. 8 is a schematic diagram showing the transition of the response possible level. FIG. 8A shows the transition of the response level in a predetermined time zone (for example, 2 hours) when the doctor is currently moving, and FIG. 8B shows the case where the doctor is currently being examined. The transition of the response possible level in the predetermined time zone is respectively shown. In FIG. 8, the transition of the response level is shown with the horizontal axis as the elapsed time from the present time and the vertical axis as the level value of the response level.

  As shown in FIGS. 8A and 8B, the response possible level generated by the response possible level generation means 10f is within the time zone during movement until the margin time MT elapses. Max value. Further, the response possible level gradually becomes a small value according to the time until the next diagnosis start time from the time when the margin time MT has passed to the time when the next diagnosis starts. Further, the response possible level is a value set for each examination step in the time zone during the examination.

  The situation determination means 10c, the response possible level estimation means 10d during movement, the response possible level estimation means 10e during diagnosis, and the response possible level generation means 10f are for each doctor information acquired by the doctor information acquisition means 10b (for each doctor). The above-described response level is generated. The response level generation unit 10f sends the generated response level of each doctor to the response level transmission unit 10g.

  When the response possible level transmitting unit 10g acquires the response possible level from the response possible level generating unit 10f, the response possible level transmitting unit 10g generates response level display screen information for displaying the response possible level. The response level transmission means (output means) 10g transmits the generated response level display screen information to the nurse terminal 3 that has requested execution of the doctor search process via the network N.

  When the control unit 30 of the nurse terminal 3 receives the response level display screen information via the wireless communication interface 36, the control unit 30 responds as shown in FIG. 9A based on the received response level display screen information. A possible level display screen is displayed on the display unit 35. FIG. 9 is a schematic diagram showing a configuration of a display screen displayed on the nurse terminal 3. FIG. 9A shows a response level display screen indicating the response level of each doctor generated by the doctor management server 1, and FIG. 9B shows a response doctor display screen generated by the nurse terminal 3. Each respondable doctor display screen based on information is shown.

  The response level display screen shown in FIG. 9A displays each doctor's response level with the horizontal axis as the elapsed time from the present time and the vertical axis as the level value of the response level. In addition, in the response possible level display screen shown to Fig.9 (a), the response possible level in the time until 120 minutes passes from the present is shown. However, if the doctor management server 1 is configured to generate the response level of each doctor for 60 minutes from the current time, the response level displayed until the 60 minutes have elapsed from the current time is displayed on the response level display screen. Will be.

  Further, the response level display screen displays an end button for ending the display of this screen and ending the doctor search process. When the nurse operates the end button using the operation unit 34 of the nurse terminal 3, the control unit 30 ends the display of this screen and ends the doctor search process. In addition, after ending the display of this screen, the control unit 30 returns to the display of the initial screen, the display screen shown in FIG.

  In addition, the response level display screen can be used to display an arbitrary elapsed time in a time period until 120 minutes have elapsed since the present by operating any part on the horizontal axis via the operation unit 34 of the nurse terminal 3. It is configured to allow selection. FIG. 9A shows a state where an elapsed time of 20 minutes is selected. When an arbitrary elapsed time is selected as shown in FIG. 9 (a), the control unit 30 displays the doctor's name in order of decreasing response level at the selected elapsed time. Generate screen information.

  In addition, doctors whose response possible level at the time of the selected elapsed time is less than a predetermined threshold are not included in the doctors displayed on the response doctor display screen. In addition, the response level display screen is a horizontal broken line as shown in FIG. 9A and indicates a threshold value for determining whether or not to include the doctor displayed on the response doctor display screen.

  The control unit 30 causes the display unit 35 to display a respondable doctor display screen as shown in FIG. 9B based on the generated respondable doctor display screen information. The respondable doctor display screen displays the names of the doctors in the order in which contact is easily made at the elapsed time selected via the response level display screen. The respondable doctor display screen displays a response reservation button for making a response reservation (appointment) to any of the displayed doctors, and a return button for returning to the display of the response possible level display screen.

  When the nurse operates the response reservation button using the operation unit 34, the control unit 30 sets the time (date and time) at the time when the elapsed time from the current time selected via the response level display screen has elapsed. calculate. The control unit 30 requests the doctor management server 1 to make a response reservation for the doctor selected via the respondable doctor display screen at the calculated time, and ends the doctor search process. When the nurse terminal 3 requests a response reservation for the doctor, the control unit 10 of the doctor management server 1 notifies the corresponding doctor terminal 4 that the response reservation has been entered.

  As a method for notifying that a response reservation has been entered, it is conceivable to send an e-mail to a mobile phone carried by a doctor or to the doctor terminal 4, but this is not a limitation. When the nurse operates the return button on the respondable doctor display screen using the operation unit 34, the control unit 30 of the nurse terminal 3 returns the display to the response level display screen.

  The nurse who requested the response reservation makes a response to the doctor who made the response reservation at the time when the response reservation was made, that is, when the elapsed time from the present time selected via the response level display screen has passed. Use to contact. In addition, since the doctor is notified from the doctor management server 1 that the response is reserved, the doctor answers the call from the nurse at the time when the response is reserved. Thus, the nurse can contact the doctor at a timing that suits his / her convenience, and the doctor can receive the contact from the nurse within a range that does not affect the original work.

  Below, the process which each of the doctor management server 1, the nurse terminal 3, and the doctor terminal 4 performs in the doctor management system of this Embodiment 1 is demonstrated based on a flowchart. 10 and 11 are flowcharts showing the procedure of the doctor search process in the first embodiment.

  The following processing is executed by the control unit 10 according to the control program stored in the ROM 11 or the HDD 13 of the doctor management server 1 and according to the control program stored in the ROM 31 or the storage unit 33 of the nurse terminal 3. It is executed by the control unit 30. 10 and 11, in the two areas separated by a broken line, the process by the control unit 30 of the nurse terminal 3 is performed in the left area, and the process by the control unit 10 of the doctor management server 1 is performed in the right area. Show.

  The control unit 30 of the nurse terminal 3 determines whether or not the doctor search request button is operated by the user (nurse) on the display screen shown in FIG. 6B, for example (S1). If not (S1: NO), it waits until it is operated. When it is determined that the control unit 30 has been operated (S1: YES), the control unit 30 requests the doctor management server 1 to execute a doctor search process (S2).

  The control unit 10 (search request occurrence detection means 10a) of the doctor management server 1 determines whether or not an execution request for doctor search processing has occurred from the nurse terminal 3 (S3), and when no execution request has occurred. (S3: NO), waiting until an execution request is generated. When it is determined that a request for executing the doctor search process has occurred (S3: YES), the control unit 10 executes a response level generation process (S4), and for each doctor, a predetermined time period (for example, 2) A level of responsiveness in time). The response level generation process will be described later with reference to FIGS.

  The control unit 10 of the doctor management server 1 generates response level display screen information for displaying the generated response level (S5), and requests the doctor search process to execute the generated response level display screen information. It transmits to the nurse terminal 3 who has done (S6).

  When the control unit 30 of the nurse terminal 3 receives the response level display screen information from the doctor management server 1, based on the received response level display screen information, the response level as shown in FIG. The display screen is displayed on the display unit 35 (S7). The nurse uses the operation unit 34 to select a desired elapsed time on the response level display screen. The control unit 30 determines whether or not any elapsed time selected by the nurse has been received (S8). When it is determined that the elapsed time has not been received (S8: NO), the control unit 30 determines whether or not the end button in the response level display screen has been operated by the nurse (S9).

  When it is determined that the end button has been operated (S9: YES), the control unit 30 ends the response level display screen shown in FIG. 9A and ends the doctor search process. When it is determined that the end button is not operated (S9: NO), the control unit 30 returns the process to step S8.

  When the control unit 30 determines that the elapsed time has been received via the response level display screen (S8: YES), the name of each doctor whose response level at the time of the received elapsed time is equal to or greater than a predetermined threshold value, Responsible doctor display screen information to be displayed in descending order of response level is generated (S10). The control unit 30 causes the display unit 35 to display a respondable doctor display screen based on the generated respondable doctor display screen information (S11).

  On the respondable doctor display screen, the nurse selects a desired doctor using the operation unit 34 and operates a response reservation button to request a response reservation for the desired doctor. The control unit 30 determines whether or not a response reservation has been accepted (S12). If it is determined that no response reservation has been received (S12: NO), the process returns to step S7, as shown in FIG. Return to the display of the correct response level display screen.

  When it is determined that the response reservation has been accepted (S12: YES), the control unit 30 calculates the time when the elapsed time from the present time selected via the response level display screen has elapsed. The control unit 30 requests the doctor management server 1 to make a response reservation for the doctor selected via the respondable doctor display screen at the calculated time (S13). When the response reservation is requested from the nurse terminal 3, the control unit 10 of the doctor management server 1 notifies the corresponding doctor terminal 4 that the response reservation has been entered (S14), and ends the above-described doctor management processing. To do.

  Next, the response level generation process (step S4 in FIG. 10) in the doctor search process described above will be described based on a flowchart. 12 and 13 are flowcharts showing the procedure of response level generation processing. The following processing is executed by the control unit 10 according to the control program stored in the ROM 11 or the HDD 13 of the doctor management server 1 and controlled according to the control program stored in the ROM 41 or the storage unit 43 of the doctor terminal 4. This is executed by the unit 40. In FIG. 12, in the two areas separated by a broken line, the process by the controller 10 of the doctor management server 1 is shown in the left area, and the process by the controller 40 of the doctor terminal 4 is shown in the right area.

  The control part 10 of the doctor management server 1 requests | requires doctor information to all the doctor terminals 4 which self manages via the network N, when the execution request | requirement of a doctor search process generate | occur | produces from the nurse terminal 3 (S21). . When the doctor information is requested, the control unit 40 of the doctor terminal 4 stores the storage unit 43 based on the current position indicated by the current position information 43b stored in the storage unit 43 and the current situation indicated by the current situation information 43c. The current situation is specified in the schedule information 43a stored in (S22).

  The control unit 40 of the doctor terminal 4 extracts schedule information in a predetermined time zone (for example, 2 hours) from the specified current situation from the schedule information 43a stored in the storage unit 43 (S23). The control unit 40 transmits the schedule information extracted from the schedule information 43a and the current position information 43b stored in the storage unit 43 as doctor information to the doctor management server 1 via the network N (S24). The control unit 10 of the doctor management server 1 receives doctor information from all doctor terminals 4 (S25), and stores it in the RAM 12, for example.

  The control unit 10 (situation determination unit 10c) extracts the doctor information for one person from the received doctor information (S26), and extracts the extracted schedule information as the schedule information of the moving time zone and during the examination ( The schedule information is divided into schedule information in the time zone of visiting the patient's home (S27). The control unit 10 (response possible level estimation means 10d during movement) sets the response possible level in the time zone divided during movement (S28).

  Specifically, the control unit 10 calculates the travel time TT required for the actual travel and other margin time MT in the time zone divided during the travel. Then, the control unit 10 sets the response possible level from the start date and time of the moving time zone until the margin time MT elapses to the Max value, and after the margin time MT has elapsed, The response possible level until the end date and time is set to a value based on a predetermined formula.

  The control unit 10 (response possible level estimation means 10e during diagnosis) sets the response possible level in the time zone divided during the diagnosis (S29). Specifically, the control unit 10 sets the response possible level based on the time required for each examination step registered in advance and the response possible level in each examination step in the time zone divided during the examination.

  The control unit 10 (responsible level generating means 10f) integrates the responsive level set for the moving time zone and the responsive level set for the time zone being examined, and the predetermined time zone. A response available level (for example, 2 hours) is generated (S30). The control unit 10 determines whether or not the above-described processing has been completed for all doctor information received in step S25 (S31).

  If it is determined that the process has not been completed (S31: NO), the control unit 10 returns the process to step S26, and extracts the doctor information for one person who has not been processed from the doctor information received in step S25. (S26). When it is determined that the processing of steps S27 to S30 described above is performed on the extracted doctor information and the above-described processing is completed for all doctor information (S31: YES), the control unit 10 described above. The response level generation process is terminated and the process returns to the doctor search process.

  As described above, in the doctor management system of the first embodiment, each doctor's response possible state can be grasped based on the schedule information of each doctor, and each doctor in a situation where the response is possible (response level is equal to or higher than a predetermined threshold value) Can make a response reservation. In addition, even if each doctor is visiting a patient's home, it is possible to contact the nurse in a relatively responsive situation (diagnosis step), thereby increasing the possibility that the nurse can contact the doctor. be able to.

  Therefore, in the past, it was difficult for the nurse to contact the doctor while the doctor visited the patient's home, but by using the management system disclosed in this application, the doctor It will be easier to contact doctors. In addition, at a timing desired by the nurse, it is possible to grasp each doctor's responsive state after that, considering the situation of each doctor at that time. Accordingly, since not only the current response status of each doctor but also the future response status can be estimated, it is possible to make a reservation and contact at a timing in consideration of the convenience of both the nurse and the doctor.

  Further, in the doctor management system of the first embodiment, an appropriate response level can be set in each of the moving time zone and the examining time zone based on the schedule information of each doctor.

  In Embodiment 1 mentioned above, the doctor terminal 4 was the structure which detects the present position of the doctor terminal 4 based on the GPS signal which the GPS receiving part 47 received. For example, the current position of the doctor terminal 4 may be detected based on the position of the nearest wireless AP 2 when the doctor terminal 4 is connected to the network N. Specifically, the doctor terminal 4 can detect the current position based on the intensity of radio waves transmitted and received between the plurality of nearest wireless APs 2 and 2.

  In addition, the home location of each patient is registered in advance, and when the start step is operated via the operation unit 44 on the display screen shown in FIG. The current position of this doctor may be used.

  The doctor management server 1 of the first embodiment described above acquires doctor information from each doctor terminal 4 when there is a request for doctor search processing from the nurse terminal 3, and based on the acquired doctor information, each doctor's information is obtained. It is the structure which produces | generates a response possible level. As a result, it is possible to calculate a response possible level in consideration of the current situation of each doctor more accurately, and it is possible to calculate a response possible level according to the actual response possibility of each doctor.

  The doctor management server 1 is not limited to such a configuration, and the doctor management server 1 does not acquire doctor information from each doctor terminal 4 and based on only the doctor schedule information DB 13b stored in the HDD 13, each doctor in a predetermined time zone The structure which produces | generates the response possible level may be sufficient. In this case, the doctor management server 1 may generate the response level of each doctor in a predetermined time zone based on the schedule information of each doctor stored in the doctor schedule information DB 13b. In the case where each doctor can perform his / her work according to the schedule information, it is sufficient to use a response possible level based on the schedule information extracted from the doctor schedule information DB 13b stored in the HDD 13 in advance.

  Further, the doctor management server 1 of the first embodiment described above acquires doctor information from each doctor terminal 4 when there is a doctor search process execution request from the nurse terminal 3, and can respond based on each doctor information. It is the structure which produces | generates. For example, the doctor management server 1 may periodically acquire doctor information from each doctor terminal 4 and generate a response possible level. In this case, when there is a request for executing the doctor search process from the nurse terminal 3, the doctor management server 1 only needs to transmit the already generated response level of each doctor to the nurse terminal 3, so that the response Will be faster. In addition, when there are requests for execution of doctor search processing from a large number of nurse terminals 3 at the same timing, many of the same processing are performed in duplicate, but it is possible to avoid duplication of the processing.

  In the first embodiment described above, the doctor management server 1 is configured to notify the doctor terminal 4 of the request when the nurse terminal 3 requests a response reservation for any doctor. The doctor management server 1 manages information on whether or not a response reservation has already been made for each doctor, and takes into account the already available response reservation when calculating the response possible level of each doctor. May be further provided. For example, the response possible level for the date and time in the vicinity of the date and time of the already reserved response reservation may be set to the minimum value (for example, 0). By comprising in this way, it can avoid that the response reservation at the same time from several nurses overlaps.

  In the first embodiment described above, the Max value of the response possible level is set to 10, and the response possible level in each diagnosis step of the diagnosis action is described as each value of less than 10. However, the response possible level is not limited to such a value. The response possible level (Max value) during the spare time in the moving time zone and the response possible level in each examination step are values having a predetermined relative relationship. I just need it.

(Embodiment 2)
Below, the doctor management system concerning Embodiment 2 is explained. In addition, since the doctor management system of this Embodiment 2 is realizable by the structure similar to the doctor management system of Embodiment 1 mentioned above, about the same structure, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  In the doctor management system of the first embodiment described above, the control unit 10 of the doctor management server 1 sets the response possible level based on the required time and the response possible level at each examination step registered in advance for the time zone during the examination. It was the composition to do. On the other hand, the doctor management system of the second embodiment has a configuration in which the required time and the response possible level in each examination step are set in advance for each doctor.

  In the doctor management system of the second embodiment, a registration information DB 13d as shown in FIG. 14 is stored in the HDD 13 of the doctor management server 1 in addition to the configuration of the doctor management system of the first embodiment. FIG. 14 is a schematic diagram showing registration contents of the registration information DB 13d. As shown in FIG. 14, in the registration information DB 13d, doctor information of a plurality of doctors managed by the doctor management system and registration information registered in advance by each doctor are registered in association with each other.

  The doctor information includes a doctor ID and a doctor name assigned to each doctor. The registration information includes a medical examination step included in a medical examination performed by each doctor while visiting the patient's home, a time required for each medical examination step, a level value of a response level at each medical examination step, and the like. The registration content of the registration information DB 13d is registered or updated by the control unit 10 every time the doctor in charge or the schedule administrator registers or changes the registration information. Note that the registration content of the registration information DB 13d is registered or changed via the operation unit of the doctor management server 1 or various terminal devices that can communicate with the doctor management server 1.

  FIG. 15 is a functional block diagram illustrating a functional configuration of the doctor management server 1 according to the second embodiment. The control unit 10 of the doctor management server 1 of the second embodiment has the same function as the control unit 10 of the doctor management server 1 of the first embodiment described above. However, in the second embodiment, the response possible level estimation means 10e during diagnosis sets the response possible level based on the registration contents of the registration information DB 13d for the time period during diagnosis notified from the situation determination means 10c. It is.

  Specifically, when the doctor terminal 4 downloads schedule information from the doctor management server 1, the doctor terminal 4 also downloads registration information in the registration information DB 13d. Therefore, the control unit 40 of the doctor terminal 4 uses the registration information downloaded from the doctor management server 1 when displaying the display screen shown in FIG. The registration information DB 13d may be stored in the storage unit 43 of the doctor terminal 4 and managed by the doctor terminal 4.

  On the other hand, the control unit 10 (response possible level estimation means 10e during medical examination) of the doctor management server 1 performs the required time and the response possible level in each medical examination step registered in the registration information DB 13d for the notified time zone during medical examination. The response possible level is set based on the level value. Specifically, the response possible level estimation means 10e during the examination sets the start date and time of the time zone during the examination as the start of the start step, and the required time registered for the start step elapses from the start date and time of the start step. The response possible level until is set to the response possible level in the start step.

Further, the response possible level estimation means 10e during the examination sets the response possible level from the scheduled end date and time of the start step to the time required for the inquiry step elapses as the response possible level in the inquiry step. To do. The response possible level estimation means 10e during the diagnosis performs such processing for all the diagnosis steps.
The configuration other than the responsive level estimation means 10e during the diagnosis is the same as that in the first embodiment described above, and details thereof are omitted.

  With the configuration described above, in the doctor management system according to the second embodiment, each doctor can arbitrarily set the time required for each examination step, so that a more appropriate response level that takes into account each doctor's examination pace is generated (estimated). )it can. Further, in the doctor management system of the second embodiment, each doctor can arbitrarily set a response possible level in each examination step, and thus it is possible to generate a response possible level reflecting each doctor's wishes.

  In the doctor management system according to the second embodiment described above, the time required and the level value of the response possible level in each diagnosis step of the diagnosis action performed by the doctor are preset for each doctor. In addition to such a configuration, it is also possible to set in advance the travel time when each doctor travels between the patient homes that make a patrol visit. It is also possible to register the moving speed corresponding to each of the moving means such as a car, a train, and a walk in advance and calculate the moving time using the registered information. In this case, the response possible level estimation means 10d during movement is also configured to set the response possible level based on the contents registered in advance for the time zone during movement notified from the situation determination means 10c.

  Moreover, it can also be set as the structure which registers the time value and level value of a response possible level in each examination step for every patient who each doctor visits. In this case, it is possible to generate a responsive level reflecting not only the doctors but also the diagnosis status of each patient of each doctor.

(Embodiment 3)
The doctor management system according to the third embodiment will be described below. In addition, since the doctor management system of this Embodiment 3 can be implement | achieved by the structure similar to the doctor management system of Embodiment 1 mentioned above, about the same structure, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The doctor management system according to the second embodiment described above has a configuration in which the time required for each examination step is set in advance for each doctor. On the other hand, the doctor management system of the third embodiment is configured to set the required time in each examination step based on past history information.

  In addition to the configuration of the doctor management system of the first embodiment described above, the doctor management system of the third embodiment has a history information DB 13e as shown in FIG. 16 in the HDD (working time storage means) 13 of the doctor management server 1. Stored. FIG. 16 is a schematic diagram showing the registered contents of the history information DB 13e. As shown in FIG. 16, in the history information DB 13e, doctor information of a plurality of doctors managed by the doctor management system and history information of each doctor are registered in association with each other.

  The doctor information includes a doctor ID and a doctor name assigned to each doctor. The history information includes information indicating the examination steps included in the examination act performed by each doctor while visiting the patient's home, the time required for each examination step calculated from the log information, log information of the time required for each examination step, etc. including. The log information includes the total time required for each examination step in the previous examination action, the number of examinations, and the like. The log information may use the time required for each examination step in the previous examination act as it is.

  Log information registered in the history information DB 13e is stored in the history information DB 13e by the control unit 40 each time the doctor in charge clicks each examination step displayed on the display screen shown in FIG. 6A using the operation unit 44 of the doctor terminal 4. It is measured. The time required for each examination step measured by the control unit 40 is transmitted to the doctor management server 1 at a predetermined timing. When receiving the time required for each examination step, the control unit 10 of the doctor management server 1 adds to the total time of log information corresponding to the doctor information of the doctor who uses the doctor terminal 4 as the transmission source, and also adds the number of examinations. Add one. The control unit 10 divides the calculated total time by the number of examinations, and updates the history information DB 13e as the time required for each examination.

  The control unit 10 of the doctor management server 1 of the third embodiment has the same function as the control unit 10 of the doctor management server 1 of the first embodiment described above. However, in the third embodiment, the response possible level estimation means 10e during diagnosis sets the response possible level based on the registered contents of the history information DB 13e for the time period during diagnosis notified from the situation determination means 10c. It is.

  Specifically, when the doctor terminal 4 downloads the schedule information from the doctor management server 1, the doctor terminal 4 also downloads the time required for each examination step registered in the history information DB 13e. Therefore, the control unit 40 of the doctor terminal 4 uses the required time downloaded from the doctor management server 1 when displaying the display screen shown in FIG. The history information DB 13e may be stored in the storage unit 43 of the doctor terminal 4 and managed by the doctor terminal 4.

  The control unit 10 (response possible level estimation means 10e during diagnosis) of the doctor management server 1 responds based on the required time in each diagnosis step registered in the history information DB 13e for the notified time zone during diagnosis. Set. In addition, the level value of the response possible level in each examination step may be a preset value as in the first embodiment, or may be a value registered in the registration information DB 13d as in the second embodiment. Good.

  With the configuration described above, in the doctor management system according to the third embodiment, each doctor can set the time required for each examination step based on the time actually required, and thus more appropriate according to each doctor's examination pace. A responsive level can be generated (estimated).

  In the doctor management system of the third embodiment described above, the time required for each examination step of the examination act performed by the doctor is set based on the past history. In addition to such a configuration, a configuration may be adopted in which the travel time required for each doctor to actually move between the patient homes that make a patrol visit is set as the travel time.

  Specifically, the travel time required for each doctor to actually move between the patient's homes that make a patrol visit is stored in, for example, the HDD (travel time storage means) 13 of the doctor management server 1. Then, the response possible level estimation means 10d during movement calculates the movement time to each visited place based on the movement time history stored in the HDD 13 for the movement time zone notified from the situation determination means 10c. It becomes composition. Further, the travel time (travel speed) actually required is stored as history information for each travel means such as a car, a train, and a walk, and the travel time is calculated using the stored information. May be.

  Further, it is also possible to store log information of the required time in each examination step for each patient visited by each doctor and set the required time in each examination step for each patient. In this case, it is possible to generate a response possible level reflecting the actual medical examination situation for each patient as well as for each doctor.

(Embodiment 4)
The doctor management system according to the fourth embodiment will be described below. In addition, since the doctor management system of this Embodiment 4 can be implement | achieved by the structure similar to the doctor management system of Embodiment 1 mentioned above, about the same structure, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  In the doctor management system of the first embodiment described above, the doctor management server 1 is configured to transmit to the nurse terminal 3 the response possible level for each doctor generated based on the doctor information acquired from each doctor terminal 4. In addition, the nurse terminal 3 is configured to extract and display a doctor with a high response level at the time elapsed from the current time selected by the nurse based on the response level acquired from the doctor management server 1. Met.

  On the other hand, in the doctor management system of the fourth embodiment, the doctor management server 1 acquires the elapsed time from the current time selected by the nurse from the nurse terminal 3, and responds at the time of the acquired elapsed time. In this configuration, a doctor with a high possible level is notified to the nurse terminal 3. That is, the doctor management server 1 according to the fourth embodiment is configured to notify the nurse terminal 3 of a doctor who has a high response level when selected by the user, not the response level.

  The control unit 10 of the doctor management server 1 of the fourth embodiment has the same function as the control unit 10 of the doctor management server 1 of the first embodiment described above. However, the responsive level transmitting unit 10g according to the fourth embodiment performs processing different from the responsive level transmitting unit 10g according to the first embodiment.

  When the response possible level transmitting unit 10g according to the fourth embodiment acquires the response possible level from the response possible level generating unit 10f, the response possible level indicates the name of the doctor whose response possible level at the current time is equal to or greater than a predetermined threshold. Responsible doctor display screen information to be displayed in descending order is generated. The respondable level transmitting means 10g transmits the generated respondable doctor display screen information to the nurse terminal 3 that has requested execution of the doctor search process via the network N.

  When receiving the respondable doctor display screen information via the wireless communication interface 36, the control unit 30 of the nurse terminal 3 responds as shown in FIG. 17A based on the received respondable doctor display screen information. The possible doctor display screen is displayed on the display unit 35. FIG. 17 is a schematic diagram showing a configuration of a respondable doctor display screen.

  The respondable doctor display screen shown in FIG. 17 (a) displays the names of the doctors in correspondence with the ranks in descending order of the response possible level at the current time point. The respondable doctor display screen displays the horizontal axis indicating the elapsed time from the current time on the left end and one cursor K on the horizontal axis. The respondable doctor display screen can be set to an arbitrary elapsed time in a time zone from the present to 120 minutes by operating the cursor K to an arbitrary position on the horizontal axis via the operation unit 34 of the nurse terminal 3. The selection is possible.

  When the cursor K is operated at an arbitrary position on the respondable doctor display screen shown in FIG. 17A, the control unit 30 of the nurse terminal 3 notifies the doctor management server 1 of the selected elapsed time. When notified of any elapsed time from the nurse terminal 3, the control unit 10 of the doctor management server 1 generates respondable doctor display screen information corresponding to the time when the notified elapsed time has elapsed.

  Specifically, the control unit 10 selects a doctor whose response possible level at the time when the notified elapsed time has elapsed is equal to or greater than a predetermined threshold. And the control part 10 produces | generates the response doctor display screen information which displays the name of the selected doctor in order with a high response level. The respondable level transmitting means 10g transmits the generated respondable doctor display screen information to the nurse terminal 3 that has requested execution of the doctor search process via the network N.

  In this case, the control unit 30 of the nurse terminal 3 causes the display unit 35 to display a respondable doctor display screen as shown in FIG. 17B based on the received respondable doctor display screen information. The respondable doctor display screen shown in FIG. 17B displays the names of the doctors in correspondence with the ranks in descending order of the response possible level 20 minutes after the present. The respondable doctor display screen shown in FIG. 17 displays a response reservation button for making a response reservation (appointment) with any of the displayed doctors, and a cancel button for ending the doctor search process.

  When the nurse operates the response reservation button using the operation unit 34, the control unit 30 sets the time (date and time) at the time when the elapsed time from the current time selected via the respondable doctor display screen has elapsed. calculate. The control unit 30 requests the doctor management server 1 to make a response reservation for the doctor selected via the respondable doctor display screen at the calculated time, and ends the doctor search process. When the nurse terminal 3 requests a response reservation for the doctor, the control unit 10 of the doctor management server 1 notifies the corresponding doctor terminal 4 that the response reservation has been entered.

  In the following, processing performed by each of the doctor management server 1, the nurse terminal 3, and the doctor terminal 4 in the doctor management system of the fourth embodiment will be described based on flowcharts. 18 and 19 are flowcharts showing the procedure of the doctor search process in the fourth embodiment.

  The following processing is executed by the control unit 10 according to the control program stored in the ROM 11 or the HDD 13 of the doctor management server 1 and according to the control program stored in the ROM 31 or the storage unit 33 of the nurse terminal 3. It is executed by the control unit 30. 18 and 19, in the two areas separated by the broken line, the process by the control unit 30 of the nurse terminal 3 is performed in the left area, and the process by the control unit 10 of the doctor management server 1 is performed in the right area. Show.

  For example, in the display screen shown in FIG. 6B, the control unit 30 of the nurse terminal 3 determines whether or not the doctor search request button has been operated by the nurse (S41). S41: NO), waiting until operated. When it is determined that the controller 30 has been operated (S41: YES), the controller 30 requests the doctor management server 1 to execute a doctor search process (S42).

  The control unit 10 of the doctor management server 1 determines whether or not an execution request for doctor search processing has occurred from the nurse terminal 3 (S43). If no execution request has occurred (S43: NO), an execution request Wait until it occurs. When it is determined that a request for executing the doctor search process has occurred (S43: YES), the control unit 10 executes a response level generation process (S44), and for each doctor, a predetermined time period (for example, 2) A level of responsiveness in time). The response level generation process is the same as the process described in the first embodiment.

  The control unit 10 of the doctor management server 1 displays the names of doctors whose response levels at the current time point are equal to or higher than a predetermined threshold based on the generated response level, in order from the highest response level. Screen information is generated (S45). The control unit 10 transmits the generated respondable doctor display screen information to the nurse terminal 3 that has requested execution of the doctor search process (S46).

  When receiving the respondable doctor display screen information from the doctor management server 1, the control unit 30 of the nurse terminal 3 displays the respondable doctor display screen on the display unit 35 based on the received respondable doctor display screen information. (S47). The nurse uses the operation unit 34 to select a desired elapsed time on the responding doctor display screen. The control unit 30 determines whether or not an arbitrary elapsed time selected by the nurse has been received (S48). When it is determined that the elapsed time has been received (S48: YES), the received elapsed time is notified to the doctor management server 1 (S49).

  The control unit 10 of the doctor management server 1 generates respondable doctor display screen information corresponding to the notified elapsed time from the present based on the response possible level generated in step S44, and transmits it to the nurse terminal 3. (S50). Specifically, the control unit 10 displays the names of the doctors whose response levels at the time when the notified elapsed time has elapsed from the present time are equal to or higher than a predetermined threshold, in order from the highest response level. Display screen information is generated.

  The control unit 30 of the nurse terminal 3 displays a respondable doctor display screen on the display unit 35 based on the respondable doctor display screen information received from the doctor management server 1 (S51). On the respondable doctor display screen, the nurse selects a desired doctor using the operation unit 34 and operates a response reservation button to request a response reservation for the desired doctor. When it is determined that the arbitrary elapsed time selected by the nurse is not received on the responding doctor display screen (S48: NO), the control unit 30 determines whether a response reservation has been received (S52).

  When it is determined that the response reservation has been accepted (S52: YES), the control unit 30 calculates the time when the elapsed time from the current time selected via the respondable doctor display screen has elapsed. The control unit 30 requests the doctor management server 1 to make a response reservation for the doctor selected via the respondable doctor display screen at the calculated time (S53). When the response reservation is requested from the nurse terminal 3, the control unit 10 of the doctor management server 1 notifies the corresponding doctor terminal 4 that the response reservation has been entered (S54), and ends the above-described doctor management processing. To do.

  When the control unit 30 of the nurse terminal 3 determines that the response reservation is not accepted (S52: NO), the control unit 30 determines whether the cancel button is operated by the nurse on the respondable doctor display screen (S55). . If it is determined that the cancel button has been operated (S55: YES), the control unit 30 ends the doctor search process described above. When it is determined that the cancel button has not been operated (S55: NO), the control unit 30 returns the process to step S48 and repeats the processes of steps S49 and S51 to S53 described above.

  As described above, in the doctor management system according to the fourth embodiment, only the doctor who has a high level of response at the time the nurse desires is notified, so the nurse can easily select the desired doctor from the notified doctor. You can choose. Moreover, since the doctor management server 1 performs the process of extracting doctors with a high response level, the processing load on the nurse terminal 3 can be reduced.

  In the fourth embodiment described above, the respondable doctor display screen is configured to display the names of all doctors whose response enablement level is equal to or higher than a predetermined threshold in descending order of response enablement level. The respondable doctor display screen is not limited to such a configuration, and for example, may be configured to display the names of a predetermined number of doctors in descending order of response level. As a result, even if a large number of doctors whose response possible level is equal to or higher than the predetermined threshold value can be searched, only doctors whose response possible level is higher can be displayed. Therefore, the nurse only has to select a doctor who makes a response reservation from doctors whose response level is higher, so that the complexity of the selection process can be reduced.

(Embodiment 5)
The doctor management system according to the fifth embodiment will be described below. In addition, since the doctor management system of the fifth embodiment can be realized by the same configuration as the doctor management system of the first embodiment described above, the same components are denoted by the same reference numerals and description thereof is omitted.

  In the doctor management system of the first embodiment described above, the control unit 10 of the doctor management server 1 is configured to generate response levels for all doctors when there is a doctor search process execution request from the nurse terminal 3. there were. With such a configuration, the processing load increases when the number of doctors managed by the doctor management system becomes enormous. In addition, since the number of doctors that the nurse wants to contact is limited depending on the requirements, the nurse does not intend to contact when the response level of all doctors is generated as in the first embodiment. A process for generating a response level for the doctor is not required. Therefore, the doctor management system of the fifth embodiment is configured such that the nurse designates a plurality of desired doctors when the nurse terminal 3 is used to request execution of the doctor search process.

  When the nurse operates the doctor search request button using the operation unit 34 on the display screen shown in FIG. 6B displayed on the display unit 35, the control unit 30 of the nurse terminal 3 according to the fifth embodiment. A doctor designation screen as shown in FIG. 20 is displayed on the display unit 35. FIG. 20 is a schematic diagram showing the configuration of the doctor designation screen. The doctor designation screen is a screen for designating a doctor as a processing target of the doctor search process, and displays a plurality of input fields for inputting the doctor's name.

  It should be noted that a pull-down menu for displaying the names of all doctors is set in each input field, and the doctors to be processed in the doctor search process are selected from the doctor names displayed in the pull-down menu. Good. Further, the doctor designation screen shown in FIG. 20 has a configuration having three input fields, but the number of input fields is not limited to three.

  The nurse inputs the name of the doctor to be processed in the doctor search process in the input field, and operates the execution button using the operation unit 34. When the nurse operates the execution button displayed on the doctor designation screen, the control unit 30 of the nurse terminal 3 performs the doctor search process on a plurality of doctors input via the doctor designation screen as a process target. Request to the management server 1.

  When the nurse terminal 3 requests the doctor management server 1 to execute the doctor search process, the control unit 10 (search request occurrence detection means 10a) of the doctor management server 1 according to the fifth embodiment makes an execution request for the doctor search process. Detect what happened. At this time, the control unit (designation accepting means) 10 accepts designations of a plurality of doctors as the doctor search process target. The control unit 10 (doctor information acquisition unit 10b) requests doctor information from the doctor terminal 4 carried by the doctor notified from the nurse terminal 3 as a processing target of the doctor search process.

  When acquiring the doctor information from the doctor terminal 4 that has requested the doctor information, the control unit 10 of the doctor management server 1 generates a response possible level for each doctor in a predetermined time zone based on the acquired doctor information. . The control unit 10 generates response level display screen information for displaying the generated response level, and transmits the generated response level display screen information to the nurse terminal 3 that has requested execution of the doctor search process. To do.

  When the control unit 30 of the nurse terminal 3 receives the response level display screen information from the doctor management server 1, based on the received response level display screen information, the response level as shown in FIG. The display screen is displayed on the display unit 35. The subsequent processing of the control unit 30 of the nurse terminal 3 in which the response level display screen is displayed on the display unit 35 is the same as the processing described in the first embodiment. Specifically, when an arbitrary elapsed time is selected via the response level display screen, the control unit 30 of the nurse terminal 3 sets each response level in descending order when the selected elapsed time has elapsed. A respondable doctor display screen for displaying the doctor's name is displayed on the display unit 35.

  With the configuration described above, a nurse who wants to contact a doctor designates a desired doctor and requests execution of a doctor search process, whereby the control unit 10 of the doctor management server 1 is designated from the nurse terminal 3. It is only necessary to generate a response level for a doctor. Therefore, since no level of response is generated for a doctor who the nurse does not intend to contact, unnecessary processing can be reduced.

  Although the doctor management system of the fifth embodiment has been described as a modification of the doctor management system of the first embodiment, it can also be applied to the doctor management system of the fourth embodiment. That is, the control unit 10 of the doctor management server 1 generates respondable doctor display screen information for displaying each doctor's name in descending order of the response level at an arbitrary time point from the generated response level of each doctor. It is good also as composition to do. When comprised in this way, the process which the control part 30 of the nurse terminal 3 performs can be reduced, and the processing burden in the nurse terminal 3 can be reduced.

  Further, the screen displayed on the display unit 35 of the nurse terminal 3 is not limited to the response level display screen as shown in FIG. 9A and the response doctor display screen as shown in FIG. 9B. . FIG. 21 is a schematic diagram showing the configuration of the status display screen. The doctor management server 1 of the fifth embodiment described above may transmit status display screen information for displaying a status display screen as shown in FIG. 21 to the nurse terminal 3. The status display screen displays a time zone in which each doctor can respond for each doctor designated via the doctor designation screen shown in FIG. In addition, the time slot | zone when each doctor can respond is shown based on the elapsed time from the present.

  Specifically, the control unit 10 of the doctor management server 1 generates a response possible level for each doctor in a predetermined time zone based on the doctor information acquired from each doctor terminal 4, and the generated response possible level. A time zone in which is equal to or greater than a predetermined value is extracted. Then, the control unit 10 generates status display screen information for displaying each extracted time zone in association with each doctor's name, and requests the generated status display screen information to execute a doctor search process. To the nurse terminal 3.

  As a result, the nurse can grasp the response time period of each doctor specified by the nurse based on the status display screen, and therefore selects the doctor who makes the response reservation based on the response time period of each doctor. be able to. Therefore, the nurse can select an appropriate doctor in consideration of a time zone desired by the nurse, a time zone in which the doctor can respond, a doctor desired by the nurse, and the like.

(Embodiment 6)
The doctor management system according to the sixth embodiment will be described below. Since the doctor management system of the sixth embodiment can be realized by the same configuration as the doctor management system of the first and fifth embodiments, the same reference numerals are given to the same configurations and the description thereof is omitted. To do.

The doctor management system according to the fifth embodiment described above is configured to designate a doctor to be processed when the nurse terminal 3 requests the doctor management server 1 to execute a doctor search process.
A nurse may have a priority order for doctors to be contacted, and even if a plurality of desired doctors are designated as doctor search processing targets, a doctor with a higher priority order if possible I want to get in touch with you. Therefore, the doctor management system according to the sixth embodiment is configured to designate a plurality of desired doctors with priorities when a nurse makes a request to execute a doctor search process.

  When the control unit 30 of the nurse terminal 3 of the sixth embodiment operates the doctor search request button using the operation unit 34 on the display screen shown in FIG. 6B displayed on the display unit 35. A doctor designation screen as shown in FIG. 22 is displayed on the display unit 35. FIG. 22 is a schematic diagram showing the configuration of the doctor designation screen. The doctor designation screen of the sixth embodiment is a screen for designating a doctor to be a subject of doctor search processing, and displays a plurality of input fields for inputting a doctor's name corresponding to each desired rank. .

  It should be noted that a pull-down menu for displaying the names of all doctors is set in each input field, and the doctors to be processed in the doctor search process can be selected from the doctor names displayed in the pull-down menu. Good. The doctor designation screen shown in FIG. 22 has three input fields, but the number of input fields is not limited to three.

  The nurse inputs the names of doctors to be processed in the doctor search process in the input fields corresponding to the desired rank, and operates the execution button using the operation unit 34. When the nurse operates the execution button displayed on the doctor designation screen, the control unit 30 of the nurse terminal 3 performs the doctor search process on a plurality of doctors input via the doctor designation screen as a process target. Request to the management server 1. Note that the control unit 30 notifies each doctor to be processed to the doctor management server 1 in correspondence with the desired order of the nurses.

  When the nurse terminal 3 requests the doctor management server 1 to execute the doctor search process, the control unit 10 (search request occurrence detection means 10a) of the doctor management server 1 according to the fifth embodiment makes an execution request for the doctor search process. Detect what happened. Next, the control unit 10 (doctor information acquisition unit 10b) requests doctor information from the doctor terminal 4 carried by the doctor notified from the nurse terminal 3 as a processing target of the doctor search process.

  When acquiring the doctor information from the doctor terminal 4 that has requested the doctor information, the control unit 10 of the doctor management server 1 generates a response possible level for each doctor in a predetermined time zone based on the acquired doctor information. . Here, the control unit (calculation unit) 10 of the sixth embodiment adds a value corresponding to the priority order of each doctor set by the nurse to the generated response possible level of each doctor. For example, the control unit 10 adds 2 to the response possible level of the doctor with the first priority, adds 1.5 to the response possible level of the doctor with the second priority, and the doctor with the third priority. 1 is added to the response possible level.

  In this way, by adding a value according to the priority set by the nurse to the response possible level, the response level of the doctor with the higher priority desired by the nurse is raised and compared with the doctor with a lower priority. It is determined that the response is possible with priority. Therefore, it becomes easy to make a response reservation for a doctor with a high priority. It should be noted that the value added to the response possible level is such that the response possible level that was originally determined to be unresponsive is not determined to be responsive by adding this value. It is desirable to set the value of. Thereby, it is possible to avoid erroneously determining that the response is possible despite the fact that the response is not possible.

  The control unit 10 may apply the weighting factor according to the priority order of each doctor set by the nurse to the generated response possible level of each doctor to reflect the priority order in the response possible level. .

  The control unit 10 of the doctor management server 1 generates response level display screen information for displaying a response level to which a value corresponding to the priority is added, and searches the generated response level display screen information for a doctor search. The data is transmitted to the nurse terminal 3 that has requested execution of the process.

  When the control unit 30 of the nurse terminal 3 receives the response level display screen information from the doctor management server 1, based on the received response level display screen information, the response level as shown in FIG. The display screen is displayed on the display unit 35. In addition, since the process after the control part 30 of the nurse terminal 3 by which the response possible level display screen was displayed on the display part 35 is the same as the process demonstrated in Embodiment 1 mentioned above, description is abbreviate | omitted.

  Hereinafter, the processes performed by the doctor management server 1, the nurse terminal 3, and the doctor terminal 4 in the doctor management system of the sixth embodiment will be described with reference to flowcharts. 23 and 24 are flowcharts showing the procedure of the doctor search process in the sixth embodiment.

  The following processing is executed by the control unit 10 according to the control program stored in the ROM 11 or the HDD 13 of the doctor management server 1 and according to the control program stored in the ROM 31 or the storage unit 33 of the nurse terminal 3. It is executed by the control unit 30. 23 and 24, in the two areas separated by a broken line, the process by the control unit 30 of the nurse terminal 3 is performed in the left area, and the process by the control unit 10 of the doctor management server 1 is performed in the right area. Show.

  For example, in the display screen shown in FIG. 6B, the control unit 30 of the nurse terminal 3 determines whether or not the doctor search request button has been operated by the nurse (S61). S61: NO), waiting until operated. When it is determined that the control unit 30 has been operated (S61: YES), the control unit 30 displays a doctor designation screen as shown in FIG. 22 on the display unit 35 (S62). In the doctor designation screen, the control unit 30 determines whether or not the name of the doctor who wishes to be contacted is input to each input field by the nurse and the execution button is operated (S63).

  When it is determined that the execution button is not operated (S63: NO), the control unit 30 waits as it is, and when it is determined that the execution button is operated (S63: YES), the control unit 30 is input via the doctor designation screen. The doctor management server 1 is requested to execute a doctor search process for a doctor corresponding to each priority order (S64).

  The control unit 10 of the doctor management server 1 determines whether or not an execution request for doctor search processing has occurred from the nurse terminal 3 (S65). If no execution request has occurred (S65: NO), an execution request Wait until it occurs. When it is determined that a request for executing the doctor search process has occurred (S65: YES), the control unit 10 executes a response level generation process (S66), and for each doctor, a predetermined time period (for example, 2) A level of responsiveness in time). The response level generation process is the same as the process described in the first embodiment.

  The control unit 10 of the doctor management server 1 adds a value corresponding to the priority order of each doctor set by the nurse to the generated response possible level of each doctor (S67). The control unit 10 generates response level display screen information for displaying a response level obtained by adding a value corresponding to the priority order, and requests the doctor response process to execute the generated response level display screen information. To the nurse terminal 3 (S68).

  When the control unit 30 of the nurse terminal 3 receives the response level display screen information from the doctor management server 1, based on the received response level display screen information, the response level as shown in FIG. The display screen is displayed on the display unit 35 (S69). The nurse uses the operation unit 34 to select a desired elapsed time on the response level display screen. The control unit 30 determines whether or not any elapsed time selected by the nurse has been received (S70). When it is determined that the elapsed time is not received (S70: NO), the control unit 30 determines whether or not the end button on the response level display screen is operated by the nurse (S71).

  When it is determined that the end button has been operated (S71: YES), the control unit 30 ends the response level display screen shown in FIG. 9A and ends the doctor search process. When it is determined that the end button is not operated (S71: NO), the control unit 30 returns the process to step S70.

  When the control unit 30 determines that the elapsed time has been received via the response level display screen (S70: YES), the name of each doctor whose response level at the time of the received elapsed time is equal to or greater than a predetermined threshold value, Responsible doctor display screen information to be displayed in descending order of response level is generated (S72). The control unit 30 causes the display unit 35 to display a respondable doctor display screen based on the generated respondable doctor display screen information (S73).

  On the respondable doctor display screen, the nurse selects a desired doctor using the operation unit 34 and operates a response reservation button to request a response reservation for the desired doctor. The control unit 30 determines whether or not a response reservation has been accepted (S74). If it is determined that a response reservation has not been accepted (S74: NO), the process returns to step S69, as shown in FIG. Return to the display of the correct response level display screen.

  When it is determined that the response reservation has been accepted (S74: YES), the control unit 30 calculates the time when the elapsed time from the present time selected via the response level display screen has elapsed. The control unit 30 requests the doctor management server 1 to make a response reservation for the doctor selected via the respondable doctor display screen at the calculated time (S75). When the response reservation is requested from the nurse terminal 3, the control unit 10 of the doctor management server 1 notifies the corresponding doctor terminal 4 that the response reservation has been entered (S76), and ends the above-described doctor management processing. To do.

  As described above, in the doctor management system of the sixth embodiment, a response possible level reflecting the priority order of each doctor desired by the nurse is generated, so that a doctor with a higher priority order than a doctor with a lower priority order. Are also preferentially available for response. Therefore, it is easier to determine that a doctor with a higher priority can respond, and it is easier to make a reservation for a doctor with a higher priority.

  Although the doctor management system of the sixth embodiment has been described as a modification of the doctor management system of the first embodiment, it can also be applied to the doctor management system of the fourth embodiment. That is, the control unit 10 of the doctor management server 1 generates respondable doctor display screen information for displaying each doctor's name in descending order of the response level at an arbitrary time point from the generated response level of each doctor. It is good also as composition to do. When comprised in this way, the process which the control part 30 of the nurse terminal 3 performs can be reduced, and the processing burden in the nurse terminal 3 can be reduced.

(Embodiment 7)
The doctor management system according to the seventh embodiment will be described below. In addition, since the doctor management system of this Embodiment 7 can be implement | achieved by the structure similar to the doctor management system of Embodiment 1 mentioned above, about the same structure, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  When the doctor management system of Embodiments 1 to 6 described above generates a response level in a time zone during the examination of each doctor, the level value of the response level in each preset diagnosis step or registered by the doctor It was the composition which used the level value of the responsive level in each examination step made.

  On the other hand, in the doctor management system of the seventh embodiment, the doctor terminal 4 has a voice recognition function, collects the conversation between the doctor and the patient performed during the examination, and based on the collected voice signal. It is configured to calculate the busyness of each doctor who is being examined. Further, the doctor terminal 4 according to the seventh embodiment is configured to set the level value of the response possible level at each examination step based on the calculated busyness.

  Below, the structure of the doctor terminal 4 of this Embodiment 7 is demonstrated. FIG. 25 is a block diagram illustrating a configuration of the doctor terminal 4 according to the seventh embodiment. The doctor terminal 4 of the seventh embodiment includes a voice input unit 48 in addition to the configuration of the doctor terminal 4 of the first embodiment shown in FIG. Further, the storage unit 43 of the doctor terminal 4 according to the seventh embodiment includes the busyness calculation processing program 43d and the information stored in the storage unit 43 of the doctor terminal 4 according to the first embodiment illustrated in FIG. The response level setting processing program 43e and the like are stored.

  The voice input unit 48 includes a microphone, an A / D (analog / digital) converter, etc., collects ambient sounds (sound) with the microphone, and converts the obtained analog voice signal into an A / D converter. To convert to a digital audio signal.

  The control unit 40 of the doctor terminal 4 according to the seventh embodiment displays a display screen as shown in FIG. 6A on the display unit 45 when activated by the doctor when the doctor starts a medical examination at the patient's home. At the same time, sound collection by the voice input unit 48 is started. In addition, the control unit 40 of the doctor terminal 4 executes the busyness calculation processing program 43d stored in the storage unit 43, so that the doctor and the patient can be connected to each other based on the audio signal acquired by the audio input unit 48. Determine if you are talking. In addition, when the signal value (volume level) of the audio signal acquired by the audio input unit 48 becomes a predetermined value or more, it can be determined that the doctor and the patient are talking.

  In addition, since each doctor clicks each examination step on the display screen shown in FIG. 6A every time each examination step of the examination action is finished, the control unit 40 can grasp the timing when the doctor starts each examination step. . Therefore, the control unit 40 measures the time actually required by the doctor and the conversation time exchanged between the doctor and the patient in each examination step of the examination action.

  Specifically, the control unit 40 measures the time from when one doctor step is clicked by the doctor until the next doctor step is clicked, and the measured time is set as the time required for this doctor step. In addition, the control unit 40 determines that the signal value of the audio signal acquired by the audio input unit 48 is greater than or equal to a predetermined value after one doctor step is clicked by the doctor until the next doctor step is clicked. The measured time is counted as the conversation time in this examination step.

  Moreover, the control part (busy degree acquisition means) 40 calculates the ratio of the conversation time with respect to the required time of each examination step, when calculating the required time and conversation time of each examination step, and makes it a conversation frequency (busy degree). . The control unit 40 temporarily stores the calculated conversation frequency in the RAM 42 in association with the examination step, and calculates the conversation frequency in all the examination steps.

  In the display screen shown in FIG. 6A, when the doctor clicks the end step using the operation unit 44, the control unit 40 receives the end of the examination action. When the control unit 40 accepts the end of the examination action, the control unit 40 executes the response level setting processing program 43e stored in the storage unit 43, thereby determining the frequency at each examination step based on the conversation frequency at each examination step. Set response level. For example, the control unit 40 sets a response possible level with a smaller value as the conversation frequency calculated for each examination step increases.

  Note that the control unit 40 is not limited to the configuration that sets the response possible level in each diagnosis step, and is configured to set the increase / decrease amount of the response possible level in each diagnosis step with respect to a predetermined response possible level, for example. May be. Further, the control unit 40 accumulates the conversation frequency at each examination step in the past examination action in the storage unit 43, and calculates the average conversation frequency at each examination step based on the accumulated past information. Then, the response possible level in each examination step may be set based on the calculated conversation frequency.

  The response possible level in each examination step set in this way is managed by the doctor terminal 4 and sent to the doctor management server 1 together with the doctor information (schedule information, current position information 43b) by the doctor terminal 4. Moreover, the response possible level in each examination step set in this way may be sequentially transmitted from the doctor terminal 4 to the doctor management server 1 at a predetermined timing and managed by the doctor management server 1.

  When the nurse terminal 3 requests the doctor management server 1 to execute the doctor search process, the processes performed by the doctor management server 1, the nurse terminal 3, and the doctor terminal 4 are the same as those in the first to sixth embodiments. Since it is the same as the process described in, description is omitted.

  Below, the setting process of the response possible level by the doctor terminal 4 of this Embodiment 7 is demonstrated based on a flowchart. FIG. 26 is a flowchart showing a procedure of response level setting processing. The following processing is executed by the control unit 40 in accordance with a control program stored in the ROM 41 or the storage unit 43 of the doctor terminal 4.

  When activated by the doctor, the control unit 40 of the doctor terminal 4 displays a display screen as shown in FIG. 6A on the display unit 45 and starts collecting sound by the voice input unit 48 (S81). The control unit 40 determines whether or not the examination step is clicked on the display screen shown in FIG. 6A (S82), and when it is determined that it is not clicked (S82: NO), until it is clicked. stand by.

  When it is determined that the examination step has been clicked (S82: YES), the control unit 40 starts measuring the time required for this examination step (S83) and starts measuring the conversation time in this examination step (S84). . The control unit 40 determines whether or not the next examination step has been clicked on the display screen shown in FIG. 6A (S85), and if it is determined that the button has not been clicked (S85: NO), the control unit 40 is clicked. Wait until

  When it is determined that the next examination step has been clicked (S85: YES), the control unit 40 calculates the conversation frequency at the examination step clicked in step S82 and stores it in the RAM 42 (S86). Note that the conversation frequency is calculated based on the time measurement result (required time) of the required time measurement process started in step S83 and the time measurement result (conversation time) of the time measurement process started in step S84.

  In the display screen shown in FIG. 6A, the control unit 40 accepts the end of the diagnosis by clicking the end step using the operation unit 44 by the doctor, and determines whether or not the end of the diagnosis is received ( S87). When it is determined that the end of the examination is not accepted (S87: NO), the control unit 40 resets the time required for the examination step (S88), and the time of the next examination step clicked in step S85 is set. Start timing.

  The control unit 40 resets the time measurement of the conversation time in the examination step (S89), and starts measuring the conversation time in the next examination step clicked in step S85. The control unit 40 returns the process to step S85 and repeats the processes of steps S85 to S89 described above until the end of the diagnosis is accepted.

  When it is determined that the end of the examination has been received (S87: YES), the control unit 40 ends the sound collection by the voice input unit 48 (S90). Based on the conversation frequency at each examination step stored in the RAM 42 at step S86, the control unit 40 sets a response possible level at each examination step (S91).

  As described above, in the doctor management system according to the seventh embodiment, each doctor generates a responsive level corresponding to the frequency of conversations that are actually exchanged with the patient in each examination step of the examination action. Therefore, it is possible to accurately grasp the actual situation of each doctor based on the level of response that reflects the actual busyness in each examination step of the doctor.

  In the doctor management system of the seventh embodiment, the doctor terminal 4 collects the conversation between the doctor and the patient, calculates the conversation frequency at each examination step based on the obtained audio signal, and sets the calculated conversation frequency to the calculated conversation frequency. Based on this, the level of response at each examination step was set. Without being limited to such a configuration, the doctor terminal 4 sends the collected audio signal to the doctor management server 1, and the doctor terminal server 1 calculates the conversation frequency at each examination step based on the acquired audio signal, the conversation You may comprise so that the response possible level based on frequency may be set. When configured in this manner, the processing by the doctor terminal 4 can be reduced, so that the processing burden on the doctor terminal 4 can be reduced.

  The doctor terminal 4 according to the seventh embodiment has a configuration in which a response possible level in each examination step is set according to a ratio of conversation time (conversation frequency) to the time required for each examination step. The doctor terminal 4 is not limited to such a configuration. For example, the doctor terminal 4 sets a response possible level in each examination step based on the frequency (number of times) of conversations between the doctor and the patient in each examination step. Also good.

  In each of the above-described embodiments, the configuration in which the doctor management server 1 stores the doctor schedule information DB 13b, the nurse schedule information DB 13c, and the like in the HDD 13 has been described as an example. The doctor management system of each embodiment is not limited to such a configuration. For example, a DB server that stores a doctor schedule information DB 13b and a nurse schedule information DB 13c is prepared, and the DB server is connected to the doctor management server 1 and a dedicated line or network. It is good also as a structure connected via this. In this case, the control unit 10 of the doctor management server 1 may access the DB server as necessary to obtain necessary information. Moreover, it is good also as a structure which manages doctor schedule information DB13b and nurse schedule information DB13c with a separate DB server.

  In each embodiment mentioned above, nurse terminal 3 and doctor terminal 4 were tablet personal computers, and explained as composition which inputs various information by operating a touch panel. For example, the nurse terminal 3 and the doctor terminal 4 may be provided with a voice input unit and a voice recognition unit, and may be configured to input various types of information by voice input.

  In each embodiment mentioned above, nurse terminal 3 and doctor terminal 4 explained a doctor management system which has a different composition. However, the nurse terminal 3 can be configured similarly to the doctor terminal 4. In the doctor management system configured in this way, not only the response status (response level) of each doctor but also the response status (response level) of each nurse can be grasped. Response reservations for nurses are also possible.

  The following supplementary notes are further disclosed with respect to the embodiments including the above first to seventh embodiments.

(Appendix 1)
In the management system that manages the schedule of the manager,
Schedule information acquisition means for acquiring the schedule information of the managed person;
Based on the schedule information acquired by the schedule information acquisition means, a specifying means for specifying the response status of the managed person in a predetermined time zone;
A management system comprising: output means for outputting the response availability status specified by the specifying means to the outside.

(Appendix 2)
The schedule information includes a scheduled date and time and a visited place,
Based on the schedule information acquired by the schedule information acquisition means, comprising a classifying means for classifying the predetermined time zone into a time zone during which the managed person is moving and a time zone during which the manager is visiting the visiting place,
The appendix 1 is characterized in that the specifying means is configured to specify the response possible status of the manager for each moving time zone and visited time zone classified by the sorting means. The management system described.

(Appendix 3)
A travel time calculating means for calculating a travel time required for moving to the next visit location based on the schedule information acquired by the schedule information acquiring means for the time zone divided by the sorting means into the time zone being moved. ,
In the time zone from the scheduled date and time of the next visited place to the date and time retroactive to the travel time calculated by the travel time calculation means for the time zone classified into the time zone in which the classification means is moving, The management system according to appendix 2, wherein a response possible value indicating a response possible status of the managed person is set to a value lower than a response possible value in other time zones.

(Appendix 4)
The specifying means sets the response possible value in the time zone from the scheduled date and time of the next visited place to the date and time that goes back the travel time calculated by the travel time calculating means, as the time until the scheduled date and time of the next visited place is shorter The management system according to attachment 3, wherein the management system is configured to have a low value.

(Appendix 5)
A travel time storage means for storing a history of travel time to each visited place,
The travel time calculation unit is configured to calculate a travel time required for travel to the next visited place based on a travel time history stored in the travel time storage unit. The management system according to 3 or 4.

(Appendix 6)
The schedule information further includes a work time required for each of a plurality of work processes at a visit place and a responsive value corresponding to each work process,
The specifying means is based on the scheduled date and time indicated by the schedule information acquired by the schedule information acquisition means, the work time of each work process, and the response possible value for the time zone divided into the time zone visited by the classification means, The management system according to appendix 2, wherein the management system is configured to calculate a scheduled date and time of each work process and a response possible value corresponding to the scheduled date and time.

(Appendix 7)
The management system according to appendix 6, wherein the work time and / or responsive value included in the schedule information is variable.

(Appendix 8)
Working time storage means for storing a history of working time required for each work process at each visited place;
The management system according to claim 7, further comprising means for calculating a work time required for each work process at each visited place based on a work time history stored in the work time storage means.

(Appendix 9)
Busyness degree acquisition means for acquiring the busyness degree during each work process at each visited place;
The management system according to appendix 7 or 8, further comprising means for calculating a responsive value corresponding to each work process at each visit location based on the busy degree acquired by the busy degree acquisition means .

(Appendix 10)
Current status detection means for detecting the current status of the managed person;
Schedule information specifying means for specifying schedule information of the managed person in a predetermined time zone from the current situation based on the current situation detected by the current situation detection means and the schedule information acquired by the schedule information acquisition means; With
The specifying means is configured to specify a response possible situation of the managed person in a predetermined time zone from a current situation based on the schedule information specified by the schedule information specifying means. The management system according to one of appendices 1 to 9.

(Appendix 11)
The current status detection means includes means for acquiring the current position of the managed person,
The scheduled information specifying unit is configured to determine the managed person in a predetermined time zone from the current situation based on the current position of the managed person obtained by the current situation detecting unit and the schedule information obtained by the scheduled information obtaining unit. The management system according to appendix 10, wherein the schedule information is specified.

(Appendix 12)
The current status detection means includes means for acquiring information on a current work process at each visited place of the managed person,
The schedule information specifying means is based on the current work process information acquired by the current status detection means and the schedule information acquired by the schedule information acquisition means. The management system according to appendix 10, wherein the management system is configured to identify schedule information.

(Appendix 13)
Comprising designation receiving means for accepting designation of a plurality of managed persons among a plurality of managed persons;
The schedule information acquisition means is configured to acquire schedule information of a plurality of managed persons who have received designations,
The specifying unit is configured to specify each response status of the managed person in a predetermined time zone based on the schedule information acquired by the schedule information acquiring unit. To 12. The management system according to any one of 12 to 12.

(Appendix 14)
The designation accepting unit is configured to accept designation of a plurality of managers according to a designation order,
A calculating means for adding a coefficient according to the designated order to each response possible situation of the managed person specified by the specifying means;
14. The management system according to appendix 13, wherein the output unit is configured to output the response possible status calculated by the calculation unit to the outside.

(Appendix 15)
In the management system that manages the schedule of the manager,
Schedule information acquisition means for acquiring schedule information of each of a plurality of managed persons;
Based on the schedule information acquired by the schedule information acquisition means, a specifying means for specifying the respective respondable statuses of the managed person in a predetermined time zone;
Means for accepting designation of a date and time in the predetermined time zone;
A selection unit that selects a predetermined number of managers in descending order of the possibility of response at the date and time when the designation is received, based on the response possible situation identified by the identification unit
A management system comprising: output means for outputting information on the person selected by the selection means to the outside.

(Appendix 16)
In a management system that manages an administrator's schedule, comprising an input unit that receives information from the outside, an output unit that outputs information to the outside, and a storage unit that stores information,
Schedule information acquisition means for acquiring the schedule information of the managed person via the input unit and storing it in the storage unit;
A means for reading out the schedule information stored in the storage unit, specifying a response possible situation of the managed person in a predetermined time zone based on the read schedule information, and storing it in the storage unit;
A management system comprising: an output unit that reads out the response available status stored in the storage unit and outputs the read response available status to the outside from the output unit.

(Appendix 17)
Based on the information acquired via the input unit, current status detection means for detecting the current status of the managed person,
Based on the current situation detected by the current situation detection means and the schedule information stored in the storage unit, the schedule information of the managed person in a predetermined time zone is specified from the current situation, and the storage unit And schedule information specifying means to be stored in
The specifying unit reads the schedule information stored in the storage unit by the schedule information specifying unit, and specifies the response possible status of the managed person in a predetermined time zone from the current status based on the read schedule information The management system according to supplementary note 16, wherein the management system is configured to store in the storage unit.

(Appendix 18)
In a computer program for causing a computer to manage a schedule of a manager,
On the computer,
Identifying the response status of the managed person in a predetermined time zone based on the scheduled information of the managed person;
A computer program for executing the step of outputting the specified response availability status to the outside.

(Appendix 19)
In the management method by the management system that manages the schedule of the managed person,
The management system acquiring schedule information of a managed person; and
The management system, based on the acquired schedule information, identifying the response status of the managed person in a predetermined time zone; and
The management system includes a step of outputting the identified response availability status to the outside.

It is a schematic diagram which shows the structure of the doctor management system of Embodiment 1. It is a block diagram which shows the structure of the doctor management server of Embodiment 1. FIG. It is a schematic diagram which shows the registration content of doctor schedule information DB. It is a block diagram which shows the structure of the nurse terminal of Embodiment 1. It is a block diagram which shows the structure of the doctor terminal of Embodiment 1. It is a schematic diagram which shows the structure of the display screen displayed on a doctor terminal and a nurse terminal. It is a functional block diagram which shows the function structure of the doctor management server of Embodiment 1. FIG. It is a schematic diagram which shows transition of the response possible level. It is a schematic diagram which shows the structure of the display screen displayed on a nurse terminal. 3 is a flowchart illustrating a procedure of doctor search processing in the first embodiment. 3 is a flowchart illustrating a procedure of doctor search processing in the first embodiment. It is a flowchart which shows the procedure of a response possible level production | generation process. It is a flowchart which shows the procedure of a response possible level production | generation process. It is a schematic diagram which shows the registration content of registration information DB. It is a functional block diagram which shows the function structure of the doctor management server of Embodiment 2. It is a schematic diagram which shows the registration content of log | history information DB. It is a schematic diagram which shows the structure of a doctor display screen which can respond. 10 is a flowchart illustrating a procedure of doctor search processing according to the fourth embodiment. 10 is a flowchart illustrating a procedure of doctor search processing according to the fourth embodiment. It is a schematic diagram which shows the structure of a doctor designation | designated screen. It is a schematic diagram which shows the structure of a condition display screen. It is a schematic diagram which shows the structure of a doctor designation | designated screen. 18 is a flowchart illustrating a procedure of doctor search processing in the sixth embodiment. 18 is a flowchart illustrating a procedure of doctor search processing in the sixth embodiment. It is a block diagram which shows the structure of the doctor terminal of Embodiment 7. It is a flowchart which shows the procedure of the setting process of a response possible level.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Doctor management server 10 Control part 10b Doctor information acquisition means (schedule information acquisition means)
10c Situation discrimination means (classification means)
10d Responsive level estimation means during movement (specification means, movement time calculation means)
10e Response level estimation means during diagnosis (specifying means)
10g Response level transmission means (output means)
3 Nurse terminal 4 Doctor terminal 40 Control unit (current status detection means, schedule information identification means)

Claims (8)

In the management system that manages the schedule of the manager,
Schedule information acquisition means for acquiring the schedule information of the managed person;
Based on the schedule information acquired by the schedule information acquisition means, a specifying means for specifying the response status of the managed person in a predetermined time zone;
A management system comprising: output means for outputting the response availability status specified by the specifying means to the outside. The schedule information includes a scheduled date and time and a visited place,
Based on the schedule information acquired by the schedule information acquisition means, comprising a classifying means for classifying the predetermined time zone into a time zone during which the managed person is moving and a time zone during which the manager is visiting the visiting place,
2. The configuration according to claim 1, wherein the specifying unit is configured to specify the response possible status of the managed person for each moving time zone and visited time zone that are classified by the sorting unit. Management system as described in. A travel time calculating means for calculating a travel time required for moving to the next visit location based on the schedule information acquired by the schedule information acquiring means for the time zone divided by the sorting means into the time zone being moved. ,
In the time zone from the scheduled date and time of the next visited place to the date and time retroactive to the travel time calculated by the travel time calculation means for the time zone classified into the time zone in which the classification means is moving, The management system according to claim 2, wherein a response possible value indicating a response possible status of the managed person is configured to be a value lower than a response possible value in other time zones. The schedule information further includes a work time required for each of a plurality of work processes at a visit place and a responsive value corresponding to each work process,
The specifying means is based on the scheduled date and time indicated by the schedule information acquired by the schedule information acquisition means, the work time of each work process, and the response possible value for the time zone divided into the time zone visited by the classification means, The management system according to claim 2, wherein the management system is configured to calculate a scheduled date and time of each work process and a response possible value corresponding to the scheduled date and time. Current status detection means for detecting the current status of the managed person;
Schedule information specifying means for specifying schedule information of the managed person in a predetermined time zone from the current situation based on the current situation detected by the current situation detection means and the schedule information acquired by the schedule information acquisition means; With
The specifying means is configured to specify a response possible situation of the managed person in a predetermined time zone from a current situation based on the schedule information specified by the schedule information specifying means. The management system according to claim 1. In the management system that manages the schedule of the manager,
Schedule information acquisition means for acquiring schedule information of each of a plurality of managed persons;
Based on the schedule information acquired by the schedule information acquisition means, a specifying means for specifying each respondable status of the managed person in a predetermined time zone,
Means for accepting designation of a date and time in the predetermined time zone;
A selection unit that selects a predetermined number of managers in descending order of the possibility of response at the date and time when the designation is received, based on the response availability situation specified by the identification unit;
A management system comprising: output means for outputting information on the person selected by the selection means to the outside. In a computer program for causing a computer to manage a schedule of a manager,
On the computer,
Identifying the response status of the managed person in a predetermined time zone based on the scheduled information of the managed person;
A computer program for executing the step of outputting the specified response availability status to the outside. In the management method by the management system that manages the schedule of the managed person,
The management system acquiring schedule information of a managed person; and
The management system specifies a response possible situation of the managed person in a predetermined time zone based on the acquired schedule information;
The management system includes a step of outputting the specified response availability status to the outside.

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