WO2017195696A1 - Dispositif et procédé de traitement central pour système de surveillance de personne à surveiller, et système de surveillance de personne à surveiller - Google Patents

Dispositif et procédé de traitement central pour système de surveillance de personne à surveiller, et système de surveillance de personne à surveiller Download PDF

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Publication number
WO2017195696A1
WO2017195696A1 PCT/JP2017/017183 JP2017017183W WO2017195696A1 WO 2017195696 A1 WO2017195696 A1 WO 2017195696A1 JP 2017017183 W JP2017017183 W JP 2017017183W WO 2017195696 A1 WO2017195696 A1 WO 2017195696A1
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Prior art keywords
care
processing unit
care plan
monitored person
monitoring
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PCT/JP2017/017183
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English (en)
Japanese (ja)
Inventor
雅史 西角
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コニカミノルタ株式会社
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Priority to JP2018516980A priority Critical patent/JP6583548B2/ja
Publication of WO2017195696A1 publication Critical patent/WO2017195696A1/fr

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    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H20/00ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61GTRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
    • A61G12/00Accommodation for nursing, e.g. in hospitals, not covered by groups A61G1/00 - A61G11/00, e.g. trolleys for transport of medicaments or food; Prescription lists
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B21/00Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
    • G08B21/02Alarms for ensuring the safety of persons
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/01Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
    • G08B25/04Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using a single signalling line, e.g. in a closed loop
    • GPHYSICS
    • G16INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
    • G16HHEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
    • G16H40/00ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
    • G16H40/60ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
    • G16H40/67ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for remote operation

Definitions

  • the present invention relates to a central processing unit and a central processing method of a monitored person monitoring system for monitoring a monitored person to be monitored using a plurality of devices, and the monitored person monitoring system.
  • Japan is an aging society, more specifically the ratio of population over 65 years old to the total population due to the improvement of living standards accompanying the post-war high economic growth, improvement of sanitary environment and improvement of medical standards, etc. It is a super-aging society with an aging rate exceeding 21%.
  • the total population was about 126.5 million, while the elderly population over the age of 65 was about 25.56 million.
  • the total population was about 124.11 million.
  • the elderly population will be about 34.56 million.
  • nurses who need nursing or nursing care due to illness, injury, or elderly age, or those who need care (care recipients) are more likely than those who need care in a normal society that is not an aging society. Is expected to increase.
  • Japan for example, is a society with a declining birthrate with a total fertility rate of 1.43 in 2013. For this reason, elderly care has been taking place where elderly families (spouse, children, siblings) care for elderly care recipients.
  • a facility such as a hospital or a welfare facility for the elderly (such as a short-term entrance facility for the elderly, a nursing home for the elderly, a nursing home for the elderly, and a nursing home for the elderly) and receive nursing and care.
  • the care recipient may be injured or fallen out of the bed due to falling from the bed or falling while walking. It is necessary to respond to such a situation as quickly as possible. Moreover, if such a situation is left unattended, it may develop into a more serious situation. For this reason, in the facility, nurses and caregivers (caregivers and the like) regularly check their safety and state by patrol.
  • the increase in the number of caregivers cannot keep up with the increase in the number of care recipients, and the nursing and nursing care industries are chronically short of manpower. Furthermore, since the number of caregivers is reduced in the semi-night shift and night shift hours compared to the day shift hours, the work load per person increases, and thus the work load must be reduced. Moreover, the situation of the elderly care is not an exception in the said facility, and it is often seen that elderly caregivers care for elderly care recipients. In general, physical strength declines when older, so the burden of care becomes heavier than younger caregivers, even when healthy, and the movement and judgment are slow.
  • the nurse call system disclosed in Patent Document 1 is a nurse call slave unit that is installed in a bed and a patient calls a nurse, and a nurse call slave unit that is installed in a nurse station and responds to a call by the nurse call slave unit.
  • a nurse call system having a nurse call parent device, a camera for imaging a patient on a bed from above the bed, and a state in which the patient wakes up from a captured image of the camera and a state in which the patient is separated from the bed State judging means for judging the occurrence of at least one of them and outputting a caution state occurrence signal, and the nurse call master unit has a notifying means for performing a notification operation upon receiving the caution state occurrence signal.
  • the nurse call system transmits a captured image of the camera to the portable terminal upon receiving the attention state generation signal and a portable terminal carried by a nurse to respond to a call from the nurse call slave. Communication control means.
  • the caregiver's monitor can visually grasp the situation of the person to be monitored who needs care. Because it is convenient. However, the monitor cannot always understand (recognize) an appropriate type of care for the situation of the monitored person visually grasped, and it may be difficult to determine what kind of care should be performed.
  • the present invention is an invention made in view of the above circumstances, and its purpose is to provide a central processing unit and a central processing method of a monitored person monitoring system that can assist in determining what care should be performed, and It is to provide a monitored person monitoring system.
  • a central processing unit and a central processing method of a monitored person monitoring system store a care plan associated with the monitored person and the progress of the care plan, and a sensor
  • the received image and the detection result are transmitted to a transmission destination terminal device associated with the sensor device.
  • the care plan corresponding to the sensor device and the progress of the care plan are further transmitted to the terminal device.
  • the monitored person monitoring system in the embodiment is a system that uses a plurality of devices to monitor a monitored person (watched person) Ob that is a monitored object (watched object) to be monitored (watched).
  • This monitored person monitoring system is provided corresponding to the monitored person Ob, generates an image, and detects a predetermined event (event) (for example, a predetermined event that needs to be dealt with) related to the monitored person Ob.
  • a sensor device a central processing unit that is communicably connected to the sensor device and manages an image and a detection result received from the sensor device, and a communication unit that is communicably connected to the central processing unit and the image via the central processing unit And a terminal device for receiving and displaying the detection result.
  • the central processing unit receives a care plan associated with the monitored person and a care plan information storage unit that stores the progress of the care plan, the sensor device, and the sensor device.
  • a destination information storage unit that stores a correspondence relationship with a terminal device that is a transmission destination that transmits an image and a detection result, and an image and a detection result that are stored in the transmission destination information storage unit when received from the sensor device.
  • a monitoring processing unit that transmits the received image and the detection result to a predetermined terminal device corresponding to the sensor device based on the correspondence relationship.
  • the monitoring processing unit when receiving an image and a detection result from the sensor device, stores a care plan corresponding to the sensor device and a care plan stored in the care plan information storage unit.
  • the progress status is further transmitted to the terminal device.
  • the terminal device may be one type of device, in the present embodiment, the terminal device is two types of devices, a fixed terminal device and a mobile terminal device.
  • the main difference between these fixed terminal devices and portable terminal devices is that the fixed terminal device is fixedly operated, while the portable terminal device is operated by being carried by a supervisor (user) such as a nurse or a caregiver. Since the fixed terminal device and the mobile terminal device are substantially the same, in the following embodiments, the mobile terminal device will be mainly described.
  • FIG. 1 is a diagram illustrating a configuration of a monitored person monitoring system according to the embodiment.
  • FIG. 2 is a diagram showing a configuration of a sensor device in the monitored person monitoring system.
  • FIG. 3 is a diagram showing the configuration of the management server device in the monitored person monitoring system.
  • FIG. 4 is a diagram showing a configuration of a server-side monitoring information table stored in the management server device.
  • FIG. 5 is a diagram showing a configuration of an inter-device information table stored in the management server device.
  • FIG. 5A shows a configuration of a notification destination correspondence information table in the inter-device information table
  • FIG. 5B shows a configuration of a communication address correspondence information table in the inter-device information table.
  • FIG. 5A shows a configuration of a notification destination correspondence information table in the inter-device information table
  • FIG. 5B shows a configuration of a communication address correspondence information table in the inter-device information table.
  • FIG. 6 is a diagram showing a configuration of a server-side sensor information table stored in the management server device.
  • FIG. 7 is a diagram showing a configuration of a terminal information table stored in the management server device.
  • FIG. 7A shows the configuration of the login supervisor information table in the terminal information table
  • FIG. 7B shows the configuration of the supervisor duty information table in the terminal information table.
  • FIG. 8 is a diagram showing a configuration of a care plan information table stored in the management server device.
  • FIG. 9 is a diagram illustrating a configuration of a mobile terminal device in the monitored person monitoring system.
  • the monitored person monitoring system MS in the embodiment includes, for example, as shown in FIG. 1, one or a plurality of sensor devices SU (SU-1 to SU-4), a management server device SV, A fixed terminal device SP, one or a plurality of portable terminal devices TA (TA-1, TA-2), and a private branch exchange (PBX) CX, which are wired or wireless, LAN (Local) It is connected to be communicable via a network (network, communication line) NW such as Area Network.
  • NW network, communication line
  • the network NW may be provided with repeaters such as repeaters, bridges, and routers that relay communication signals.
  • FIG. 1 one or a plurality of sensor devices SU (SU-1 to SU-4), a management server device SV, A fixed terminal device SP, one or a plurality of portable terminal devices TA (TA-1, TA-2), and a private branch exchange (PBX) CX, which are wired or wireless, LAN (Local) It is connected to be communicable via
  • the plurality of sensor devices SU-1 to SU-4, the management server device SV, the fixed terminal device SP, the plurality of portable terminal devices TA-1, TA-2, and the private branch exchange CX include an L2 switch.
  • a wired / wireless LAN for example, a LAN in accordance with the IEEE 802.11 standard
  • NW including the LS and the access point AP.
  • the plurality of sensor devices SU-1 to SU-4, the management server device SV, the fixed terminal device SP, and the private branch exchange CX are connected to the line concentrator LS, and the plurality of portable terminal devices TA-1, TA-2. Is connected to the line concentrator LS via the access point AP.
  • the network NW constitutes a so-called intranet by using Internet protocol groups such as TCP (Transmission control protocol) and IP (Internet protocol).
  • the monitored person monitoring system MS is arranged at an appropriate place according to the monitored person Ob.
  • the monitored person (person to be watched) Ob is, for example, a person who needs nursing due to illness or injury, a person who needs care due to a decrease in physical ability, a single person living alone, or the like.
  • the monitored person Ob may be a person who needs the detection when a predetermined inconvenient event such as an abnormal state occurs in the person. preferable.
  • the monitored person monitoring system MS is suitably arranged in a building such as a hospital, a welfare facility for the elderly, and a dwelling unit according to the type of the monitored person Ob.
  • the monitored person monitoring system MS is disposed in a building of a care facility that includes a plurality of living rooms RM in which a plurality of monitored persons Ob live and a plurality of living rooms such as a nurse station.
  • the sensor device SU includes a communication function that communicates with other devices SV, SP, TA via the network NW, and is a device that notifies the management server device SV of a predetermined event related to the monitored person Ob. is there.
  • the predetermined event is preferably a predetermined event that needs to be dealt with.
  • the predetermined event is a predetermined action and a nurse call set in advance in the monitored person Ob.
  • the sensor device SU detects a predetermined action in the monitored person Ob, notifies (transmits) the detection result to the management server device SV as an example of the predetermined event, and accepts a nurse call.
  • the nurse call is notified (transmitted) to the management server device SV as another example of the predetermined event, a voice call is performed with the terminal devices SP and TA, and an image including a moving image is generated to generate a terminal.
  • It is a device that distributes moving images to the devices SP and TA.
  • a sensor device SU includes an imaging unit 11, a sensor side sound input / output unit (SU sound input / output unit) 12, a nurse call reception operation unit 13, and a sensor side control process.
  • Unit (SU control processing unit) 14 sensor side communication interface unit (SU communication IF unit) 15, and sensor side storage unit (SU storage unit) 16.
  • the imaging unit 11 is an apparatus that is connected to the SU control processing unit 14 and generates an image (image data) under the control of the SU control processing unit 14.
  • the image includes a still image (still image data) and a moving image (moving image data).
  • the imaging unit 11 is arranged so as to be able to monitor a space (location space, in the example shown in FIG. 1, a room (room) RM) where the monitored person Ob to be monitored is planned to be located. Then, the location space is imaged from above, an image (image data) overlooking the imaging target is generated, and the image (target image) of the imaging target is output to the SU control processing unit 14.
  • the imaging unit 11 is positioned when the head of the monitored person Ob is located in the bedding (for example, a bed) on which the monitored person Ob is lying. It arrange
  • the sensor device SU uses the imaging unit 11 to acquire an image of the monitored person Ob taken from above the monitored person Ob, preferably an image taken from directly above the planned head position.
  • Such an imaging unit 11 may be a device that generates an image of visible light, but in the present embodiment, it is a device that generates an infrared image so that the monitored person Ob can be monitored even in a relatively dark place.
  • the imaging unit 11 has an imaging optical system that forms an infrared optical image of an imaging target on a predetermined imaging surface, and a light receiving surface that matches the imaging surface.
  • An area image sensor that is arranged and converts an infrared optical image in the imaging target into an electrical signal, and data representing an infrared image in the imaging target by performing image processing on the output of the area image sensor It is a digital infrared camera including an image processing unit that generates image data.
  • the imaging optical system of the imaging unit 11 is preferably a wide-angle optical system (so-called wide-angle lens (including a fisheye lens)) having an angle of view that can image the entire living room RM in which the imaging unit 11 is disposed. .
  • the SU sound input / output unit 12 is a circuit that inputs and outputs sound. That is, the SU sound input / output unit 12 is a circuit that is connected to the SU control processing unit 14 and generates and outputs a sound corresponding to an electrical signal representing sound according to the control of the SU control processing unit 14. It is a circuit for acquiring the sound of and inputting into the sensor apparatus SU.
  • the SU sound input / output unit 12 includes, for example, a speaker that converts a sound electrical signal (sound data) into a sound mechanical vibration signal (acoustic signal), and a microphone that converts a sound mechanical vibration signal in the audible region into an electrical signal. And so on.
  • the SU sound input / output unit 12 outputs an electric signal representing an external sound to the SU control processing unit 14, and converts the electric signal input from the SU control processing unit 14 into a sound mechanical vibration signal and outputs the sound. .
  • the nurse call reception operation unit 13 is connected to the SU control processing unit 14 and is a switch circuit such as a push button switch for inputting the nurse call to the sensor device SU.
  • the nurse call reception operation unit 13 may be connected to the SU control processing unit 14 by wire, or may be connected to the SU control processing unit 14 by short-range wireless communication such as Bluetooth (registered trademark) standard.
  • the SU communication IF unit 15 is a communication circuit that is connected to the SU control processing unit 14 and performs communication according to the control of the SU control processing unit 14.
  • the SU communication IF unit 15 generates a communication signal containing the data to be transferred input from the SU control processing unit 14 according to the communication protocol used in the network NW of the monitored person monitoring system MS, and the generated communication The signal is transmitted to other devices SV, SP, TA via the network NW.
  • the SU communication IF unit 15 receives communication signals from other devices SV, SP, and TA via the network NW, extracts data from the received communication signals, and the SU control processing unit 14 can process the extracted data.
  • the data is converted into data in a proper format and output to the SU control processing unit 14.
  • the SU communication IF unit 15 includes, for example, a communication interface circuit that complies with the IEEE 802.11 standard or the like.
  • the SU storage unit 16 is a circuit that is connected to the SU control processing unit 14 and stores various predetermined programs and various predetermined data under the control of the SU control processing unit 14.
  • Examples of the various predetermined programs include a SU control program that controls each unit of the sensor device SU according to the function of each unit, and a SU monitoring processing program that executes predetermined information processing related to monitoring of the monitored person Ob. And the like.
  • a predetermined action in the monitored person Ob is detected, and a detection result is notified to the predetermined terminal devices SP and TA via the management server device SV as an example of the predetermined event.
  • a nurse call processing program for making a voice call with the terminal devices SP and TA a SU streaming processing program for streaming the moving image generated by the imaging unit 11 to the terminal devices SP and TA that requested the moving image, and the like. included.
  • programs such as a sensor identifier (sensor ID) that is an identifier for identifying and identifying the sensor device SU of the own device and a communication address of the management server device SV are executed. Data necessary for the above is included.
  • the SU storage unit 16 includes, for example, a ROM (Read Only Memory) that is a nonvolatile storage element, an EEPROM (Electrically Erasable Programmable Read Only Memory) that is a rewritable nonvolatile storage element, and the like.
  • the SU storage unit 16 includes a RAM (Random Access Memory) that serves as a working memory of the so-called SU control processing unit 14 that stores data generated during the execution of the predetermined program.
  • the SU control processing unit 14 is a circuit for controlling each unit of the sensor device SU according to the function of each unit and notifying the management server device SV of a predetermined event related to the monitored person Ob. . More specifically, in the present embodiment, the SU control processing unit 14 detects a predetermined action in the monitored person Ob and notifies the management server device SV of the detection result as an example of the predetermined event (notification, The nurse call is received, the nurse call is notified (notified and transmitted) to the management server SV as another example of the predetermined event, a voice call is performed between the terminal devices SP and TA, and a video Is generated and a moving image is distributed to the terminal devices SP and TA.
  • the SU control processing unit 14 includes, for example, a CPU (Central Processing Unit) and its peripheral circuits.
  • the SU control processing unit 14 executes a sensor processing unit (SU control unit) 141, a behavior detection processing unit 142, a nurse call processing unit 143, and a sensor side streaming processing unit (SU streaming processing) by executing the control processing program.
  • Part) 144 is functionally provided.
  • the SU control unit 141 controls each part of the sensor device SU according to the function of each part, and governs overall control of the sensor device SU.
  • the behavior detection processing unit 142 detects a predetermined behavior set in advance in the monitored person Ob and notifies the management server device SV of a detection result as an example of the predetermined event. More specifically, in the present embodiment, the predetermined action includes, for example, wake-up when the monitored person Ob occurred, leaving the monitored person Ob away from the bedding, falling down when the monitored person Ob fell from the bedding, And four actions of the fall where the monitored person Ob fell.
  • the behavior detection processing unit 142 detects the head of the monitored person Ob based on the target image captured by the imaging unit 11, and based on the temporal change in the size of the detected head of the monitored person Ob. Detects the monitored person's getting up, getting out of bed, falling and falling.
  • the first threshold value Th1 is a value for identifying the size of the head in the lying posture and the size of the head in the sitting posture in the region where the bedding BD is located.
  • the second threshold Th2 is a value for identifying whether or not the head is in the standing posture in the living room RM excluding the region where the bedding BD is located.
  • the third threshold Th3 is a value for identifying whether or not the head is in the lying position in the living room RM excluding the area where the bedding BD is located.
  • the behavior detection processing unit 142 extracts a moving body region as a person region of the monitored person Ob from the target image by, for example, the background difference method or the frame difference method. Next, the behavior detection processing unit 142 uses, for example, a circular or elliptical Hough transform from the extracted moving object region, for example, by pattern matching using a head model prepared in advance, or for example, for head detection.
  • the head region of the monitored person Ob is extracted by the neural network learned in step (b). And the action detection process part 142 detects awakening, getting out of bed, falling, and falling from the position and magnitude
  • the behavior detection processing unit 142 determines that the position of the extracted head is within the region where the bedding BD is located, and the size of the extracted head uses the first threshold Th1 to determine the size of the lying posture.
  • the time changes from the sitting posture to the size of the sitting posture it is determined that the user gets up and the rising is detected.
  • the behavior detection processing unit 142 is a case where the position of the extracted head changes over time from the location of the bedding BD to the outside of the location of the bedding, and the size of the extracted head is the second size.
  • Th2 is changed from a certain size to the size of the standing posture by using the threshold Th2
  • the behavior detection processing unit 142 is a case where the position of the extracted head changes over time from the location where the bedding BD is located to the outside of the location where the bedding BD is located, and the size of the extracted head is the first size.
  • the behavior detection processing unit 142 uses the third threshold value Th3 when the extracted head position is in the room RM excluding the location area of the bedding BD and the extracted head size is the third threshold Th3.
  • the time changes from the size to the size of the recumbent posture it is determined that the vehicle has fallen, and the fall is detected.
  • the behavior detection processing unit 142 When the predetermined behavior is detected in this way, the behavior detection processing unit 142 notifies the event containing event information (event information) representing the content of the predetermined event (phenomenon) related to the monitored person Ob.
  • the first event notification communication signal is notified to the management server device SV by the SU communication IF unit 15. More specifically, the behavior detection processing unit 142 is a communication signal (first event notification communication signal) containing a sensor ID of the own device, event information indicating the content of the event, and a target image used for detection of the predetermined behavior. ) Is transmitted to the management server device SV via the SU communication IF unit 15.
  • the event information is one or more of getting up, getting out of bed, falling, falling, and nurse call (NC).
  • the behavior detection processing unit 142 detects the rising, leaving, falling, and One or more of the falls are accommodated in the first event notification communication signal as the event information.
  • the image may be at least one of a still image and a moving image.
  • a still image is notified, and the moving image is distributed in response to a user request.
  • a moving image may be distributed, a still image and a moving image may be transmitted, and the still image and the moving image may be displayed on the terminal devices SP and TA by screen division.
  • the nurse call processing unit 143 notifies the management server device SV of a first event notification communication signal accommodated as another example of the predetermined event when the nurse call reception operation unit 13 receives a nurse call.
  • a voice call is performed with the terminal devices SP and TA by using the SU sound input / output unit 12 or the like. More specifically, when the nurse call reception operation unit 13 is input and operated, the nurse call processing unit 143 transmits the first event notification communication signal containing the nurse call as the sensor ID of the own device and the event information as the SU communication.
  • the data is transmitted to the management server device SV via the IF unit 15.
  • the nurse call processing unit 143 uses the SU sound input / output unit 12 and the like to perform a voice call with the terminal devices SP and TA, for example, using VoIP (Voice over Internet Protocol).
  • VoIP Voice over Internet Protocol
  • the SU streaming processing unit 144 sends the request to the fixed terminal device SP or the mobile terminal device TA that has made the request.
  • the moving image generated by the imaging unit 11 (for example, a live moving image) is distributed via the SU communication IF unit 15 by streaming reproduction.
  • FIG. 1 shows, as an example, first to fourth sensor devices SU-1 to SU-4, and the first sensor device SU-1 is one of the monitored persons Ob, Mr. Ob-1
  • the second sensor device SU-2 is disposed in the living room RM-2 (not shown) of Mr. B Ob-2 who is one of the monitored persons Ob.
  • the third sensor device SU-3 is disposed in the room RM-3 (not shown) of Mr. C Ob-3, one of the monitored subjects Ob, and the fourth sensor device SU-4 is the monitored subject. It is arranged in the room RM-4 (not shown) of Mr. D Ob-4, one of Ob.
  • the management server device SV has a communication function for communicating with other devices SU, TA, SP via the network NW.
  • the management server device SV has information on monitoring of the monitored person Ob ( Monitoring information (in this embodiment, for example, the predetermined event (the type of the predetermined action detected by the sensor device SU or the nurse call received by the sensor device SU), the image (still image and moving image) of the monitored person Ob, and The time when the notification is received, etc.), the predetermined event is notified (re-notification, re-notification, transmission) to the predetermined terminal device SP, TA, and the client (the terminal device SP, TA, etc.
  • Monitoring information in this embodiment, for example, the predetermined event (the type of the predetermined action detected by the sensor device SU or the nurse call received by the sensor device SU), the image (still image and moving image) of the monitored person Ob, and The time when the notification is received, etc.)
  • the predetermined event is notified (re-notification, re-notification, transmission) to the
  • the management server device SV manages the care plan of the monitored person Ob and the progress of the care plan, and the image and the detection result (the detected) are detected by the first event notification communication signal from the sensor device SU.
  • the care plan corresponding to the sensor device and its progress are further transmitted to the predetermined terminal devices SP and TA.
  • the management server device SV includes a server-side communication interface unit (SV communication IF unit) 21, a server-side control processing unit (SV control processing unit) 22, and a server-side storage unit. (SV storage unit) 23.
  • the SV communication IF unit 21 is a communication circuit that is connected to the SV control processing unit 22 and performs communication according to the control of the SV control processing unit 22.
  • the SV communication IF unit 21 includes, for example, a communication interface circuit that complies with the IEEE 802.11 standard or the like.
  • the SV storage unit 23 is a circuit that is connected to the SV control processing unit 22 and stores various predetermined programs and various predetermined data under the control of the SV control processing unit 22.
  • the various predetermined programs include an SV control program for controlling each part of the management server device SV according to the function of each part, and an SV monitoring process for executing predetermined information processing related to monitoring of the monitored person Ob.
  • a control processing program such as a clock program for measuring time.
  • the various predetermined data include a server identifier (server ID) for identifying the management server device SV and identifying the management server device SV, the monitoring information of the monitored person Ob, and the predetermined data.
  • Inter-device information representing information between devices SU, SP, TA such as event notification destinations, sensor information regarding sensor device SU, terminal information regarding terminal devices SP, TA, care plan information regarding care plan and its progress
  • programs such as format information relating to a recording format of a predetermined format prepared in advance and care record information which is a record of the details of the care performed for inputting the details of the performed care as a care record. Data necessary for the above is included.
  • the SV storage unit 23 is a server-side monitoring information storage unit (SV monitoring information storage unit) 231.
  • Inter-device information storage unit 232, server side sensor information storage unit (SV sensor information storage unit) 233, terminal information storage unit 234, care plan information storage unit 235, format information storage unit 236 and care record information storage unit 237 Be prepared.
  • the SV monitoring information storage unit 231 stores monitoring information of the monitored person Ob transmitted / received to / from each device SU, SP, TA. More specifically, in the SV monitoring information storage unit 231, in this embodiment, as the monitoring information, information stored in communication signals such as a first event notification communication signal and a later-described correspondence reception notification communication signal is stored. Based on the sensor ID, event information (event information, in this embodiment, getting up, getting off, falling, falling, and nurse call), reception time, target image (still image and moving image), and presence / absence of correspondence (presence of corresponding reception) Are stored in association with each other.
  • event information event information, in this embodiment, getting up, getting off, falling, falling, and nurse call
  • reception time target image (still image and moving image)
  • presence / absence of correspondence Presence of corresponding reception
  • this monitoring information is stored in the SV monitoring information storage unit 321 in a table format.
  • the server-side monitoring information table (SV monitoring information table) MT-SV for registering this monitoring information includes, for example, sensor IDs contained in communication signals received from the devices SU, SP, and TA as shown in FIG.
  • a corresponding field 2316 for registering the presence or absence of the corresponding reception to the event information comprises a record for each communication signal thus received (for each event).
  • still image data may be registered, and for example, a file name of still image data may be registered.
  • the terminal devices SP and TA accept that the event information contained in the received communication signal is willing to respond (corresponding, treating, or taking measures) (“corresponding”).
  • a flag (corresponding flag) indicating whether or not has been registered.
  • the correspondence field 2316 indicates that there is an intention (“corresponding”) to deal with event information (event information registered in the event field 2312) contained in the received communication signal.
  • the terminal device SP or TA indicates that the corresponding flag “1” means that it has been received by the devices SP and TA, or the intention to deal with the event information contained in the received communication signal (“corresponding”).
  • Corresponding flag “0” meaning that it is not accepted is registered. Note that by default, the correspondence field 2316 registers a correspondence flag “0” meaning “not accepted”.
  • the first event notification communication signal contains the detection time when the predetermined action is detected or the nurse call reception time when the nurse call is received, the detection time or the nurse is used instead of the reception time. The call reception time may be registered.
  • the inter-device information storage unit 232 stores a notification destination correspondence relationship, a communication address correspondence relationship, and the like as the inter-device information.
  • the notification destination correspondence relationship includes a sensor ID and a notification destination (re-transmission destination) indicating a notification destination (re-notification destination, re-notification destination, transmission destination) such as a first event notification communication signal transmitted from the sensor device SU. This is the correspondence relationship with the terminal ID that is the notification destination.
  • the communication address correspondence relationship is a correspondence relationship between IDs (sensor IDs and terminal IDs) of the devices SU, SP, and TA and their communication addresses.
  • the terminal ID is an identifier for identifying the terminal devices SP and TA and identifying the terminal devices SP and TA.
  • the notification destination correspondence information table AT for registering the notification destination correspondence relationship is registered in a transmission source field 2321 for registering the sensor ID of the transmission source sensor device SU and a transmission source field 2321 as shown in FIG. 5A, for example.
  • a destination terminal device SP for transmitting a communication signal notified from the sensor device SU corresponding to the sensor ID, and a notification destination field 2322 for registering the terminal ID of the TA, for each sensor ID (sensor device SU). Provide a record.
  • the communication address correspondence relationship table DT for registering the communication address correspondence relationship is registered in the terminal ID field 2323 for registering the terminal IDs of the terminal devices SP and TA and the terminal ID field 2323, for example, as shown in FIG. 5B. And a communication address field 2324 for registering the communication address of the terminal device SP and TA corresponding to the terminal ID, and a record for each terminal ID (terminal device SP and TA).
  • each of the sensor ID, the server ID, and the terminal ID may be, for example, a serial number made up of a predetermined symbol string, or may be a communication address (in this case, the communication address correspondence relationship can be omitted).
  • the SV sensor information storage unit 233 stores the sensor information.
  • the sensor information is information related to the sensor device SU, and is information in which the sensor ID of the sensor device SU and the monitored person name of the monitored person Ob are associated with each other.
  • the sensor information table ST-SV for registering sensor information includes, for example, a sensor ID field 2331 for registering a sensor ID and sensors registered in the sensor ID field 2331 as shown in FIG.
  • the monitored person name field 2333 for registering the monitored person name of the monitored person Ob) at the location of the sensor device SU having the sensor ID registered in the ID field 2331 and the sensor ID field 2331 are registered.
  • a remarks field 2334 for registering the remarks relating b, with a record for each sensor ID (i.e., sensor devices SU).
  • the terminal information storage unit 234 as the terminal information, in this embodiment, a login supervisor who indicates a supervisor (user) who logs in to the terminal devices SP and TA (a supervisor who handles the terminal devices SP and TA). Information and supervisor work information indicating the supervisor's work status (work shift, working hours) are stored.
  • the login supervisor information and supervisor duty information are each stored in the terminal information storage unit 234 in a table format in this embodiment.
  • the login supervisor information table RT for registering the login supervisor information is registered in the terminal ID field 2341 for registering the terminal IDs of the terminal devices SP and TA and the terminal ID field 2341 as shown in FIG. 7A, for example.
  • the supervisor work information table JT for registering the supervisor work information is, for example, as shown in FIG.
  • a supervisor name field for registering a supervisor name (user name) of a supervisor (user).
  • 2343 and a work shift field 2344 for registering the work status (work shift) of the monitor with the monitor name registered in the monitor name field 2343, and each monitor (monitor name) has a record.
  • the work status (work shift) includes A day shift in which work hours are from 8:00 to 16:00, B day shift in which work hours are from 12:00 to 20:00, and work hours from 20:00 to 8 hours. Although it is a night shift until the time, it is not limited to this and may be arbitrary.
  • the work status includes a day shift in which the working hours are from 8:00 to 17:00, a semi-night shift in which the working hours are from 16:00 to the next 1:00, and a working time of 0:00 (24:00) It may be a night shift from 9:00 to 9:00.
  • the care plan information storage unit 235 stores the care plan information.
  • the care plan information is information related to the care plan and the progress of the care plan, is prepared for each monitored person Ob, and is stored in the care plan information storage unit 235 in association with each monitored person Ob. Yes.
  • the care plan includes a scheduled execution time of care and the name of the type of care, and the scheduled execution time of care and the name of the type of care are associated with each other.
  • the scheduled execution time of the care is a time when the care is scheduled to be performed.
  • the name of the type of care varies depending on care practices such as nursing practice and care practice, and is arbitrary.
  • the progress of the care plan is information indicating how far the care plan is currently implemented among the care plans formed by arranging a plurality of sets of the scheduled time and type of care in chronological order. In the embodiment, it includes implementation status information indicating whether it has been implemented or not implemented, and the implementation status information is further associated with the scheduled execution time of care and the type of care associated with each other. It is done.
  • this care plan information is stored in the care plan information storage unit 325 in a table format.
  • the care plan information table PT for registering care plan information includes, for example, as shown in FIG. 8, an execution schedule field 2351 for registering the scheduled execution time of care, and an execution schedule that is the day of the week on which the care is scheduled to be performed.
  • the person in charge field 2354 for registering Whether this care has been performed or not performed for the scheduled execution time, scheduled execution day and type name care registered in the scheduled execution time field 2351, scheduled execution day field 2352 and care type field 2353, respectively.
  • an implementation field 2355 for registering the implementation status information representing the status, and has a record for each combination of scheduled execution time, scheduled execution day, and type name (for each of a plurality of cares planned in the care plan).
  • days, days, months, Tuesdays, Wednesdays, Thursdays, Fridays, Saturdays, today, daily, and the like representing the days of the week are registered. Instead of today, today's day of the week may be registered. Instead of every day, all of Sunday through Saturday, or Sunday, Monday, Tuesday, Wednesday, Thursday, Friday and Saturday may be registered.
  • the scheduled person in charge field 2354 the name of the scheduled person in charge may be registered, but in this embodiment, the work status (work shift, in this embodiment, A day shift, B day shift, and night shift) is registered.
  • an implementation flag is registered as the implementation status information.
  • the implementation flag includes an implementation flag “1” indicating that the care has been performed and an execution flag “0” indicating that the care has not been performed. With. Note that, by default, an execution flag “0” indicating that the execution has not been performed is registered in the execution field 2355.
  • Such a care plan information table PT (PT-SU1, PT-SU2, PT-SU3,...) Is prepared for each monitored person Ob, and each monitored person name of each monitored person Ob. It is associated with each.
  • FIG. 8 shows, as an example, a care plan information table PR-SU1 associated with “K field M male” which is the monitored person name of the monitored person Ob monitored by the first sensor device SU-1. Has been.
  • the care plan information table PT is replaced with the monitored person name of the monitored person Ob, or in addition to the monitored person name, the care plan information table PT of the sensor device SU that monitors the monitored person Ob of the monitored person name. It may be associated with the sensor ID.
  • the format information storage unit 236 stores the format information.
  • the format information is information relating to a recording format for inputting the details of the care performed as a care record, and the recording format is a predetermined format (format, input form) defined in advance, and the type of care. A plurality of them are prepared in advance.
  • the record format includes, for example, a record format for morning care, a record format for meal care, a record format for snack food care, a record format for medication care, a record format for toothpaste care, and a record for hydration care There are formats and the like, and an example is shown in FIG. FIG. 22 shows an example of a recording format for meal care on a screen displayed on the portable terminal device TA.
  • the recording format is an electronic file described in a markup language such as HTLM (Hyper Text Markup Language) or XML (Extensible Markup Language), and is stored in the format information storage unit 236 in association with a care type name.
  • HTLM Hyper Text Markup Language
  • the care record information storage unit 237 stores the care record information, which is a record of the details of the care performed.
  • the monitored person name of the monitored person Ob who is the subject of care and the content of the care record are associated with each other and stored in the care record information storage unit 237 as the care record information.
  • the SV control processing unit 22 controls each unit of the management server device SV according to the function of each unit, and receives monitoring notification about the monitored person Ob when receiving the notification of the predetermined event from the sensor device SU. Then, the predetermined event is notified (re-notification, re-notification, transmission) to the predetermined terminal device SP and TA, data corresponding to the client's request is provided to the client, and the entire monitored person monitoring system MS is managed. It is a circuit for doing. In the present embodiment, the SV control processing unit 22 manages the care plan of the monitored person Ob and the progress of the care plan, and the image and the detection result (the detected predetermined predetermined value) from the sensor device SU by the first event notification communication signal.
  • the care plan corresponding to the sensor device SU and its progress are further transmitted to the predetermined terminal devices SP and TA.
  • the SV control processing unit 22 includes, for example, a CPU and its peripheral circuits.
  • the SV control processing unit 22 executes a server control unit (SV control unit) 221, a server side monitoring processing unit (SV monitoring processing unit) 222, a care plan processing unit 223, and a server side by executing the control processing program.
  • a care recording processing unit (SV care recording processing unit) 224 and a clock unit 225 are functionally provided.
  • the SV control unit 221 controls each unit of the management server device SV according to the function of each unit, and controls the entire management server device SV.
  • the SV monitoring processing unit 222 When the SV monitoring processing unit 222 receives the notification of the predetermined event from the sensor device SU, the SV monitoring processing unit 222 manages monitoring information regarding monitoring of the monitored person Ob, and notifies the predetermined terminal device SP, TA of the predetermined event. is there. In the present embodiment, the SV monitoring processing unit 222 manages the progress of the care plan, and notifies the predetermined event to the predetermined terminal device SP, TA, and the care plan corresponding to the sensor device SU and its The progress status is further notified to the predetermined terminal devices SP and TA.
  • the SV monitoring processing unit 222 when the SV monitoring processing unit 222 receives the first event notification communication signal from the sensor device SU, the SV monitoring processing unit 222 performs monitoring related to monitoring of the monitored person Ob contained in the received first event notification communication signal. Information is stored (recorded) in the SV monitoring information storage unit 231.
  • the SV monitoring processing unit 222 stores the notification destination (re-notification destination, transfer destination, transmission destination) corresponding to the sensor device SU that has transmitted the received first event notification communication signal in the inter-device information storage unit 232.
  • the care plan corresponding to the sensor device SU selected (searched) from the notification destination correspondence and transmitting the received first event notification communication signal and its progress are stored in the care plan information storage unit 235.
  • the selection (search process) of the notification destination terminal devices SP and TA is performed based on the sensor ID corresponding to the sensor device SU that has transmitted the received first event notification communication signal.
  • the care plan and its progress selection (search process) are first stored in the SV sensor information storage unit 233 based on the sensor ID corresponding to the sensor device SU that has transmitted the received first event notification communication signal.
  • the monitored person name is selected (searched) from the selected sensor information, and the monitoring is performed based on the selected monitored person name.
  • the second event notification communication signal includes The communication address corresponding to the sensor device SU having the sensor ID accommodated in the first event notification communication signal is accommodated as the download destination of the sensor ID, the event information and the target image, and the moving image accommodated in the one event notification communication signal. Is done. This communication address is selected (searched) from the communication address correspondence relationship based on the sensor ID corresponding to the sensor device SU that has transmitted the received first event notification communication signal.
  • the second event notification communication signal includes the sensor ID and event information accommodated in the first event notification communication signal. Is done.
  • the selected care plan and its progress are further accommodated in the second event notification communication signal.
  • the care plan accommodated in the second event notification communication signal and the progress thereof are, in the present embodiment, the one scheduled execution time and the one implemented schedule in which the scheduled execution time is the latest past the current time.
  • the SV monitoring processing unit 222 determines that the current time is not yet performed when a predetermined time (for example, 5 minutes, 10 minutes, 20 minutes, etc.) has passed since the scheduled execution time.
  • a predetermined time for example, 5 minutes, 10 minutes, 20 minutes, etc.
  • a warning for unimplemented care is transmitted to the terminal devices SP and TA of the transmission destination of the sensor device SV corresponding to the monitored person Ob corresponding to the care plan of the unimplemented care.
  • the SV monitoring processing unit 222 refers to the scheduled execution time, scheduled execution day, and implementation status information for each care plan information of each monitored person Ob stored in the care plan information storage unit 235. Therefore, it is determined whether or not there is an unimplemented care whose current time is more than the predetermined time from the scheduled execution time. If there is an unexecuted care that is being performed, a notification destination (re-notification destination, transfer destination, transmission destination) corresponding to the sensor device SU that is monitoring the monitored person Ob is displayed as the inter-device information storage unit 232.
  • a communication signal (unexecuted care warning communication signal) for selecting (retrieving) from the correspondence relationship of the notification destination stored in the information and issuing a warning for the unexecuted care to the terminal devices SP and TA of the selected notification destination
  • the incomplete care alert communication signal contains, for example, warning information indicating a warning for the incomplete care.
  • the unexecuted care warning communication signal further includes the sensor ID (or the name of the monitored person Ob) of the sensor device SU that is monitoring the monitored person Ob, and the scheduled execution time of the unexecuted care. Further, the name of the type of care that has not been performed may be accommodated. Further, the non-execution care warning communication signal may be transmitted only to the terminal devices SP and TA to which the planned person in charge of the non-execution care is logged out of the selected notification destination terminal devices SP and TA. good.
  • the care plan processing unit 223 executes predetermined information processing related to the care plan. More specifically, in the present embodiment, the care plan processing unit 223 stores each care plan information of each monitored person Ob received from the outside in the care plan information storage unit 235. And the care plan process part 223 will update the said implementation status information, if the implemented care is received from the outside, calculates
  • the care plan processing unit 223 stores each care plan information of each monitored person Ob received from the outside in the care plan information storage unit 235.
  • the care plan process part 223 will update the said implementation status information, if the implemented care is received from the outside, calculates
  • the scheduled execution time
  • the care plan information and the care that has been performed for each monitored person Ob are input to the terminal devices SP and TA, for example, and received and accepted from the terminal devices SP and TA via the network NW.
  • each care plan information of the monitored person Ob and the care that has been performed are input from the SV input unit 24 described later and accepted.
  • the care for automatically creating the next care execution schedule is set in advance and stored in the SV storage unit 23 together with the next care execution scheduled time interval as one of the various predetermined data.
  • excretion care and hydration care are stored in advance in the SV storage unit 23 as care for automatically creating the next care schedule, and the next care is associated with each of the excretion care and hydration care.
  • the scheduled execution time intervals are stored in the SV storage unit 23.
  • the care plan processing unit 223 corresponds to an example of a care plan change processing unit.
  • the SV communication IF unit 21 corresponds to an example of a care result receiving unit that receives performed care
  • the SV input unit 24 corresponds to another example of a care result receiving unit.
  • the SV care record processing unit 224 executes predetermined information processing related to care records. More specifically, in this embodiment, when a format request communication signal (described later) is received from the terminal devices SP and TA, a format reply communication signal corresponding to the received format request communication signal is returned to the terminal devices SP and TA. To do.
  • the SV care record processing unit 224 receives the care record information input to the terminal devices SP and TA using the recording format from the terminal devices SP and TA, and receives the received care record information in the care record information storage unit 237.
  • the clock unit 225 measures time.
  • the clock unit 225 further includes a calendar function for measuring the day of the week.
  • the calendar function may further measure the date.
  • the management server device SV is connected to the SV control processing unit 22 as necessary, as shown by a broken line in FIG. 3, for example, a server side input unit (SV input unit) for inputting various commands, various data, and the like.
  • Server side output unit (SV output unit) 25 that outputs various commands and various data input by the SV input unit 24 and monitoring information related to monitoring of the monitored person Ob, and data between external devices
  • a server-side interface unit (SVIF unit) 26 or the like for performing input / output may be provided.
  • Such a management server device SV can be configured by a computer with a communication function, for example.
  • This management server device SV corresponds to an example of a central processing unit.
  • the fixed terminal device SP includes a communication function for communicating with other devices SU, SV, TA via the network NW, a display function for displaying predetermined information, an input function for inputting predetermined instructions and data, and the like.
  • the user interface (UI) of the monitored person monitoring system MS is input by inputting predetermined instructions and data to be given to the management server device SV and the portable terminal device TA, or displaying the monitoring information obtained by the sensor device SU. ).
  • Such a fixed terminal device SP can be configured by, for example, a computer with a communication function.
  • the fixed terminal device SP as an example of the terminal device operates in the same manner as the mobile terminal device TA. However, in this specification, a mobile terminal device TA that is another example of the terminal device will be described.
  • the mobile terminal device TA has a communication function for communicating with other devices SV, SP, SU via the network NW, a display function for displaying predetermined information, an input function for inputting predetermined instructions and data, and a voice call. Including a call function to perform, inputting a predetermined instruction or data to be given to the management server device SV or the sensor device SU, displaying the monitoring information obtained by the sensor device SU by a notification from the management server device SV, This is a device for making a nurse call response or calling a voice call with the sensor device SU.
  • the mobile terminal device TA includes not only images and detection results obtained by the sensor device SU, but also a care plan for the monitored person Ob corresponding to the sensor device SU obtained from the management server device SV. The progress status is also displayed. At this time, the portable terminal device TA displays the progress of the care plan in different display modes depending on whether the care plan has been executed or not. And the portable terminal device TA will perform the warning of an unexecuted care with a warning sound, a warning message, etc., for example, if an unexecuted care alert communication signal is received from the management server device SV. In the present embodiment, for example, as shown in FIG.
  • such a portable terminal device TA includes a terminal-side communication interface unit (TA communication IF unit) 31, a terminal-side control processing unit (TA control processing unit) 32, and A terminal side storage unit (TA storage unit) 33, a terminal side sound input / output unit (TA sound input / output unit) 34, a terminal side input unit (TA input unit) 35, and a terminal side display unit (TA display unit). 36 and a terminal-side interface unit (TAIF unit) 37.
  • the TA sound input / output unit 34 is connected to the TA control processing unit 32, and is a circuit for acquiring external sound and inputting it to the portable terminal device TA. It is a circuit for generating and outputting a sound corresponding to an electrical signal representing a sound according to the control of the processing unit 32.
  • the TA input unit 35 is connected to the TA control processing unit 32 and is, for example, a circuit that accepts a predetermined operation and inputs it to the mobile terminal device TA, for example, a plurality of input switches assigned with a predetermined function.
  • the predetermined operation relates to, for example, an ID input operation for logging in, a voice call request operation and its end operation, a live video request operation and its end operation, and the notified event.
  • an input operation indicating that there is an intention (“corresponding”) to perform a response (response, response) such as lifesaving, nursing, care, and assistance to the monitored person Ob, and input of a care record using a predetermined recording format
  • a response response
  • Various operations necessary for monitoring such as operations are included.
  • the TA display unit 36 is connected to the TA control processing unit 32, and under the control of the TA control processing unit 32, the predetermined operation content input from the TA input unit 35 and the monitored target MS monitored by the monitored person monitoring system MS.
  • the monitoring information related to the monitoring of the observer Ob for example, the predetermined event (the type of the predetermined action detected by the sensor device SU or the nurse call received by the sensor device SU), the image (still image and moving image) of the monitored person Ob , And the time when the notification is received), a care plan and its progress, etc.
  • a display device such as an LCD (Liquid Crystal Display) and an organic EL display.
  • the TA input unit 35 and the TA display unit 36 constitute a touch panel.
  • the TA input unit 35 is a position input device that detects and inputs an operation position such as a resistance film method or a capacitance method.
  • a position input device is provided on the display surface of the TA display unit 36, and one or more input content candidates that can be input are displayed on the TA display unit 36.
  • a user such as a nurse or a caregiver ( When the monitor) touches the display position where the input content to be input is displayed, the position is detected by the position input device, and the display content displayed at the detected position is input to the portable terminal device TA as the operation input content of the user. Entered.
  • the TAIF unit 37 is a circuit that is connected to the TA control processing unit 32 and inputs / outputs data to / from an external device according to the control of the TA control processing unit 32.
  • the TAIF unit 37 uses the Bluetooth (registered trademark) standard.
  • An interface circuit, an interface circuit that performs infrared communication such as the IrDA standard, and an interface circuit that uses the USB standard are examples of the Bluetooth (registered trademark) standard.
  • the TA communication IF unit 31 is a communication circuit that is connected to the TA control processing unit 32 and performs communication according to the control of the TA control processing unit 32, similarly to the SU communication IF unit 15.
  • the TA communication IF unit 31 includes, for example, a communication interface circuit that conforms to the IEEE 802.11 standard or the like.
  • the TA storage unit 33 is a circuit that is connected to the TA control processing unit 32 and stores various predetermined programs and various predetermined data under the control of the TA control processing unit 32.
  • Examples of the various predetermined programs include a TA control program for controlling each part of the mobile terminal device TA according to the function of each part, and a TA monitoring process for executing predetermined information processing related to monitoring of the monitored person Ob.
  • the TA storage unit 33 includes, for example, a ROM and an EEPROM.
  • the TA storage unit 33 includes a RAM serving as a working memory for the so-called TA control processing unit 32 that stores data generated during execution of the predetermined program.
  • the TA storage unit 33 functions as a terminal side monitoring information storage unit (TA monitoring information storage unit) 331 and a terminal side sensor information storage unit (TA sensor information storage unit) 332. Be prepared.
  • the TA monitoring information storage unit 331 stores the monitoring information.
  • the TA monitoring information storage unit 331 includes, as the monitoring information, sensor ID and event information (event information, wake-up in this embodiment, received in the second event notification communication signal received from the management server device SV.
  • the communication address of the sensor device SU to which images and moving images are downloaded, the reception time of the second event notification communication signal, the presence or absence of countermeasures, and the like are stored in association with each other. More specifically, as shown in FIG. 4, the TA monitoring information storage unit 331 stores the monitoring information in a terminal side monitoring information table (TA monitoring information table) MT-TA similar to the SV monitoring information table MT-SV.
  • TA monitoring information table terminal side monitoring information table
  • the TA sensor information storage unit 332 stores the sensor information.
  • the TA sensor information storage unit 332 stores the sensor ID, the location, the monitored person name, and the remarks in association with each other. More specifically, as shown in FIG. 6, the TA sensor information storage unit 332 stores the sensor information in a terminal side sensor information table (TA sensor information table) ST-TA similar to the SV sensor information table ST-SV.
  • TA sensor information table terminal side sensor information table
  • the TA control processing unit 32 controls each part of the mobile terminal device TA according to the function of each part, displays the monitoring information of the monitored person Ob, the care plan and its progress, and displays the care that has not been performed. This is a circuit for receiving and outputting a warning and answering a nurse call or calling out.
  • the TA control processing unit 32 includes, for example, a CPU and its peripheral circuits.
  • the TA control processing unit 32 executes a terminal processing unit (TA control unit) 321, a terminal side monitoring processing unit (TA monitoring processing unit) 322, a call processing unit 323, and a terminal side streaming process by executing a control processing program.
  • Unit (TA streaming processing unit) 324 and terminal side care recording processing unit (TA care recording processing unit) 325 are functionally provided.
  • the TA control unit 321 controls each part of the mobile terminal apparatus TA according to the function of each part, and controls the entire mobile terminal apparatus TA.
  • the TA monitoring processing unit 322 executes predetermined information processing related to monitoring of the monitored person Ob. More specifically, when the TA monitoring processing unit 322 receives the second event notification communication signal transmitted by the management server device SV due to the first event notification communication signal transmitted by the sensor device SU. The monitoring information of the monitored person Ob is stored (recorded) in the TA monitoring information storage unit 331 based on each information (each data) accommodated in the received second event notification communication signal. The TA monitoring processing unit 322 displays a screen corresponding to each piece of information contained in the received second event notification communication signal on the TA display unit 36.
  • the TA monitoring processing unit 322 executes a predetermined process corresponding to the input operation.
  • the TA monitor processing unit 322 performs an unexecuted care alert using, for example, a warning sound or a warning message.
  • the call processing unit 323 performs a voice call with the sensor device SU by using the TA sound input / output unit 34 or the like. More specifically, for example, the call processing unit 323 transmits the first event notification communication signal that causes the transmission of the second event notification communication signal to the management server device SV using the TA sound input / output unit 34 or the like. For example, VoIP is performed with the transmission source sensor device SU.
  • the TA streaming processing unit 324 receives the distribution of the moving image from the sensor device SU, and displays the distributed moving image on the TA display unit 36 by streaming reproduction.
  • Such a portable terminal device TA can be configured by a portable communication terminal device such as a so-called tablet computer, a smartphone, or a mobile phone.
  • the TA care record processing unit 325 acquires a predetermined recording format from the management server device SV, records the contents of the performed care using the acquired recording format, and transmits it to the management server device.
  • FIG. 10 is a flowchart showing the operation of the sensor device in the monitored person monitoring system.
  • FIG. 11 is a flowchart showing the operation of the management server device in the monitored person monitoring system.
  • FIG. 12 is a flowchart showing monitoring information processing in the operation of the management server apparatus shown in FIG.
  • FIG. 13 is a flowchart showing a care record process in the operation of the management server apparatus shown in FIG.
  • FIG. 14 is a flowchart showing an execution flag reset process in the management server device of the monitored person monitoring system.
  • FIG. 15 is a flowchart showing the operation of the mobile terminal device in the monitored person monitoring system.
  • FIG. 16 is a diagram illustrating an example of a standby screen displayed on the mobile terminal device.
  • FIG. 17 is a diagram illustrating an example of a monitoring information screen displayed on the mobile terminal device.
  • FIG. 18 is a diagram illustrating an example of a nurse call reception screen displayed on the mobile terminal device.
  • FIG. 19 is a diagram illustrating an example of a submenu screen displayed on the mobile terminal device.
  • FIG. 20 is a diagram illustrating an example of a target person selection screen displayed on the mobile terminal device.
  • FIG. 21 is a diagram illustrating an example of a format selection screen displayed on the mobile terminal device.
  • FIG. 22 is a diagram illustrating an example of a record format screen for meal care displayed on the mobile terminal device.
  • each device SU, SV, SP, TA performs initialization of each necessary part and starts its operation when the power is turned on.
  • the SU control processing unit 14 is functionally configured with a SU control unit 141, a behavior detection processing unit 142, a nurse call processing unit 143, and a SU streaming processing unit 144.
  • the SV control processing unit 21 includes an SV control unit 211, an SV monitoring processing unit 222, a care plan processing unit 223, an SV care recording processing unit 224, and a clock unit 225. Functionally configured.
  • execution of the control processing program causes the TA control processing unit 32 to include a TA control unit 321, a TA monitoring processing unit 322, a call processing unit 323, a TA streaming processing unit 324, and a TA care recording process.
  • Unit 325 is functionally configured.
  • the sensor device SU operates as follows for each frame or every several frames, thereby detecting a predetermined operation in the monitored person Ob and determining whether or not a nurse call is accepted.
  • the sensor apparatus SU acquires an image (image data) for one frame from the imaging unit 11 as the target image by the SU control unit 141 of the SU control processing unit 14 (S11).
  • the sensor device SU executes a behavior detection process for detecting a predetermined behavior in the monitored person Ob by the behavior detection processing unit 142 of the SU control processing unit 14 based on the target image acquired in the processing S11 ( S12). More specifically, the behavior detection processing unit 142 determines the success or failure of getting up, the success or failure of leaving the bed, the success or failure of the fall, and the success or failure of the fall.
  • the sensor device SU determines whether or not a predetermined behavior in the monitored person Ob is detected by the behavior detection processing unit 142 in the behavior detection processing S12. As a result of the determination, when the predetermined action is not detected (No), the sensor device SU next executes the process S15, while when the predetermined action is detected (Yes). The sensor device SU executes the next process S14 and then executes the process S15.
  • the sensor apparatus SU uses the action detection processing unit 142 to A first event notification communication signal relating to detection of the predetermined action is transmitted to the management server device SV as a predetermined event. More specifically, the behavior detection processing unit 142 stores the sensor ID of the own device, the predetermined event (here, one or more of getting up, getting out of bed, falling and falling) and the target image. An event notification communication signal is transmitted to the management server device SV via the SU communication IF unit 15.
  • the sensor device SU determines whether the nurse call is accepted by the nurse call processing unit 143. That is, the processes S11 to S16 shown in FIG. 10 are repeatedly executed for each frame or every several frames, but during the period from the previous execution of the process S15 to the current execution of the process S15, It is determined whether or not the call reception operation unit 13 has been operated. As a result of this determination, when the nurse call reception operation unit 13 is not operated and the nurse call is not received (No), the sensor device SU ends the current process, while the nurse call reception operation unit 13 Is operated and the nurse call is accepted (Yes), the sensor device SU ends the current process after executing the next process S16.
  • the sensor device SU uses the nurse call processing unit 143 to notify the predetermined terminal device SP, TA of the nurse call whose reception has been found in the process S15 via the management server device SV.
  • the first event notification communication signal related to the nurse call is transmitted to the management server device SV as the event. More specifically, the nurse call processing unit 143 transmits a first event notification communication signal containing the sensor ID of the own device and nurse call reception information to the management server device SV via the SU communication IF unit 15.
  • the sensor device SU operates as described above with respect to each of detection of a predetermined action and reception of a nurse call in the monitored person Ob.
  • the management server device SV determines whether or not the SV communication IF unit 21 has received a communication signal by the SV control unit 221 of the SV control processing unit 22 (S21). As a result of the determination, if the communication signal is not received (No), the management server device SV returns the process to S21. If the result of the determination is that the communication signal is received (Yes), The management server device SV executes the following process S22. That is, the management server device SV is waiting for reception of a communication signal.
  • the management server apparatus SV determines the type of the received communication signal by the SV control unit 221. As a result of this determination, when the received communication signal is the first event notification communication signal (first event notification), the management server device SV executes the process S27 after executing the process S23, and receives the received When the communication signal is a format request communication signal (format request), after executing step S24, the process S27 is executed. When the received communication signal is a care record notification communication signal (care record notification). If the received communication signal is not the first event notification communication signal, the format request communication signal, and the care record notification communication signal (others), the process S27 is executed after executing the process S25. After executing the process S27 is executed.
  • the management server apparatus SV executes the process of the monitoring information for processing the first event notification communication signal received from the sensor apparatus SU in the process S21 by the SV monitor processing section 222 of the SV control processing section 22.
  • the SV monitoring processing unit 222 displays monitoring information related to monitoring of the monitored person Ob contained in the first event notification communication signal received from the sensor device SU in the processing S21.
  • the information is stored (recorded) in the SV monitoring information storage unit 231 (S231).
  • the SV monitoring processing unit 222 stores the notification destination (transmission destination) corresponding to the sensor device SU that has transmitted the first event notification communication signal received in the processing S21 in the inter-device information storage unit 232. Selection (search) is performed from the notification destination correspondence (S232). More specifically, the SV monitoring processing unit 222 stores the first event notification communication signal received in the processing S21 in the transmission source field 2321 of the notification destination correspondence information table AT stored in the inter-device information storage unit 232. A record for registering the sensor ID of the transmitted sensor device SU (sensor ID accommodated in the first event notification communication signal) is selected, and the terminal ID registered in the notification destination field 2322 of the selected record is taken out. The terminal devices SP and TA of the extracted terminal ID are the notification destinations, and the communication address corresponding to the extracted terminal ID is from the communication address correspondence relationship information table DT stored in the inter-device information storage unit 232. It is taken out.
  • the SV monitoring processing unit 222 stores the care plan corresponding to the sensor device SU that has transmitted the first event notification communication signal received in the process S21 and the progress thereof in the care plan information storage unit 235. Select (search) from care plan information (S233). More specifically, the SV monitoring processing unit 222 transmits the first event notification communication signal received in the processing S21 to the sensor ID field 2331 of the sensor information table ST-SV stored in the SV sensor information storage unit 233. The record for registering the sensor ID of the sensor device SU (the sensor ID accommodated in the first event notification communication signal) is selected, and the monitored person name registered in the monitored person name field 2333 of the selected record is selected.
  • the care plan information table PT corresponding to the monitored person Ob of the extracted monitored person name is selected from the extracted care plan information storage unit 235, and the care plan and its progress are selected from the selected care plan information table PT.
  • the care plan to be transmitted to the predetermined terminal devices SP and TA and the progress of the care plan include the one scheduled execution time and the one scheduled implementation in which the scheduled execution time is the past in the past from the current time.
  • the SV monitoring processing unit 222 extracts the current time and today's day of the week from the clock unit 225, and the past scheduled execution time closest to the current time in the scheduled execution time field 2351 from the selected care plan information table PT. Is selected (searched) in the scheduled execution day field 2352, and the scheduled execution time field 2351, the care type field 2353, and the scheduled person in charge field in the selected record are selected (searched). 2354 and the scheduled execution time registered in each of the implementation field 2355, the type of care, the work status (work shift) and the implementation flag are extracted, and the scheduled execution time field 2351 is extracted from the selected care plan information table PT.
  • Future implementation schedule that is closest to the current time
  • the scheduled execution time, care type name, work status (work shift) and execution flag registered in the field 2354 and the execution field 2355 are extracted.
  • the two sets of the scheduled execution time, the care type name, and the execution flag that are taken out are the care plan to be transmitted to the predetermined terminal devices SP and TA and the progress status thereof.
  • the SV monitoring processing unit 222 generates a second event notification communication signal based on these, and transmits the generated second event notification communication signal by the SV communication IF unit 21 (S234). More specifically, the SV monitoring processing unit 222 generates a second event notification communication signal whose destination is the terminal device SP or TA with the extracted terminal ID.
  • the second event notification communication signal includes The communication address corresponding to the sensor device SU having the sensor ID accommodated in the first event notification communication signal is accommodated as the download destination of the sensor ID, the event information and the target image, and the moving image accommodated in the one event notification communication signal. Is done.
  • the second event notification communication signal When the event information accommodated in the first event notification communication signal is the nurse call, the second event notification communication signal includes the sensor ID and event information accommodated in the first event notification communication signal. Is done.
  • the target image when the nurse call is accepted may be accommodated in the second event notification communication signal.
  • the terminal device SP or TA of the selected notification destination the terminal device SP or TA to which the person in charge of care of the selected care plan and its progress is logged in.
  • the selected care plan and its progress are further accommodated in the second event notification communication signal.
  • the SV monitoring processing unit 222 records, from the login supervisor information table RT stored in the terminal information storage unit 234, the extracted terminal ID as the transmission destination in the terminal ID field 2341 thereof. Is selected (searched), the name of the supervisor registered in the supervisor name field 2342 of the selected record is extracted, and the supervisor name field 2343 is extracted from the supervisor work information table JT stored in the terminal information storage unit 234.
  • the SV monitoring processing unit 222 extracts the work status (work shift) extracted from the terminal information storage unit 234 from the care plan information table PT stored in the care plan information storage unit 235 as described above. It is determined whether or not it matches any work status (work shift). As a result of this determination, if they match, the SV monitoring processing unit 222 adds the second event notification communication signal and the care plan information table PT stored in the care plan information storage unit 235 as described above.
  • the retrieved past past scheduled execution time, care type name and implementation flag, and the latest future scheduled execution time, care type name and implementation flag are further accommodated.
  • the SV monitoring processor 222 does not accommodate the care plan and its progress in the second event notification communication signal.
  • the SV monitoring processing unit 222 transmits the second event notification communication signal generated in this way by the SV communication IF unit 21, and ends this processing.
  • the management server device SV thus executes the monitoring information processing S23.
  • the management server apparatus SV executes a format reply process for processing the format request communication signal received from the terminal apparatuses SP and TA in the process S21 by the SV care recording processing unit 224 of the SV control processing unit 22.
  • the SV monitoring processing unit 222 corresponds to the recording format name contained in the format request communication signal received in the process S21 by the SV care recording processing unit 224.
  • a recording format electronic file is extracted from the format information storage unit 236, and the extracted recording format electronic file, and a communication signal containing the terminal ID and the recording format name contained in the format request communication signal received in step S21. (Format reply communication signal) is returned to the terminal devices SP and TA that are the transmission source of the format request communication signal received in the process S21, and this process is terminated.
  • the management server apparatus SV performs a care record process for processing the care record notification communication signal received from the terminal apparatuses SP and TA in the process S21 by the SV control processing unit 22.
  • the SV monitoring processing unit 222 includes a care record notification communication signal received from the terminal device SP or TA by the SV care recording processing unit 224 in the processing S21.
  • Care is performed by associating the name of the target person (name of the person being monitored) and the contents of the care record (in the example described below, the intake of staple foods, the intake of side meals, notes, the time of care, and permission for sharing)
  • the recorded information is stored in the recording information storage unit 237.
  • the management server device SV updates the implementation status information (the implementation flag in this embodiment) by the care plan processing unit 223 of the SV monitoring processing unit 222 (S252). More specifically, the care plan processing unit 223 determines the subject name (monitored person) contained in the care record notification communication signal received in the process S21 from the care plan information stored in the care plan information storage unit 235. Name) is selected (searched) for the care plan information corresponding to the monitored person Ob and corresponds to the care type name accommodated in the care record notification communication signal received in the process S21 from the selected care plan information. The implementation status information is set to implemented and stored in the care plan information storage unit 235.
  • the SV monitoring processing unit 222 reads the subject name (monitored person) contained in the care record notification communication signal received in the processing S21 from the care plan information table PT stored in the care plan information storage unit 235.
  • the name of the care plan information table PT corresponding to the monitored person Ob is selected (searched), and the type of care accommodated in the care record notification communication signal received in the process S21 from the selected care plan information table PT
  • a record whose name is registered in the care type field 2353, and the record in which the execution flag “0” meaning “not executed” is registered is selected (searched) in the execution field 2355, and the execution field 2355 of the selected record is selected.
  • an execution flag “1” signifying execution has been registered.
  • the progress status of the care plan is updated and registered in the care plan information table PT.
  • the care type information stored in the care record notification communication signal received in the process S21 is registered in the care type field 2353 in the selected care plan information table PT.
  • the care record time that is contained in the care record notification communication signal received in step S21 is the closest to the plurality of records.
  • a record in which the scheduled execution time is registered in the scheduled execution time field 2351 is selected, and an execution flag “1” indicating execution has been registered in the execution field of the selected record.
  • the management server device SV determines whether or not the care plan processing unit 223 of the SV monitoring processing unit 222 is a care for automatically creating a next care plan (S253). More specifically, the care plan processing unit 223 includes the SV storage unit as a care in which the type of care accommodated in the care record notification communication signal received in the process S21 automatically creates the next care plan. 23, it is determined whether or not it matches the care type name stored in advance. As a result of this determination, if they match, the care plan processing unit 223 determines that the care is to automatically create the next care schedule (Yes), and sequentially executes the next processing S254 and processing S255. Then, this process ends. On the other hand, if they do not match as a result of the determination, the care plan processing unit 223 determines that the care is not to automatically create the next care schedule (No), and ends the present process.
  • the management server device SV acquires the current time and day of the week from the clock unit 225 by the care plan processing unit 223 of the SV monitoring processing unit 222.
  • the management server device SV updates and stores the care plan information stored in the care plan information storage unit 235 in the next execution schedule by the care plan processing unit 223 of the SV monitoring processing unit 222 ( S255). More specifically, the care plan processing unit 223 first determines the next care execution scheduled time interval corresponding to the type of care stored in the care record notification communication signal received in the process S21 from the SV storage unit 23. The scheduled execution time is created by adding the extracted scheduled execution time interval for the next care to the current time acquired in step S254.
  • the care plan processing unit 223 creates a scheduled execution day based on the created scheduled execution time and the day of the week acquired in the process S254, and based on the created scheduled execution time, a work situation (work shift) Create Next, the care plan processing unit 223 newly adds a record to the selected care plan information table PT, and the scheduled execution time field 2351, scheduled schedule day field 2352, care type field 2353, scheduled schedule in the added record. In each of the person field 2354 and the execution field 2355, the created scheduled execution time, the created scheduled execution day, the name of the type of care accommodated in the care record notification communication signal received in the process S21, the created work status ( (Work shift) and an execution flag “0” meaning not executed are registered. Then, the care plan processing unit 223 sorts the care plan information table PT by the scheduled execution time in the scheduled execution time field 2351 and stores it in the care plan information storage unit 235. As a result, the care plan information storage unit 235 is automatically updated.
  • the management server apparatus SV performs an appropriate process according to the communication signal received in the process S21 by the SV control processing unit 22.
  • the management server apparatus SV determines whether or not the operation is finished (stopped) by the SV control processing unit 22. As a result of this determination, when the operation is finished (stopped) (Yes), the management server device SV finishes this process. On the other hand, when the operation is not finished (stopped) (No), the management server device SV The server device SV returns the process to step S21.
  • the management server device SV operates as described above.
  • the management server device SV monitors the care that has not been performed in the care plan by the SV monitoring processing unit 222, and the SV monitoring processing unit 222 determines that the current time is a predetermined time from the scheduled execution time. (For example, 5 minutes, 10 minutes, 20 minutes, etc.) If there is an unexecuted care that has passed over, a warning for the unimplemented care is sent to the monitored Ob corresponding to the care plan of the unimplemented care, Is transmitted to the terminal devices SP and TA of the transmission destination of the sensor device SV corresponding to
  • the SV monitoring processing unit 222 repeatedly executes the following processes at predetermined time intervals (for example, 1 minute, 3 minutes, 5 minutes, 10 minutes, etc.), so that the care plan is not implemented. Monitoring of care.
  • the SV monitoring processing unit 222 refers to the scheduled execution time, scheduled execution day, and implementation status information for each care plan information of each monitored person Ob stored in the care plan information storage unit 235, so that the current time is determined. It is determined whether or not there is an unimplemented care that has passed the predetermined time from the scheduled execution time, and as a result of this determination, the current time has not been performed for the predetermined time since the scheduled execution time.
  • the notification stored in the inter-device information storage unit 232 is a notification destination (re-notification destination, transfer destination, transmission destination) corresponding to the sensor device SU that is monitoring the monitored person Ob.
  • the SV monitoring processing unit 222 requests and receives an image from the sensor device SU that is monitoring the monitored person Ob, and the received image (for example, a still image) is an unexecuted care warning. You may accommodate in a communication signal.
  • a monitor who has received a notification and viewed the image can confirm that another person in charge (the monitor) is in progress, for example, It can be confirmed that the monitored person Ob is absent from the room RM, the efficiency for searching for the person can be improved, and that the subject monitored person Ob is sleeping. Judgment to extend the timing further can be made on the spot. This improves the efficiency of care work.
  • the care plan information table PT stored in the care plan information storage unit 235 is repeatedly used every day, so the management server device SV resets the execution flag every day by the care plan processing unit 223.
  • the execution flag reset process is executed.
  • the care plan processing unit 223 repeatedly executes each process shown in FIG. 14 at predetermined time intervals (for example, 0.5 seconds, 1 second, 2 seconds, etc.).
  • the care plan processing unit 223 acquires the current time from the clock unit 225 (S31).
  • the care plan processing unit 223 determines whether or not the current time acquired in the processing S31 is a reset time for resetting the execution flag.
  • the reset time is appropriately set in advance in units corresponding to the predetermined time interval. For example, when the predetermined time interval is in units of seconds such as 0.5 seconds, 1 second, and 2 seconds, the reset time is appropriately set in units of hours and minutes. For example, the reset time is set to 0:00. Further, for example, in this embodiment, the care plan is planned from 4:00 to 4:00 on the next day, so the reset time is set to 4:00.
  • the care plan processing unit 223 ends the current process after executing the process S33, and the current time is the reset time. If not (No), the care plan processing unit 223 ends the current process.
  • the care plan processing unit 223 displays an implementation flag “not implemented” in the implementation field 2355 of each record in each care plan information table PT of each monitored person Ob stored in the care plan information storage unit 235.
  • the execution flag is reset by registering “0”.
  • the management server apparatus SV executes the execution flag reset process in this way.
  • the operation of the terminal devices SP and TA will be described.
  • the operation of the mobile terminal device TA will be described.
  • the portable terminal device TA accepts a login operation by a monitor (user) such as a nurse or a caregiver, and the TA monitor processing unit 322 automatically performs the login operation.
  • a standby screen for waiting for a communication signal addressed to the machine is displayed on the TA display unit 36.
  • the standby screen 51 includes a menu bar area 511 for displaying a menu bar, and a standby main area for displaying a message indicating standby (for example, “no notification”) and an icon.
  • the portable terminal device TA uses the TA monitoring processing unit 322 to manage a communication signal (login notification communication signal) containing the terminal ID of the own device and the name of the supervisor (user) logged in to the own device. Transmit to server device SV.
  • a communication signal login notification communication signal
  • the SV monitoring processing unit 222 sets the terminal ID and the name of the monitor contained in the received login notification communication signal as an example of the above-described processing S26 ( Are associated with each other and stored in the terminal information storage unit 234. More specifically, the SV monitoring processing unit 222 registers the terminal ID accommodated in the received login notification communication signal in the terminal ID field 2341 of the login supervisor information table RT stored in the terminal information storage unit 234. The record to be selected is selected (searched), and the name of the monitor accommodated in the received login notification communication signal is registered in the monitor name field 2342 of the selected record.
  • the SV monitoring process When there is no record for registering the terminal ID accommodated in the received login notification communication signal in the terminal ID field 2341 of the login supervisor information table RT stored in the terminal information storage unit 234, the SV monitoring process The unit 222 adds a new record to the login supervisor information table RT stored in the terminal information storage unit 234, and the login notification received and received in the terminal ID field 2341 and the supervisor name field 2342 in the added record, respectively.
  • the terminal ID accommodated in the communication signal and the name of the supervisor are registered.
  • the portable terminal device TA determines whether or not the TA communication IF unit 31 has received a communication signal by the TA control unit 321 of the TA control processing unit 32 (S41). If the result of this determination is that a communication signal has not been received (No), the portable terminal device TA returns the processing to S41. If the result of the determination is that a communication signal has been received (Yes), The portable terminal device TA executes the following process S42. That is, the mobile terminal device TA is waiting for reception of a communication signal.
  • the portable terminal device TA determines the type of the received communication signal by the TA control unit 321. As a result of this determination, when the communication signal received in the process S41 is the second event notification communication signal (second event notification), the portable terminal device TA executes the next process S43, and in the process S41. If the received communication signal is not the second event notification communication signal (others), the process ends after executing the process S47 for performing an appropriate process according to the communication signal received in the process S41. In an example of this processing S47, when the portable terminal device TA receives an unexecuted care warning communication signal from the management server device SV, the TA monitoring processing unit 322 gives an unexecuted care alert by, for example, a warning sound or a warning message. Do.
  • the mobile terminal device TA monitors the monitored person Ob stored in the second event notification communication signal received from the management server apparatus SV in the process S41 by the TA monitoring processing unit 322 of the TA control processing unit 32. Is stored (recorded) in the TA monitoring information storage unit 331.
  • the TA monitoring processing unit 322 displays a screen corresponding to each piece of information contained in the second event notification communication signal received in step S41 on the TA display unit 36 (S44), and executes the next processing S45. More specifically, when the event information accommodated in the second event notification communication signal received in step S41 is the predetermined action, the TA monitoring processing unit 322, for example, the monitoring information screen illustrated in FIG. 52 is displayed on the TA display unit 36. On the other hand, when the event information accommodated in the second event notification communication signal received in step S41 is the nurse call, for example, a nurse call reception screen 53 shown in FIG. Is displayed on the TA display unit 36.
  • the monitoring information screen 52 is a screen for displaying the monitoring information related to the monitoring of the monitored person Ob.
  • the monitoring information screen 52 includes a menu bar area 511, an arrangement location of the sensor device SU having a sensor ID accommodated in the received second event notification communication signal, and the sensor ID.
  • the detection information display area 522 for displaying the event information (the detection result of the predetermined action) accommodated in the received second event notification communication signal, and the received second event notification communication signal Images (ie, target images taken by the sensor device SU having the sensor ID) (here, still images) are displayed. That includes an image area 523, a "corresponding" button 524, a "talk” button 525, a "See LIVE” button 526.
  • the sensor ID contained in the received second event notification communication signal is used as a search key to display the sensor apparatus SU.
  • the name of the monitored person Ob are retrieved from the TA sensor information storage unit 332 and displayed.
  • the detection results in this embodiment, names of getting up, getting out of bed, falling down, and falling down
  • the detection result is displayed as an icon that symbolically represents the detection result.
  • the TA storage unit 33 stores each action and an icon representative of the action in association with each other in advance. In the example illustrated in FIG.
  • the detection information display area 522 displays a wake-up icon that symbolizes wake-up.
  • the “corresponding” button 524 has an intention to perform a predetermined response (response, response) such as lifesaving, nursing, care, and assistance for the detection result displayed on the monitoring information screen 52. It is a button for inputting execution intention information indicating that the user of the mobile terminal device TA is present to the mobile terminal device TA.
  • the “speak” button 525 is a button for requesting a voice call, and is used to input an instruction to connect the sensor device SU of the sensor ID and the mobile terminal device TA via the network NW. It is a button.
  • the “LIVE” button 526 is a button for requesting a live video, and is a button for inputting an instruction to display a video captured by the sensor device SU of the sensor ID.
  • the nurse call reception screen 53 is a screen for displaying reception of a nurse call.
  • the nurse call reception screen 53 includes a menu bar area 511, a monitored person name area 521, a detection information display area 522, and a message indicating that a nurse call has been received (for example, “ A nurse call reception notification display area 531 for displaying “It is a nurse call”), a “corresponding” button 524, and a “speak” button 525.
  • the detection information display area 522 displays only the elapsed time from the reception time of the received second event notification communication signal (or the reception time of reception of the nurse call).
  • the nurse call reception screen 53 may further include a “view LIVE” button 526.
  • the TA monitoring processing unit 322 displays the care plan and its progress as the TA display unit 36. To display. At this time, the TA monitoring processing unit 322 displays these care plans and their progress on the TA display unit 36 in different display modes depending on whether the care plan has been executed or not. In the present embodiment, the TA monitoring processing unit 322 displays these care plans and the progress thereof on the TA display unit 35 together with the reception of the monitoring information and the nurse call. More specifically, as shown in FIGS. 17 and 18, each of the monitoring information screen 52 and the nurse call reception screen 53 further includes a care plan display area 71.
  • the care plan display area 71 is provided, for example, at one end of each of the monitoring information screen 52 and the nurse call reception screen 53, and includes a time bar 711, care marks 712 (712-1, 712-2), and a current A time mark 713.
  • the time bar 711 is a bar-shaped mark for displaying time, for example, a bar-shaped mark extending from top to bottom when the TA display unit 36 is viewed from the front.
  • the care mark 712 is a rectangular mark for displaying the care scheduled to be implemented in the care plan.
  • the care mark 712 includes two first and second care marks 712-1 and 712-2.
  • the first care mark 712-1 is used to display one care whose scheduled execution time is the past in the past from the current time, and is in the vicinity of the first care mark 712-1 (see FIGS. 17 and 18).
  • the scheduled execution time contained in the second event notification communication signal received in the processing S41 is the past past the current time.
  • the scheduled execution time and the type of care for one care are displayed.
  • the second care mark 712-2 is used to display one care whose scheduled execution time is the future in the immediate future from the current time, and is in the vicinity of the second care mark 712-2 (see FIGS. 17 and 18).
  • the scheduled execution time contained in the second event notification communication signal received in the process S41 is the future that is closest to the current time.
  • the scheduled execution time and the type of care for one care are displayed.
  • the current time mark 713 is used to display the current time, and the current time is displayed in the vicinity of the current time mark 713 (in the example shown in FIGS. 17 and 18, the area adjacent to the right side of the current time mark 713).
  • the current time mark 713 is displayed so as to overlap the time bar 711 at a substantially central position in the extending direction of the time bar 711.
  • the first care mark 712-1 is displayed at a position above the display position of the current time mark 713 so as to overlap the time bar 711.
  • the second care mark 712-2 is displayed at a position below the display position of the current time mark 713 so as to overlap the time bar 711. That is, the time bar 711 indicates the past time with the display position of the current time mark 713 as the boundary, and the lower side indicates the future time.
  • the care mark 712 and the current time mark 713 are displayed in different display modes, for example, different colors.
  • the care mark 712 is displayed in different display modes, for example, in different colors, depending on whether the care displayed with the care mark 712 has been performed or not.
  • the current time mark 713 is displayed in blue
  • the care mark 712 that displays care that has been performed is displayed in green
  • the care mark 712 that displays care that has not been performed is displayed in red.
  • the current time mark 713 is displayed in blue
  • the care mark 712 that displays care that has been performed is displayed in yellow (or green) that is always lit
  • the care mark 712 that has not been performed may be displayed in different display modes before and after the current time. For example, a care mark 712 indicating a care that has already been performed is displayed in green, which is always lit, and a care mark 712 indicating a care that has not been performed before the current time is displayed in blinking yellow, and is not displayed after the current time.
  • the care mark 712 that displays the care to be performed is displayed in blinking red.
  • a display aspect is not limited to these, Other aspects can be taken.
  • the portable terminal device TA determines whether or not the TA control processing unit 32 has accepted an input operation on the touch panel including the TA input unit 35 and the TA display unit 36. If the input operation is not accepted as a result of this determination (No), the mobile terminal device TA returns the process to step S45. On the other hand, if the input operation is accepted as a result of the determination, the mobile terminal TA The apparatus TA executes the next process S46.
  • the portable terminal device TA performs an appropriate process according to the content of the input operation by the TA control processing unit 32, and ends this process.
  • the portable terminal device TA receives an input operation of the “corresponding” button 524 from the TA input unit 35 constituting the touch panel by the TA control processing unit 32 (that is, when the corresponding intention is received), first, The monitoring information of the monitored person Ob currently displayed on the TA display unit 36 is added to the effect that “corresponding” has been received and stored in the TA monitoring information storage unit 331. More specifically, the TA control processing unit 32 monitors the monitored person Ob currently displayed on the TA display unit 36 in the TA monitoring information table MT-TA stored in the TA monitoring information storage unit 331.
  • Correspondence flag “1” indicating correspondence acceptance is registered in the correspondence field 3316 of the record in which information is registered (here, the record in which the monitoring information contained in the received second event notification communication signal is registered). .
  • the TA control processing unit 32 accommodates the sensor ID corresponding to the monitoring information of the monitored person Ob displayed on the TA display unit 36 and information indicating that “corresponding” has been received (corresponding reception information).
  • a communication signal (correspondence reception notification communication signal) is transmitted to the management server device SV.
  • the management server device SV that has received the correspondence acceptance notification communication signal, as another example of the above-described processing S26, performs SV monitoring information table MT-SV stored in the SV monitoring information storage unit 231 by the SV control processing unit 22.
  • the sensor ID accommodated in the received correspondence acceptance notification communication signal is a record in which the sensor ID field 2311 is registered, and the correspondence flag “0” indicating that the correspondence is not accepted is registered in the correspondence field 2316.
  • a correspondence flag “1” indicating correspondence acceptance is registered in the correspondence field 2316 of the record to be received, and a communication signal containing the sensor ID and correspondence acceptance information contained in the received correspondence acceptance notification communication signal (well-known correspondence acceptance is known).
  • Communication signal is transmitted to the terminal devices SP and TA by broadcast communication.
  • the call processing unit 323 monitors the monitored person Ob displayed on the TA display unit 36.
  • a communication signal (call request communication signal) containing information such as requesting a voice call is transmitted to the sensor device SU, and the sensor device SU is connected to the sensor device SU via the network NW so as to be able to make a voice call.
  • a voice call can be made between the mobile terminal device TA and the sensor device SU.
  • the portable terminal device TA When the TA control processing unit 32 receives an input operation of an “end” button (not shown) that is a button for inputting an instruction to end a voice call, the portable terminal device TA causes the TA processing unit 323 to A communication signal (call end communication signal) containing information such as a request to end the voice call is transmitted to the sensor device SU that monitors the monitored person Ob displayed on the display unit 36. Thereby, the voice call between the mobile terminal device TA and the sensor device SU is terminated.
  • an “end” button not shown
  • a communication signal call end communication signal
  • the TA streaming processing unit 324 displays the monitored object currently displayed on the TA display unit 36.
  • a communication signal video distribution request communication signal
  • the video is connected to be downloadable via the sensor device SU, receives live video distribution from the sensor device SU, and displays the distributed video on the TA display unit 36 by streaming playback.
  • the “live end” button is a button for requesting the end of the moving image, and ends (stops) the distribution of the moving image picked up by the sensor device SU of the sensor ID and ends (stops) the display. This is a button for inputting an instruction to be performed.
  • the TA control processing unit 32 receives an input operation of the “live end” button, the portable terminal device TA monitors the monitored person Ob currently displayed on the TA display unit 36 by the TA streaming processing unit 324.
  • a communication signal (moving image distribution end communication signal) containing information such as requesting the end of moving image distribution is transmitted to the sensor device SU, and a still image is displayed on the TA display unit 36. Accordingly, the mobile terminal device TA ends the live video display.
  • the mobile terminal device TA operates as described above.
  • the portable terminal device TA receives an input operation of the submenu button 5111 in the menu bar area 511 on the standby screen 51, the monitoring information screen 52, the nurse call reception screen 53, and the like from the TA input unit 35 configuring the touch panel (S11). ), For example, the sub menu screen 61 shown in FIG. 19 is displayed on the TA display unit 36 by the TA control processing unit 32.
  • the submenu button 5111 is a button for inputting an instruction to display the submenu screen 61 to the mobile terminal device TA.
  • the submenu screen 61 is a screen for displaying selectable submenus and selecting a submenu.
  • the submenu screen 61 includes an “information” button 611, a “staff message board” button 612, a “care execution input” button 613, and a “logout” button 614 as submenus.
  • the “information” button 611 is a button for inputting, for example, an instruction to display predetermined information such as a login name (caregiver name) and a terminal ID to the mobile terminal device TA.
  • the “staff message board” button 612 is a button for inputting, to the mobile terminal device TA, an instruction to display a message recorded in the management server device SV by the supervisor (user) from the terminal devices SP and TA.
  • the “care implementation input” button 613 is a button for inputting an instruction to record a care record in the management server device SV from the terminal devices SP and TA to the mobile terminal device TA.
  • the “logout” button 614 is a button for inputting an instruction to logout to the mobile terminal device TA.
  • the portable terminal device TA determines whether or not an input operation has been received from the TA input unit 35 configuring the touch panel by the TA control processing unit 32, and when the portable terminal device TA receives the input operation, The type of input operation received by the TA input unit 35 constituting the touch panel is determined.
  • the portable terminal device TA executes the following processing, and the received input operation is “care”.
  • the screen that displayed the received submenu button 5111 standby screen 51, monitoring The information screen 52 and the nurse call reception screen 53
  • this process is terminated.
  • the portable terminal device TA is processed by the TA care recording processing unit 325 of the TA control processing unit 32, for example, as shown in FIG.
  • the person selection screen 62 is displayed on the TA display unit 36.
  • the target person selection screen 62 is a screen for displaying a selectable target person and selecting a target person for care recording who has performed care. For example, as shown in FIG.
  • the target person selection screen 62 includes a menu bar area 511, a submenu name display area 621 for displaying a submenu name selected on the submenu screen 61, and a selectable 1 or A target person display area 622 (622-1 to 622-5) for displaying a plurality of target persons in a list is provided.
  • the submenu name display area 621 displays a submenu name of the submenu corresponding to the received “care execution input” button 613; “care execution input”.
  • a monitored person name field 3323 and an arrangement place field 3322 in the TA sensor information table ST-TA stored in the TA sensor information storage unit 332 are displayed.
  • the name of the monitored person and the location of the registered person are taken out from each record, and the TA display unit 36 is viewed from the front in the target person display area 622 as the set of the arranged place and the name of the monitored person.
  • the data is sorted in order from the top to the bottom and displayed in a list display.
  • the sorting criteria are arbitrary, and are, for example, the order of the names of the monitored persons (in alphabetical order), the order of the room numbers of the locations where they are arranged, and the like. In the example shown in FIG. 20, each set of arrangement location and monitored person name is sorted in the order of the room number of the arrangement location.
  • the target person display area 622 is wider than the display area of the TA display unit 36 and each set of the placement location and the monitored person name cannot be displayed in the display area of the TA display unit 36, for example, a flick (flick) is used.
  • input changes the area of the target person display area 622 displayed in the display area of the TA display section 36, and displays the set of the location and the name of the monitored person not displayed in the display area of the TA display section 36. It can be done.
  • the individual areas 622-1 to 622-5 for displaying each set of the location and the name of the person to be monitored indicate the target person selected by the supervisor (user of the portable terminal device TA). It is also a button (subject selection button) for inputting to the device TA.
  • the mobile terminal device TA While the target person selection screen 62 is being displayed, the mobile terminal device TA displays an area (a target person selection button) for displaying a set of an arrangement location and a monitored person name from the TA input unit 35 constituting the touch panel.
  • the TA care recording processing unit 325 stores the selected subject (name of the person to be monitored) in the TA storage unit 33 as the subject of the care record,
  • the format selection screen 63 shown in FIG. 21 is displayed on the TA display unit 36.
  • the format selection screen 63 is a screen for displaying a recording format that is prepared and selectable in advance according to the type of nursing care, and for selecting a recording format. For example, as shown in FIG.
  • the target person selection screen 62 includes a menu bar area 511, a target person name display area 631 for displaying the target person name selected on the target person selection screen 62, and a selectable 1 Alternatively, a format display area 632 (632-1 to 632-4) for displaying a plurality of recording formats by their names in a list is provided.
  • the area (target person selection button) 622-1 for displaying “No. 101 room K field M male” is input by the above-described processing, and the target person name display area 631 has “No. “Mao Mada” is displayed.
  • the target person name display area 631 is also a button for inputting an instruction to display the target person selection screen 62 to the mobile terminal device TA.
  • the subject can be changed from the subject selection screen 62 by performing an input operation on the subject name display area 631.
  • the format display area 632 is wider than the display area of the TA display unit 36 and all of the recording format names cannot be displayed in the display area of the TA display unit 36, they are displayed in the display area of the TA display unit 36 by flicking, for example.
  • the format display area 632 is changed so that recording format names not displayed in the display area of the TA display section 36 can be displayed.
  • the individual areas 632-1 to 632-4 for displaying the recording format names are also buttons (format selection buttons) for inputting the recording format selected by the monitor to the portable terminal device TA. In the example shown in FIG.
  • the format display area 632 displays a “meal” area 632-1 that displays “meal” as a record format name for meal care, and “water” as a record format name for hydration care.
  • the “meal” area 632-1 is a button for inputting a record format for meal care to the portable terminal device TA, and the “moisture” area 632-2 is for hydration care.
  • the “Vital” area 632-4 is a button for inputting selection of a recording format for vital check to the portable terminal device TA.
  • the contents of care records are also displayed in the individual areas 632-1 to 632-4 for displaying the recording format names. For example, the contents of the care records for today, the previous day, and the previous day are displayed.
  • the TA care record processing unit 325 includes the terminal ID of the own device, the target person name selected and input in the above-described process (monitored person name), and Then, a communication signal (care record request communication signal) containing instructions for requesting the contents of the care records on the previous day and the previous day is transmitted to the management server device SV.
  • this care record request communication signal is received, the management server device SV, for each of the care records for today, the previous day, and the previous time corresponding to the subject name (name of the person to be monitored) accommodated in the received care record request communication signal.
  • the contents are taken out of the care record information storage unit 237, and the contents of the care records on today, the previous day, and the previous day, and the terminal ID and the subject name (the monitored person) accommodated in the received care record request communication signal are taken out.
  • the communication signal (care record reply communication signal) containing the name) is returned to the portable terminal device TA that is the transmission source of the received care record request communication signal.
  • the portable terminal device TA displays the contents of the care record in the area 632 by receiving the care record reply communication signal from the management server device SV and extracting the stored data by the TA control processing unit 32. To do.
  • the mobile terminal device TA accepts an input operation of the area (format selection button) 632 for displaying the recording format name from the TA input unit 35 constituting the touch panel, and the recording format.
  • the TA care recording processing unit 325 receives a communication signal (format request communication signal) containing the terminal ID of the own device, the selected recording format name, and a command requesting the recording format of the recording format name.
  • the management server device SV is requested for the recording format in which the selection has been accepted.
  • the management server device SV Upon receiving this format request communication signal, the management server device SV executes the format reply process S24 described above with reference to FIG. 11, and the format reply communication signal corresponding to the received format request communication signal is received. It returns to the portable terminal device TA that is the transmission source of the format request communication signal.
  • the TA care recording processing unit 325 accommodates the received format reply communication signal.
  • the recording format electronic file is taken out, and the recording format screen 64 is displayed on the TA display unit 36 using the taken out recording format electronic file.
  • the portable terminal device TA requests a recording format for meal care by the TA control processing unit 32.
  • a format request communication signal is transmitted to the management server device SV, and a reply format communication signal containing an electronic file of a record format for meal care is received as a reply.
  • the screen 64a is displayed on the TA display unit 36.
  • the meal care record format screen 64a is a screen for displaying a record format for meal care, and is a screen for inputting the contents of the implemented meal care as a nursing care record.
  • the meal care recording format screen 64 a displays a menu bar area 511, a subject name display area 631 for displaying the subject name, and input items to be input as care contents.
  • the care record input area 641a for inputting the care content corresponding to the input item as a care record, and the setting for inputting whether or not the care record can be referred to from other terminal devices SP and TA are shared.
  • a check box ( ⁇ ) 642 and a “Send” button 643 are provided.
  • the input items are the intake amount of staple food, the intake amount of side meals, a memo, and the care implementation time
  • the care record input area 641a is used to input these items.
  • a care execution time input area 641a-4 for inputting the time when the operation is performed.
  • the sharing check box 642 when a check input operation is accepted, “R” is displayed in the sharing check box 642, and the recording format screen 64 (in the example shown in FIG. 22, the meal care recording format screen 64a) is displayed.
  • An instruction to set the input content so that it can be referred to from other terminal devices SP and TA is input.
  • the shared check box 642 is displayed as a blank, and the contents input to the recording format screen 64 (in the example shown in FIG. 22, the meal care recording format screen 64a) are displayed.
  • An instruction to set so that it cannot be referred to from other terminal devices SP and TA is input.
  • the “send” button 643 displays the contents (meal care contents in the example shown in FIG. 22) input to the recording format screen 64 (in the example shown in FIG. 22 the meal care recording format screen 64a). This is a button for inputting an instruction to be transmitted to.
  • the portable terminal device TA performs processing of a recording format in which the content of care input using the recording format displayed on the TA display unit 36 is transmitted to the management server device SV as a care record by the TA care recording processing unit 325. After that, the screen (the standby screen 51, the monitoring information screen 52, the nurse call reception screen 53, etc.) on which the submenu button 5111 received in the above-described processing is displayed is displayed on the TA display unit 36, and this processing is performed. finish.
  • the supervisor first refers to the recording format displayed on the TA display unit 36 and inputs the content of care corresponding to the input item of this recording format.
  • the monitor (user) refers to the meal care recording format screen 64a displayed on the TA display unit 36, and each area 641a- in the care record input area 641a of the meal care recording format screen 64a is displayed.
  • the contents of meal care are input to 1 to 641a-4, and the sharing check box ( ⁇ ) 642 is input as necessary.
  • the supervisor (user) performs an input operation on the “Send” button 643.
  • the portable terminal device TA receives the terminal ID of its own device and the subject name (monitored person name) selected and input by the above-described processing by the TA control processing unit 32.
  • the type of care (meal care in the above example) and the contents of the care record input using the recording format screen 64 (in the above example, the staple food input using the meal care recording format screen 64a)
  • a communication signal (care record notification communication signal) that contains the intake amount of food, the intake amount of supplementary meals, a memo, the care execution time, and the permission of sharing is transmitted to the management server device SV.
  • the management server device SV executes the care record processing S25 (S251 to S255) described above with reference to FIGS.
  • the monitored person monitoring system MS in this embodiment, the management server apparatus SV as an example of the central processing unit, and the central processing method implemented therein are only the image of the monitored person Ob and the detection result. Instead, the care plan of the monitored person Ob and the progress of the care plan are transmitted to the terminal devices SP and TA. For this reason, not only the monitoring information of the monitored person Ob but also the care plan of the monitored person Ob and the progress status of the care plan are displayed on the terminal devices SP and TA that have received the information. Therefore, in the monitored person monitoring system MS, the management server apparatus SV, and the method thereof, a user (monitoring person) who handles the terminal apparatuses SP and TA can thus monitor the monitored person Ob displayed on the terminal apparatuses SP and TA.
  • the care plan and the progress of the care plan can be referred to, and the information on the next care can be obtained from the information. For this reason, the user (monitoring person) can judge the image of the monitored person Ob and the detection result while considering the care to be performed next. Therefore, the monitored person monitoring system MS, the management server device SV, and the method thereof can support the determination of what care should be taken.
  • the monitored person monitoring system MS, the management server device SV, and the method thereof transmit the scheduled execution times immediately before and immediately after the current time and the type names thereof in the care plan to the terminal devices SP and TA. Therefore, the terminal devices SP and TA that have received the information display the scheduled execution time immediately before and immediately after the current time and the type name thereof. Therefore, in the monitored person monitoring system MS, the management server apparatus SV and the method thereof, the user (monitoring person) who handles the terminal apparatuses SP and TA refers to the displayed progress status and the previous scheduled execution time and its If the care of the type name is not performed, it can be predicted that the care of the type name is the next care to be performed.
  • the monitored person monitoring system MS the management server device SV, and the method thereof can effectively support the determination of what care should be taken.
  • the monitored person monitoring system MS, the management server apparatus SV, and the method thereof provide a warning for unexecuted care that has passed a predetermined time from the scheduled execution time, and the monitored person Ob who should perform the unexecuted care. Are transmitted to the corresponding terminal devices SP and TA via the sensor device SV. For this reason, the user (monitoring person) who handles the terminal devices SP and TA that have received this information can recognize care that has not been performed by the warning, and can reduce forgetting to perform care.
  • the monitored person monitoring system MS, the management server device SV, and the method thereof calculate the time after a predetermined time has elapsed as the scheduled execution time from the time when the care record was received, and the calculated scheduled execution time and the care record
  • the care that has been received and the same kind of care are associated with each other, and are newly stored in the care plan information storage unit 235 as the care plan for the monitored person Ob in the care that has been received.
  • the care plan can be updated dynamically for the above types of care.
  • the monitored person monitoring system MS, the management server device SV, and the method thereof are notified of the care plan and the progress status thereof to the person in charge of the care plan information stored in the care plan information storage unit 235.
  • the monitored person Ob of the care plan it is possible to re-recognize that he is a person in charge and to recognize a suitable work to be executed next.
  • the terminal devices SP and TA display the progress of the care plan on the TA display unit 36 in different display modes depending on whether the care plan has been executed or not. Therefore, the user (monitoring person) who handles the terminal devices SP and TA can visually determine whether or not it has been performed.
  • the care plan transmitted to the predetermined terminal devices SP and TA is the scheduled execution time and the type name immediately before and immediately after the current time in the care plan.
  • the present invention is not limited to this. Not what you want.
  • the care plan to be transmitted to the predetermined terminal devices SP and TA includes the scheduled execution time that is within a predetermined time width including the current time and the type of care corresponding to the scheduled execution time. May be.
  • the predetermined time width is arbitrary and is, for example, 2 hours, 4 hours, 6 hours, 8 hours, or the like.
  • the current time may be located, for example, at the center thereof, may be located near the past, or may be located near the future, for example.
  • the SV monitoring processing unit 222 determines that the scheduled execution time is within a predetermined time width including the current time from the care plan information table PT selected as described above.
  • a certain record is selected, and the scheduled execution time, the type of care, the work status (work shift) and the implementation flag are extracted from the selected record, and are processed in the same manner as described above.
  • the monitored person monitoring system MS, the management server apparatus SV and the method thereof transmit the scheduled execution time and the type name within a predetermined time width including the current time in the care plan to the terminal apparatuses SP and TA. For this reason, the scheduled execution time within the predetermined time width including the current time and the type name thereof are displayed on the terminal devices SP and TA that have received this. Therefore, in the monitored person monitoring system MS, the management server device SV, and the method thereof, the user (monitoring person) who handles the terminal devices SP and TA refers to the displayed progress status before and after the current time in the care plan. Predict the next care to take while considering the situation.
  • the user can determine the image of the monitored person Ob and the detection result while considering the care to be performed next, which is predicted in consideration of the situation before and after. Therefore, the monitored person monitoring system MS, the management server device SV, and the method thereof can effectively support the determination of what care should be taken.
  • the care plan transmitted to the predetermined terminal devices SP and TA may be for one day.
  • the starting time of the day is arbitrary, and may be the same as the starting time of the care plan, for example, and may be the same as the starting time of the work shift (for example, in the time zone of A day shift, It may be the start time, the start time of the B day shift in the B day shift time zone, the start time of the night shift in the night shift time zone), or the current time, for example.
  • the SV monitoring processor 222 selects one day's worth of records from the care plan information table PT selected as described above, and from this selected record, the scheduled execution time, the type of care, the work status (work shift) Then, the execution flag is taken out and processed in the same manner as described above.
  • the current time mark 713 moves on the time bar 711 according to the current time in the display for one day.
  • Such a monitored person monitoring system MS, the management server apparatus SV, and the method transmit a care plan for one day to the terminal apparatuses SP and TA. For this reason, the care plan for one day is displayed on the terminal devices SP and TA which have received this. Therefore, in the monitored person monitoring system MS, the management server device SV and the method thereof, the user (monitor) who handles the terminal devices SP, TA considers the care plan for one day with reference to the displayed progress status. However, it is possible to predict the next care to be performed. Therefore, the user (monitoring person) can determine the image and the detection result of the monitored person Ob while considering the care to be performed next, which is predicted in consideration of the care plan for one day. Therefore, the monitored person monitoring system MS, the management server device SV, and the method thereof can effectively support the determination of what care should be taken.
  • a central processing unit corresponding to a monitored person who is a monitoring target, generates an image, and detects a predetermined event related to the monitored person, and can communicate with the sensor apparatus
  • a central processing unit that manages images and detection results that are connected and received from the sensor device, and a terminal that is communicably connected to the central processing unit and receives and displays the images and detection results via the central processing unit
  • a central processing unit of a monitored person monitoring system for monitoring the monitored person includes a care plan associated with the monitored person and a care plan information storage unit that stores a progress status of the care plan, the sensor device, an image received from the sensor device, and a detection result.
  • a destination information storage unit that stores a correspondence relationship with a terminal device that is a transmission destination, and the correspondence relationship that is stored in the transmission destination information storage unit when an image and a detection result are received from the sensor device
  • a monitoring processing unit that transmits the received image and the detection result to a terminal device corresponding to the sensor device, and the monitoring processing unit receives the image and the detection result from the sensor device.
  • the care plan corresponding to the sensor device and the progress of the care plan stored in the care plan information storage unit are further transmitted to the terminal device.
  • the predetermined event includes an event that needs to be dealt with.
  • the predetermined event includes a predetermined action in the monitored person.
  • the predetermined event includes a nurse call.
  • Such a central processing unit transmits not only the image of the monitored person and the detection result but also the care plan of the monitored person and the progress of the care plan to the terminal device. For this reason, not only the monitoring information of the monitored person but also the care plan of the monitored person and the progress status of the care plan are displayed on the terminal device that has received the information. Therefore, in the central processing unit, a user (monitoring person) who handles the terminal device can refer to the care plan of the monitored person displayed on the terminal device in this way and the progress of the care plan. The information tells you what care to do next. Therefore, the user can determine the image of the monitored person and the detection result while considering the care to be performed next. Therefore, the central processing unit can assist in determining what care should be taken.
  • the above-described central processing unit further includes a clock unit for measuring time
  • the care plan includes a care execution scheduled time and a care type name in association with each other, and transmits the result to the terminal device.
  • the care plan includes one scheduled execution time whose scheduled execution time is the latest past the current time, the type of care corresponding to the one scheduled execution time, and the scheduled execution time closest to the current time. Are one other scheduled execution time that is the future of and the type of care corresponding to the one other scheduled execution time.
  • Such a central processing unit transmits each scheduled execution time immediately before and immediately after the current time in the care plan and its type name to the terminal device. For this reason, the terminal apparatus that has received this information displays the scheduled execution time immediately before and immediately after the current time and the type name thereof. Therefore, in the central processing unit, the user (monitor) who handles the terminal device refers to the displayed progress status, and if the previous scheduled execution time and the type name care are not performed, the type On the other hand, if the care of the name is the next care to be performed, and if the care of the type name and the care of the type name are not yet performed, the care of the type name is the next care to be performed. We can predict that there will be. Therefore, the user can determine the image of the monitored person and the detection result while taking into consideration the care to be performed next predicted with two choices. Therefore, the central processing unit can assist in determining what care should be taken.
  • the above-described central processing unit further includes a clock unit for measuring time
  • the care plan includes a care execution scheduled time and a care type name in association with each other, and transmits the result to the terminal device.
  • the care plan is an execution schedule time in which the scheduled execution time is within a predetermined time width including the current time, and a care type name corresponding to the scheduled execution time.
  • Such a central processing unit transmits the scheduled execution time and the type name within a predetermined time width including the current time in the care plan to the terminal device. For this reason, on the terminal device that has received this, the scheduled execution time and the type name within a predetermined time width including the current time are displayed. Therefore, in the central processing unit, the user (monitor) who handles the terminal device predicts the next care to be performed in consideration of the situation before and after the current time in the care plan with reference to the displayed progress situation. it can. Therefore, the user can determine the image of the monitored person and the detection result while considering the care to be performed next, which is predicted in consideration of the situation before and after. Therefore, the central processing unit can assist in determining what care should be taken.
  • the care plan includes a care execution scheduled time and a care type name in association with each other, and the care plan transmitted to the terminal device is for one day. .
  • Such a central processing unit transmits a care plan for one day to the terminal device. For this reason, the care plan for one day is displayed on the terminal device which received this. Therefore, in the said central processing unit, the user (monitor) who handles the said terminal device can estimate the care which should be performed next, considering the care plan for one day with reference to the displayed progress. Therefore, the user can determine the image of the monitored person and the detection result while considering the care to be performed next, which is predicted in consideration of the care plan for one day. Therefore, the central processing unit can assist in determining what care should be taken.
  • the above-described central processing unit further includes a clock unit for measuring time
  • the care plan includes a care execution scheduled time and a care type name in association with each other, and the progress of the care plan
  • the situation includes implementation status information that indicates whether the care is scheduled to be performed and the care type name associated with each other and the type of care, which are associated with each other.
  • the monitoring processing unit Furthermore, when there is an unexecuted care in which the current time has passed a predetermined time or more from the scheduled execution time, a warning to the unexecuted care is given to the monitored person corresponding to the unimplemented care plan , To the terminal device of the transmission destination of the sensor device corresponding to.
  • Such a central processing unit transmits a warning corresponding to an unexecuted care that has passed a predetermined time from the scheduled execution time to the person to be monitored who should perform the unimplemented care via the sensor device. Send to the previous terminal device. For this reason, the user (monitorer) who handles the terminal device that has received this information can recognize care that has not been performed by the warning, and can reduce forgetting to perform care.
  • the care plan includes a care execution scheduled time and a care type name in association with each other, a clock unit that performs time measurement, and a care that receives the care that has already been performed. From the time received by the results receiving unit and the care results receiving unit, the time after a predetermined time has been determined as the scheduled execution time, and the determined scheduled execution time and the care that has been received by the care result receiving unit And a care plan change processing unit that is newly stored in the care plan information storage unit as a care plan for a monitored person in the care that has already been received by the care result receiving unit. Is further provided.
  • the central processing unit determines the time after a predetermined time from the time received by the care result receiving unit as the scheduled execution time, and the determined planned execution time and the executed care received by the care result receiving unit. And the same type of care are associated with each other and newly stored in the care plan information storage unit as a care plan for the monitored person in the performed care received by the care result receiving unit. In contrast, the care plan can be updated dynamically.
  • a central processing method for a monitored person who is a monitoring target, generates an image, and detects a predetermined event related to the monitored person, and communicates with the sensor apparatus
  • a central processing unit that manages the images and detection results received from the sensor device, and is connected to the central processing unit so as to be communicable with the central processing unit and receives and displays the images and detection results.
  • the central processing method includes a care plan information storing step for storing a care plan associated with the monitored person and a progress status of the care plan in a care plan information storage unit, the sensor device, and the sensor device receiving the care plan information storage step.
  • Such a central processing method transmits not only the image of the monitored person and the detection result, but also the care plan of the monitored person and the progress of the care plan to the terminal device. For this reason, not only the monitoring information of the monitored person but also the care plan of the monitored person and the progress status of the care plan are displayed on the terminal device that has received the information. Therefore, in the central processing method, the user (monitor) who handles the terminal device can refer to the care plan of the monitored person displayed on the terminal device in this way and the progress of the care plan. The information tells you what care to do next. Therefore, the user can determine the image of the monitored person and the detection result while considering the care to be performed next. Therefore, the central processing method can support the determination of what kind of care should be performed.
  • a monitored person monitoring system corresponding to a monitored person that is a monitoring target, generates an image, and detects a predetermined event related to the monitored person, the sensor apparatus
  • a central processing unit that is communicably connected to manage images and detection results received from the sensor device, and is connected to the central processing unit to communicate with the central processing unit and receives the images and detection results.
  • Such a monitored person monitoring system includes any one of these central processing units, it can assist in determining what care should be taken.
  • the terminal device displays the progress status of the care plan on the display unit in different display modes depending on whether the care plan has been executed or not executed. To do.
  • the terminal device displays the progress of the care plan on the display unit in different display modes depending on whether the care plan has been executed or not. Therefore, the user (monitorer) who handles the terminal device can visually determine whether or not the terminal device has been implemented.
  • a central processing unit and a central processing method of a monitored person monitoring system, and the monitored person monitoring system can be provided.

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  • Closed-Circuit Television Systems (AREA)

Abstract

L'invention concerne un dispositif et un procédé de traitement central destinés à un système de surveillance de personne à surveiller. Le système de surveillance de personne à surveiller stocke un plan de soins associé à une personne à surveiller ainsi que l'état de progression du plan de soins, et, lors de la réception d'une image et d'un résultat de détection provenant d'un dispositif capteur, transmet l'image et le résultat de détection reçus à un dispositif terminal, à une destination de transmission associée au dispositif capteur. Pendant la transmission, le plan de soins associé au dispositif capteur et l'état de progression du plan de soins sont en outre transmis au dispositif terminal.
PCT/JP2017/017183 2016-05-10 2017-05-01 Dispositif et procédé de traitement central pour système de surveillance de personne à surveiller, et système de surveillance de personne à surveiller WO2017195696A1 (fr)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020241021A1 (fr) * 2019-05-31 2020-12-03 コニカミノルタ株式会社 Procédé de gestion de soins, programme, dispositif de gestion de soins et système de gestion de soins

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005065852A (ja) * 2003-08-21 2005-03-17 Keakomu:Kk イベント通知機能付きナースコールシステム
JP2006260437A (ja) * 2005-03-18 2006-09-28 Hitachi Medical Corp 看護業務管理システム
JP2009075870A (ja) * 2007-09-20 2009-04-09 Carecom:Kk 看護業務管理システム
JP2015058030A (ja) * 2013-09-17 2015-03-30 東芝情報システム株式会社 見守りシステム

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005065852A (ja) * 2003-08-21 2005-03-17 Keakomu:Kk イベント通知機能付きナースコールシステム
JP2006260437A (ja) * 2005-03-18 2006-09-28 Hitachi Medical Corp 看護業務管理システム
JP2009075870A (ja) * 2007-09-20 2009-04-09 Carecom:Kk 看護業務管理システム
JP2015058030A (ja) * 2013-09-17 2015-03-30 東芝情報システム株式会社 見守りシステム

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020241021A1 (fr) * 2019-05-31 2020-12-03 コニカミノルタ株式会社 Procédé de gestion de soins, programme, dispositif de gestion de soins et système de gestion de soins

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