WO2010050474A1 - 通信用壁パネル及び通信用壁パネルを備えた介護システム及び通信用壁パネルを備えた会議システム - Google Patents
通信用壁パネル及び通信用壁パネルを備えた介護システム及び通信用壁パネルを備えた会議システム Download PDFInfo
- Publication number
- WO2010050474A1 WO2010050474A1 PCT/JP2009/068413 JP2009068413W WO2010050474A1 WO 2010050474 A1 WO2010050474 A1 WO 2010050474A1 JP 2009068413 W JP2009068413 W JP 2009068413W WO 2010050474 A1 WO2010050474 A1 WO 2010050474A1
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- WIPO (PCT)
- Prior art keywords
- room
- communication
- unit
- interior panel
- panel material
- Prior art date
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/14—Systems for two-way working
- H04N7/15—Conference systems
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/01—Measuring temperature of body parts ; Diagnostic temperature sensing, e.g. for malignant or inflamed tissue
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/103—Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
- A61B5/11—Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
- A61B5/1113—Local tracking of patients, e.g. in a hospital or private home
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/14—Systems for two-way working
- H04N7/141—Systems for two-way working between two video terminals, e.g. videophone
- H04N7/142—Constructional details of the terminal equipment, e.g. arrangements of the camera and the display
Definitions
- the present invention relates to a communication wall panel having a plurality of functions, a care system including the communication wall panel, and a conference system including the communication wall panel.
- a care recipient lives at home while receiving a home care service
- he / she communicates with a home care service company that provides home care services
- a care manager who manages home care services a rehabilitation facility, a hospital, a care taxi company, etc.
- the care service plan is created while the care service is executed according to the planned schedule.
- a video camera, a microphone, a display device, etc. are installed in the cared person's room, and an image signal picked up by the video camera and a sound signal detected by the microphone are centered.
- a communication unit for transmitting image signals and audio signals transmitted from the center and receiving image signals and audio signals transmitted from the center and a control unit for controlling each device are installed to enable communication between the care recipient's room and the center server.
- a communication for transmitting and receiving a camera, a microphone, a speaker, a display device, an image signal, and an audio signal to each conference participant's room Video conferencing that arranges devices, control devices that control each device, etc., transmits image signals and audio signals to a conference server via a communication line, and receives image signals and audio signals from other conference participants
- each device (camera, microphone, speaker, display device, communication device, control device) for transmitting and receiving image information and audio information to the room of the cared person or conference participant
- each device In order to install each device individually, it takes a lot of time and labor to install each device on a desk or the like and to perform wiring work to connect each device with a cable. There was a problem.
- the present invention provides a communication wall panel that can solve or reduce one or more of the above problems, a care system that includes the communication wall panel, and a conference system that includes the communication wall panel.
- the purpose is to provide.
- a communication wall panel is an interior panel member that is attached as an indoor wall material, and an information acquisition unit that is mounted on the interior panel member and acquires information about a person in the room. And a notification unit that is mounted on the interior panel material and informs a person in the room of information, and a communication unit that is mounted on the interior panel material and communicates with a server installed in a place other than the room. And a control unit that is mounted on the interior panel material and controls the information acquisition unit and the notification unit, and the communication unit transmits information obtained from the information acquisition unit to a server, The information transmitted from the server is output to the notification unit.
- a care system includes an interior panel member attached as an inner wall member of a cared person, image information about the cared person that is mounted on the interior panel member and is in the room, and An information acquisition unit that acquires audio information, and is mounted on the interior panel material, and is mounted on the interior panel material, a notification unit that notifies image information and audio information from outside to the care recipient in the room.
- a communication unit that performs communication, a control unit that is mounted on the interior panel material and controls the information acquisition unit and the notification unit, and image information and audio information about the care recipient obtained from the information acquisition unit.
- a server that receives from the communication unit and transmits the received image information and audio information regarding the care recipient to a terminal device installed in a place different from the room.
- a conference system is mounted on an interior panel material that is attached as an inner wall material in a room of a plurality of conference participants, and is mounted on the interior panel material, and among the plurality of conference participants,
- An information acquisition unit that acquires image information and audio information related to a first conference participant in one room, and the first conference participant in the room that is mounted on the interior panel material and participates in the plurality of conferences.
- a control unit that controls the acquisition unit and the notification unit, and image information and audio information related to the first conference participant obtained from the information acquisition unit are received from the communication unit, and the second conference participant is related Image information and sound Comprising a server for transmitting a broadcast to the communication unit.
- each device in order to mount the information acquisition unit, the notification unit, the communication unit, and the control unit on the interior panel material, each device (each unit) is collectively attached by mounting the interior panel material indoors. It can be installed, and the installation work is greatly reduced compared to the case of installing each device individually, it can be installed efficiently, the wiring work between each device is simplified, and multiple cables are exposed. It becomes possible not to install.
- FIG. 1 It is a block diagram which shows the wall panel for communication by one Example of this invention. It is a side view which shows the attachment state of the wall panel for communication by one Example of this invention. It is a rear view of the wall panel for communication by one Example of this invention. It is a figure which expands and shows the connector member of the upper end of the wall panel for communication by one Example of this invention. It is a side view which expands and shows the attachment state of the connector member by one Example of this invention. It is a figure which expands and shows the connection state of the connector member by one Example of this invention. It is a front view which shows the fixed state of the fixing mechanism by one Example of this invention.
- FIG. 1 is a block diagram showing a communication wall panel 10 according to an embodiment of the present invention.
- FIG. 2 is a side view showing an attached state of the communication wall panel 10.
- FIG. 3 is a rear view of the communication wall panel 10.
- the communication wall panel 10 includes an interior panel material 20, a digital video camera 30 as an information acquisition unit, a microphone 40, a temperature sensor 50, a display device 60 as a notification unit, and a speaker. 70, a communication modem 80 as a communication unit, an infrared communication module 85 according to a short-range wireless communication standard (for example, ZigBee) for transmitting a radio signal by infrared, and a control unit 90 as a control unit.
- the digital video camera 30, microphone 40, temperature sensor 50, display device 60, speaker 70, communication modem 80, infrared communication module 85, and control unit 90 are mounted on the interior panel material 20.
- the interior panel material 20 is formed in a panel shape from an interior material made of wood or the like, for example, and the surface (front surface) is covered with an indoor wallpaper or a decorative sheet 22 of a color that matches the interior paint color. ing.
- the digital video camera 30 is set to take an image of a person in the room while taking an image of the room.
- the digital video camera 30 also has a zoom function for enlarging and capturing the face of a person who makes a call when the communication wall panel 10 is used as an IP (Internet Protocol) telephone or a video conference terminal device.
- the digital video camera 30 also functions as a monitoring camera that monitors the state of the care recipient when the communication wall panel 10 is used in a care facility or a hospital.
- the microphone 40 functions as a sound detection unit that detects indoor sounds and a vibration detection unit that detects indoor vibrations.
- the communication wall panel 10 is used as a video IP phone or a video conference terminal device. Furthermore, it functions as a handset that detects the sound in the room and outputs a sound signal. Further, for example, when the communication wall panel 10 is used in a care facility or a hospital, the presence or absence of an abnormality of the care recipient is determined by monitoring the level change of the indoor sound detection signal output from the microphone 40. It becomes possible. For example, the detection of abnormal sound or vibration when the cared person falls in the room or the falling sound of tableware placed on the table is detected.
- the temperature sensor 50 functions as a temperature detection unit that detects the temperature of the room, and also functions as a body temperature detection unit that detects the temperature of the person in the room and monitors the presence of the person and the presence or absence of the person's body temperature.
- the temperature sensor 50 uses, for example, an infrared thermography that detects indoor infrared rays and performs image processing on the temperature distribution, and detects changes in the indoor temperature distribution and human body temperature.
- the display device 60 is formed of a thin display device such as a liquid crystal panel or an organic EL (organic electroluminescence) display, and is disposed in the approximate center of the front surface of the interior panel material 20.
- the display device 60 is a display unit that displays image information transmitted from the server, and also has a touch panel 64 on the screen, and thus functions as an input unit by operating the touch panel 64.
- the speaker 70 is an audio output unit for outputting audio information transmitted from the server, and also functions as a receiver for listening to an audio signal transmitted from the other party when performing an IP phone or video conference.
- the communication modem 80 is a communication unit that wirelessly transmits and receives via a film-like antenna 82.
- a communication board mounted on a mobile phone is housed in a resin case.
- the communication modem 80 is used, for example, as a communication unit for an extension telephone in a building (for example, between rooms).
- the infrared communication module 85 changes, for example, a control signal for turning on or off a home electric appliance (for example, a room air conditioner, a television, a stereo, etc.) installed in the room in accordance with a voice instruction of a person in the room, and a temperature setting of the air conditioner
- a control signal for turning on or off a home electric appliance for example, a room air conditioner, a television, a stereo, etc.
- a control signal for changing a television reception channel, a control signal for selecting a stereo performance piece, and the like are transmitted by infrared rays.
- the control unit 90 is a control device in which semiconductor elements such as a central processing unit (CPU) 94 (FIG. 6) and a memory 96 (FIG. 6) are mounted on a substrate, and includes a digital video camera 30, a microphone 40, a temperature sensor. 50, display device 60, speaker 70, communication modem 80, infrared communication module 85, and the like, as well as control modes such as an indoor monitoring control mode, an IP phone mode, and a video conference control mode. These control programs may be stored in advance.
- the control unit 90 functions as a control unit that sequentially executes, for each set time, the control mode designated by the selection operation of each control mode or each control mode reserved in advance for each time zone.
- Each device such as the digital video camera 30, microphone 40, temperature sensor 50, display device 60, speaker 70, communication modem 80, infrared communication module 85, and control unit 90 is formed on the surface (front surface) of the interior panel material 20. Since it is attached so that it may be accommodated in the recessed part for attachment made, it does not protrude from the front surface of the panel material 20 for interiors. Also, as shown in FIG.
- the panel material 20 is accommodated in a wiring groove 24 formed on the back surface so as not to protrude from the back surface.
- a wiring duct 26 extending in the vertical direction is attached to the left side surface of the interior panel material 20.
- the wiring duct 26 is formed of a resin material, an aluminum alloy material, or the like, and has a hollow structure having a space through which each cable is inserted.
- Fixing mechanisms 130 for fixing the communication wall panel 10 to the ceiling 110 and the floor 120 are provided at the lower right end and the right lower end (FIG. 1) of the interior panel member 20 as viewed from the lower end of the wiring duct 26 and the front. Yes.
- the fixing mechanism 130 includes a locking member 132 embedded in the ceiling 110 and the floor 120 and a stopper member 134 that is locked or unlocked by the locking member 132.
- the stopper member 134 is provided so as to be movable in the vertical direction (Z direction), and can be easily operated to the locking position or the locking release position. Therefore, the communication wall panel 10 is fixed to the ceiling 110 and the floor 120 at three positions by the fixing mechanism 130.
- the information acquisition unit including the digital video camera 30, the microphone 40, and the temperature sensor 50 includes any one, any two, or all of the digital video camera 30, the microphone 40, and the temperature sensor 50. But it ’s okay.
- the notification unit including the display device 60 and the speaker 70 may be configured to have either one or both.
- FIG. 4A is an enlarged view showing the connector member 100 at the upper end of the communication wall panel 10.
- FIG. 4B is an enlarged side view showing the attachment state of the connector member 100.
- FIG. 4C is an enlarged view showing the connection state of the connector member 100.
- the connector member 100 has a flange portion 102 that fits in a guide groove 28 formed at the upper end of the wiring duct 26 and the interior panel member 20 at the lower portion. It is slidably attached in the horizontal direction (X direction).
- a plurality of convex contact portions 104 are provided on the right side surface (FIG. 4A) of the connector member 100.
- An operation knob 106 is provided on the front surface of the flange portion 102 of the connector member 100 so as to pass through the opening 26a on the front surface side of the wiring duct 26. The operation knob 106 is slid rightward in FIG. 4A. Electrical connection can be made by operation.
- a recess 160 for accommodating the connector member 150 is formed in the ceiling 110 of the indoor wall 140 (FIG. 2) to which the communication wall panel 10 is attached.
- the recess 160 is formed with an insertion portion 162 into which the connector member 100 is inserted, and a plurality of concave contact portions 152 formed on the left side surface (FIG. 4A) of the connector member 150 are opposed to the insertion portion 162. Yes.
- the insertion part 162 is formed in the dimension shape larger than the connector member 100 made into the rectangular parallelepiped shape, the connector member 100 can be smoothly inserted and accommodated.
- the connector member 100 is covered with a metal cover member, and when the communication wall panel 10 is pressed, the communication wall panel 10 does not move any more due to contact with the inner wall of the insertion portion 162. Thus, it also functions as a stopper member.
- the connector member 100 When attaching the communication wall panel 10 to an indoor wall surface (wall portion 140), the connector member 100 is inserted into the insertion portion 162 of the concave portion 160 of the ceiling 110. Thus, the convex contact portion 104 of the connector member 100 faces the concave contact portion 152 of the connector member 150.
- the operation knob 106 is pressed rightward, the connector member 100 is slid toward the connector member 150, and the convex contact portion 104 is fitted and brought into contact with the concave contact portion 152. .
- the connector members 100 and 150 are held in an energized state in which the convex contact portion 104 and the concave contact portion 152 are electrically connected by a simple operation of sliding the connector member 100 toward the connector member 150.
- the mounting position of the connector member 100 is not limited to the upper left end as viewed from the front of the communication wall panel 10 as described above, and may be a position other than this.
- FIG. 5A is a front view showing a fixed state at the lower end of the wiring duct 26 of the fixing mechanism 130.
- FIG. 5B is a longitudinal sectional view showing a fixed state at the lower end of the wiring duct 26 of the fixing mechanism 130.
- FIG. 5C is a front view showing a state in which the fixing is released at the lower end of the wiring duct 26 of the fixing mechanism 130.
- FIG. 5D is a longitudinal sectional view showing a state in which the fixing is released at the lower end of the wiring duct 26 of the fixing mechanism 130.
- the fixing mechanism 130 includes a stopper member 134 that is locked to the locking member 132 embedded in the floor 120, and a direction in which the stopper member 134 is fitted to the locking member 132. And an urging member 136 for urging.
- the stopper member 134 is a fitting that extends downward through a sliding portion 134a housed in a housing portion 26b formed below the wiring duct 26 and a through hole 26c formed below the housing portion 26b.
- an insertion hole 26d through which the operation knob 134d is inserted is provided in the lower front surface of the wiring duct 26.
- the operation knob 134d is pushed upward against the urging force of the urging member 136, so that the stopper member 134 can be moved upward to be unlocked.
- the restriction on the communication wall panel 10 can be released by detaching the fitting portion 134 b of the stopper member 134 from the locking groove 132 a of the locking member 132 embedded in the floor 120.
- the stopper member 134 slides downward by the urging force of the urging member 136, and the engaging member 134b of the locking member 132 embedded in the floor 120 is inserted. It fits into the locking groove 132a. Thereby, the stopper member 134 is in a state in which the fitting portion 134b is restrained by the locking groove 132a of the locking member 132, the movement in the horizontal direction is restricted, and the communication wall panel 10 is locked to the floor 120. Retained.
- the fixing mechanism 130 is provided not only at the lower portion of the wiring duct 26 but also at the upper right end and the lower right end when viewed from the front of the communication wall panel 10 (FIG. 1). That is, the fixing mechanism 130 is provided at the corner of the communication wall panel 10 except for the portion where the connector member 100 is provided. Therefore, the communication wall panel 10 has the ceiling 110 and the floor 120 by sliding the stopper members 134 of the fixing mechanisms 130 provided at three positions to the locking positions where the stopper members 134 are fitted in the locking grooves 132a of the locking members 132. Fixed to.
- the stopper member 134 of the fixing mechanism 130 is detached from the locking groove 132a of the locking member 132, whereby the communication wall panel 10 can be easily moved, and the stopper member 134 of the fixing mechanism 130 is locked to the locking member 132.
- the communication wall panel 10 can be easily fixed to the ceiling 110 and the floor 120 by being fitted in the locking grooves 132a.
- the fixing mechanism 130 has the same configuration as the configuration shown in FIGS. 5A to 5D at the upper right end and the lower right end as viewed from the front of the communication wall panel 10 (FIG. 1).
- FIG. 6 is a block diagram showing a system configuration according to this embodiment.
- the system according to the present embodiment includes a communication wall panel 10 and a server 210.
- the control unit 90 includes a digital video camera 30, a microphone 40, a temperature sensor 50, a display device 60, a touch panel 64, a speaker 70, a communication modem 80, an infrared communication module 85, and cables 32, 42, 52. , 62, 72, 82, 86 are connected.
- the control unit 90 includes a communication unit 98 that performs communication with the server.
- the communication unit 98 includes, for example, a modem or a router.
- the communication unit 98 is used, for example, when performing an IP telephone over the Internet or a video conference with the outside.
- the control unit 90 (communication unit 98) is communicably connected to the server 210 via a LAN (Local Area Network) 200.
- the server 210 communicates via the Internet with a controller 220 that transmits a command to the control unit 90, a storage device 230 that includes a hard disk device that stores information transmitted from the control unit 90, and a host computer of the center 240. Communication device 250.
- control programs for various control modes executed by the control unit 90 may be stored in advance.
- various control modes for example, IP telephone mode, home appliance control mode, image monitoring control mode using the digital video camera 30, sound and vibration monitoring control mode using the microphone 40, room temperature and body temperature monitoring using the temperature sensor 50, for example.
- control unit 90 downloads a control program corresponding to the selected control mode from the storage device 230 of the server 210. You may do it. Then, the control unit 90 executes the selected control mode.
- control processing executed by the control unit 90 will be described with reference to the flowchart of FIG.
- step S11 of FIG. 7 the CPU 94 of the control unit 90 is one of the signals from the digital video camera 30, the microphone 40, the temperature sensor 50, and the touch panel 64 (for example, an image signal, an audio signal, a temperature detection signal, and an input signal). It is determined whether or not is acquired (received). If any of these signals is acquired (YES in step S11), it is detected that there is a person in the room, and it is determined that an activation signal for activating the system is obtained, and the process proceeds to step S11a. In step S11a, the CPU 94 outputs values (image signal, audio signal, temperature detection signal, input signal) obtained from each sensor (information acquisition unit such as the digital video camera 30, the microphone 40, the temperature sensor 50, and the touch panel 64).
- the output value (detection data) from the information acquisition unit is stored in the memory 96 in time series. New data is stored in a predetermined storage area of the memory 96 while sequentially deleting data whose storage period has passed. This data storage time (storage period) is set to a time corresponding to the storage capacity of the memory 96.
- the data stored in the memory 96 is updated by overwriting the old data with new data, and the output value for the past several seconds (for example, about 5 to 10 seconds) is always temporarily stored. It will be.
- each data signal (information) stored in the memory 96 is transmitted to the server 210.
- the server 210 stores each transmitted data in a large-capacity storage device 230 including a hard disk device.
- step S13 it is checked whether or not sound is detected by the microphone 40 in the room where the communication wall panel 10 is installed.
- the process proceeds to step S14, and voice print data included in the voice signal indicating the detected voice output from the microphone 40 is extracted.
- step S15 the voiceprint data registered (recorded) in the server 210 in advance is read and compared with the voiceprint of the voice signal output from the microphone 40.
- step S16 it is checked whether the patterns of both voiceprints match. If the voiceprint of the voice signal output from the microphone 40 does not match the voiceprint registered in advance (NO in step S16), the process proceeds to S17, and the voice is determined to be a guest (external person). If the voiceprint of the voice signal output from the microphone 40 matches the voiceprint registered in advance (YES in step S16), it is confirmed (authenticated) that the person is registered (voiceprint). Proceed to S18.
- step S18 it is checked whether or not the registered person has the authority to give an instruction to the control unit 90. If the registered person has the authority to give an instruction to the control unit 90 (YES in step S18), the process proceeds to step S19, where a voice instruction (for example, an instruction to make a call, an instruction to change the set temperature of the air conditioner) Etc.) is executed (processed).
- a voice instruction for example, an instruction to make a call, an instruction to change the set temperature of the air conditioner
- step S18 If the registered person does not have the authority to give an instruction to the control unit 90 (NO in step S18), the process proceeds to S20, and a response such as "no authority" is made by the speaker 70.
- step S21 the voice command is canceled.
- the identity of the registered person (authentication) and the presence / absence of authority can be confirmed by comparing the voiceprint data with the registered data, it is possible to reliably determine that the voice command is valid. .
- This indoor monitoring control mode may be a security mode for confirming safety that is set when the operator goes out. For example, control for confirming whether there is an abnormality such as an intruder who is away or a fire. It may be a mode.
- the CPU 94 of the control unit 90 checks whether or not an instruction to set the indoor monitoring control mode has been issued in step S31 of FIG. For example, when an instruction to set the indoor monitoring control mode is input by voice (YES in step S31), the process proceeds to step S32, and the control program for the indoor monitoring control mode is developed by downloading from the server 210, for example. When the download of the control program for the indoor monitoring control mode is completed, it is confirmed that the operator has gone out (for example, the door 40 is closed and a lock sound is detected by the microphone 40, or the temperature sensor 50 detects a change in temperature distribution for a predetermined time. If there is no image or a person's image cannot be obtained from the room by the digital video camera 30), the room monitoring control mode is entered.
- step S33 an indoor image (moving image) captured by the digital video camera 30 for a predetermined time (for example, 10 seconds) is acquired (received).
- step S34 a process of discriminating (detecting) the movement of a person from the indoor image is performed.
- step S35 it is determined whether there is a person's movement. If there is a person's movement in the absence room (YES in step S35), the process proceeds to step S43, where it is determined that there is an abnormality, an alarm is output from the speaker 70, and an abnormality occurrence signal is output to the server 210.
- step S35 when there is no movement of the person in the room where the user is absent (NO in step S35), the process proceeds to step S36, and a sound signal indicating the sound detected by the microphone 40 for a predetermined time (for example, 10 seconds) is acquired. .
- step S37 a process of discriminating (detecting) an operation sound included in the sound signal output from the microphone 40 is performed.
- the operation sound is an artificial sound excluding a normal operation sound (for example, a clock sound or a telephone sound).
- step S38 it is determined whether or not an operation sound different from normal is detected. If an operation sound different from normal is detected (YES in step S38), the process proceeds to step S43, where it is determined that there is an abnormality, an alarm is output from the speaker 70, and an abnormality occurrence signal is output to the server 210.
- step S38 when an operation sound different from normal is not detected (NO in step S38), the process proceeds to step S39, and a temperature detection signal indicating the temperature detected by the temperature sensor 50 is acquired (received).
- step S40 the presence / absence of an abnormal temperature (for example, a high temperature of 50 ° C. or higher) is determined from the temperature distribution in the room indicated by the temperature detection signal output from the temperature sensor 50.
- step S41 it is determined whether or not an abnormal temperature is detected from the indoor temperature distribution. If no abnormal temperature is detected from the indoor temperature distribution (NO in step S41), the process proceeds to step S42, where it is determined that there is no abnormality, and a signal indicating no abnormality is output to server 210. If an abnormal temperature is detected from the temperature distribution in the room (YES in S41), the process proceeds to step S43, where it is determined that there is an abnormality, an alarm is output from the speaker 70, and an abnormality occurrence signal is output to the server 210. .
- step S44 each sensor (digital video camera 30, microphone 40, temperature) stored in the memory 96 within a predetermined time period (arbitrary time set in advance) before and after the abnormality occurrence signal is output.
- An output value (image signal, audio signal, temperature detection signal) obtained from an information acquisition unit such as the sensor 50 is read.
- step S45 the output value (detection data) read from the memory 96 in step S44 is output to the server 210 as abnormal data.
- the server 210 stores the received data at the time of abnormality in the storage device 230, and further continuously outputs the latest output values from various sensors (information acquisition unit) (via temporary storage of the memory 96 or , Directly) is stored in the storage device 230.
- step S46 it is checked whether release of the indoor monitoring control mode has been operated.
- the room monitoring control mode cannot be instructed to be released (NO in step S46), and thus the processing from step S32 onward is repeated.
- the indoor monitoring control mode is canceled and the processing of the indoor monitoring control mode is terminated.
- the abnormality occurrence signal When the abnormality occurrence signal is output to the server 210 as described above, the abnormality occurrence signal is transferred from the server 210 to the host computer of the center 240, and the abnormality occurrence is notified from the center 240 to the security company, the police station, or the fire department. As a result, the security company's guards, police officers, or firefighters are dispatched to the room where the abnormality occurred.
- FIG. 9 is a plan view schematically showing an example of a care facility according to the present embodiment.
- the care facility 400 includes a plurality of rooms 402 arranged on both sides of the corridor 401. Since many of the care recipients who receive care at the care facility 400 sleep on the care bed 410 installed in each room 402, the communication wall panel 10 is installed on the wall surface near the care bed 410 in each room 402. It is desirable to do.
- each room 402 When moving a cared person, it will move through the corridor 401 from each room 402 mainly using a wheelchair.
- the communication wall panel 10 When the communication wall panel 10 is used for nursing care, the digital video camera 30 and the microphone 40 are fixed to each room 402 by fixing the communication wall panel 10 to the wall surface rather than arranging a plurality of devices individually. Since the temperature sensor 50, the display device 60, the touch panel 64, the speaker 70, the communication modem 80, the infrared communication module 85, and the control unit 90 can be installed at a time, each room 402 can be widely used. . In particular, when moving a wheelchair, it is not possible to place anything that obstructs the passage around the nursing bed 410. Therefore, by providing a communication wall panel 10 to save space, It becomes possible to secure.
- FIG. 10 is a block diagram showing a system configuration when a plurality of communication wall panels 10 are installed in a care facility.
- the same constituent elements as those already described are indicated by the same reference numerals except that the plurality of communication wall panels 10 are indicated by the reference numerals 10 1 to 10 n .
- a plurality of communication wall panels 10 1 to 10 n are connected to a server 210 installed in a care station by a LAN 200. Further, the server 210 is communicably connected to the host computer of the center 240 via the Internet.
- the control units 90 of the communication wall panels 10 1 to 10 n constantly monitor the status of the cared person in each room 402, and are acquired from the digital video camera 30, the microphone 40, and the temperature sensor 50 as an information acquisition unit. Each (received) data is transmitted to the server 210. Therefore, the caregiver can check the status of the care recipient in all the rooms 402 by operating the terminal device (for example, personal computer) 420 connected to the server 210.
- the terminal device for example, personal computer
- each control unit 90 checks whether or not an instruction to set the care control mode has been issued in step S101 of FIG. 11A. For example, when an instruction to set the care control mode is input by voice (YES in step S101), the process proceeds to step S102, and the control program for the care control mode is developed by downloading from the server 210, for example. When the download of the control program in the care control mode is completed, the mode shifts to the care control mode.
- step S103 an image (moving image) in the room 402 captured by the digital video camera 30 for a predetermined time (for example, 10 seconds) is acquired (received).
- step S ⁇ b> 104 it is determined from the image of the room 402 captured by the digital video camera 30 whether or not a care receiver is present. If the presence of the cared person cannot be confirmed (NO in step S104), the process proceeds to step S105 to notify the server 210 that the cared person is not in the room 402. Thereafter, the process returns to step S103, and the processes after step S103 are performed.
- step S104 when the presence of the cared person is confirmed from the image of the room 402 captured by the digital video camera 30, the process proceeds to step S106, where it is determined whether or not the cared person is in the care bed 410. To check. When the care receiver is not in the care bed 410 (NO in step S106), the process proceeds to step S107, and the server 210 is notified that the care receiver is not in the care bed 410.
- step S108 it is checked whether the care recipient is operating in the room 402 or not.
- the process returns to step S103, and the processes after step S103 are performed.
- the process proceeds to step S109 to check whether or not a predetermined time (for example, 20 seconds) set in advance has elapsed.
- step S109 when the predetermined time has not elapsed, the process returns to step S103, and the processes after step S103 are performed.
- step S109 when the predetermined time has elapsed, the process proceeds to step S110 in FIG. 11B, where it is determined that the care recipient cannot move in a place other than the care bed 410, and an alarm is issued from the speaker 70. To emit.
- step S111 an e-mail requesting that a caregiver be dispatched is sent to the server 210. Thereafter, the process returns to step S103, and the processes after step S103 are performed.
- step S 11A when the cared person is in the care bed 410 (YES in step S106), the process proceeds to step S112 to notify the server 210 that the cared person is in the care bed 410.
- step S113 of FIG. 11B it is checked from the image of the room 402 captured by the digital video camera 30 whether the state of the care recipient is normal. For example, if the cared person is moving his / her hand or foot violently, or if his / her posture is unnatural or his / her face is a painful expression (NO in step S113), the process proceeds to step S114, where the cared person is It is determined that the person is suffering from the care bed 410, and an alarm is issued from the speaker 70. Thereafter, the process proceeds to step S111, and an e-mail requesting that a caregiver be dispatched to the server 210 is transmitted. Thereafter, the process returns to step S103, and the processes after step S103 are performed.
- step S113 If the care receiver does not move on the care bed 410 (YES in step S113), the process proceeds to step S115, where the microphone 40 detects sound and vibration in the room 402 and acquires (receives) the sound signal. Subsequently, in step S116, it is checked whether or not the acquired audio signal includes an abnormal signal. For example, if a voice that the care recipient is likely to suffer, a word for help, a sound that drops an object on the floor, or a sound that breaks an object is detected (YES in step S116), the process proceeds to step S117. Then, it is determined that some kind of abnormality has occurred in the cared person, and an alarm (alarm) is issued from the speaker 70. Thereafter, the process proceeds to step S111, and an e-mail requesting that a caregiver be dispatched to the server 210 is transmitted. Thereafter, the process returns to step S103, and the processes after S103 are performed.
- step S115 the microphone 40 detects sound and vibration in the room 402 and acquires
- step S116 When the acquired audio signal does not include an abnormal signal (NO in step S116), the process proceeds to step S118, and a temperature detection signal indicating the temperature distribution in the chamber 402 detected by the temperature sensor 50 is acquired ( Receive).
- step S119 it is checked whether the body temperature of the care recipient is an abnormal value. If the cared person's body temperature is high (eg, 37 ° C or higher) or the cared person's body temperature is low (eg, 36 ° C or lower) (YES in step S119), it is determined in step S120 that the body temperature is abnormal. Then, an alarm (warning) is issued from the speaker 70. Thereafter, the process proceeds to step S111, and an e-mail requesting that a caregiver be dispatched to the server 210 is transmitted. Thereafter, the process returns to step S103, and the processes after step S103 are performed.
- step S119 If the body temperature of the cared person is not an abnormal value (for example, higher than 36 ° C. and lower than 37 ° C.) (NO in step S119), the process proceeds to step S121 to check whether the room temperature is an abnormal value. For example, when the room temperature is 22 ° C. or lower or 28 ° C. or higher (YES in step S121), the room temperature is determined to be an abnormal value, and the process proceeds to step S122, from the infrared communication module 85 to the temperature controller of the air conditioner. An infrared signal for temperature control is transmitted so as to adjust the set temperature.
- an abnormal value for example, higher than 36 ° C. and lower than 37 ° C.
- step S121 If the room temperature is higher than 22 ° C and lower than 28 ° C (NO in step S121), it is determined that the room temperature is appropriate, and the process proceeds to step S123 to indicate that the cared person has no abnormality. Is transmitted to the server 210.
- next step S124 it is checked whether or not a command for instructing cancellation of the care control mode is input (received).
- the instruction for canceling the care control mode is not input (NO in step S124)
- the process returns to step S103, and the processes in and after step S103 are repeated.
- the caregiver instructs to cancel the care control mode YES in step S124
- the care control mode is canceled and the care control mode processing ends.
- the care control mode may be instructed to be released.
- the communication wall panel 10 in each room 402, the status of the care recipient in all the rooms 402 can be confirmed, and if any abnormality occurs, the caregiver is dispatched immediately.
- the requested electronic mail can be confirmed by the terminal device 420. Therefore, the situation of a plurality of care recipients can be constantly monitored, and the caregiver can promptly help the care recipient who has an abnormality.
- the surface of the communication wall panel 10 (interior panel material 20) the same color as the surrounding wall, it is possible to avoid being aware that the cared person is being monitored and stress the cared person. It is possible to automatically notify abnormality so as not to give it.
- the control process in the care control mode when the communication wall panels 10 1 to 10 n are installed in each of the plurality of rooms 402 in the care facility has been described. It can also be applied when visiting home care at home.
- the communication wall panel 10 is installed in the room where the care bed of each home is installed, and is connected to the server 210 installed in the hospital or care facility via a communication line such as a telephone line. .
- FIG. 12 is a diagram schematically illustrating an example of a video conference system according to the present embodiment.
- the video conference system 500 includes a server 210 installed in each office (shown in Figure 12 the reference numerals 210 1 to 210 8), each server 210 (210 1 to 210 8) Communication wall panels 10 1 to 10 n connected via the LAN 200.
- Each server 210 (210 1 to 210 8 ) is connected to the Internet 510 via a communication device such as a router.
- each control unit 90 checks whether or not an instruction to set the video conference control mode has been issued in step S201 of FIG. For example, if an instruction to set the video conference control mode is input by voice (YES in step S201), the process proceeds to step S202, and the control program for the video conference control mode is developed by downloading from the server 210, for example. When the download of the video conference control mode control program is completed, the video conference control mode is entered.
- step S203 an indoor image (moving image) captured by the digital video camera 30 is acquired (received).
- step S204 the presence / absence of a conference participant is determined from an indoor image captured by the digital video camera 30. If the presence of the conference participant cannot be confirmed (NO in step S204), the process proceeds to step S205 to notify the server 210 that the conference participant is not in the room. Thereafter, the process proceeds to step S209 (described later), and the processes in steps S206 to S208 are omitted.
- step S204 When the presence of the conference participant is confirmed from the indoor image captured by the digital video camera 30 (YES in step S204), the process proceeds to step S206, and the indoor sound and vibration are detected by the microphone 40. Acquire (receive) audio signals. Subsequently, in step S207, it is checked whether or not the acquired voice signal contains a voiceprint statement that matches the voiceprint of the person registered in advance.
- step S207 If the voice signal that matches the voice print of the person is included in the voice signal (YES in step S207), the process proceeds to step S208, where the voice signal of the voice is extracted and transmitted to the server 210. At the same time, an indoor image (moving image) captured by the digital video camera 30 is transmitted to the server 210. In step S207, if there is no speech, the process in step S208 is omitted.
- step S209 it is checked whether or not there is a speech from another conference participant. If there is a speech from another conference participant (YES in step S209), the process proceeds to step S210, and the face image of the speaker (the other conference participant) transmitted from the server 210 is displayed on the display device 60. At the same time, the speaker's voice is output from the speaker 70. If there is no speech from another participant (NO in step S209), the process in step S210 is omitted.
- step S211 it is checked whether or not an instruction to cancel the video conference control mode has been input (received).
- the instruction to cancel the video conference control mode is not input (NO in step S211)
- the process returns to step S203, and the processes after step S203 are performed.
- an instruction to cancel the video conference control mode is input (YES in step S211)
- the video conference control mode is terminated.
- the server 210 executes control processing for distributing audio signals and image signals transmitted from the respective communication wall panels 10 1 to 10 n to the other communication wall panels 10 1 to 10 n. .
- the communication wall panel 10 is installed on the wall surfaces of a plurality of offices, the installation work is less time-consuming and the installation space is smaller than the case where the equipment for video conferencing is individually provided. It is possible to effectively use the limited space.
- each device in order to mount the information acquisition unit, the notification unit, the communication unit, and the control unit on the interior panel material, each device (each unit) is collectively attached by mounting the interior panel material indoors. It can be installed, and the installation work is greatly reduced compared to the case of installing each device individually, it can be installed efficiently, the wiring work between each device is simplified, and multiple cables are exposed. It becomes possible not to install.
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- Heart & Thoracic Surgery (AREA)
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- Emergency Alarm Devices (AREA)
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Abstract
Description
20 内装用パネル材
24 配線用溝
26 配線用ダクト
30 デジタルビデオカメラ
32,42,52,62,72,82,86,92 ケーブル
40 マイク
50 温度センサ
60 ディスプレイ装置
64 タッチパネル
70 スピーカ
80 通信モデム
85 赤外線通信モジュール
90 制御ユニット
94 CPU
96 メモリ
100 コネクタ部材
104 凸状コンタクト部
106 操作ノブ
110 天井
120 床
130 固定機構
132 係止部材
134 ストッパ部材
136 付勢部材
150 コネクタ部材
152 凹状コンタクト部
160 凹部
162 挿入部
210 サーバ
220 コントローラ
230 記憶装置
240 センタ
250 通信装置
400 介護施設
402 室
410 介護ベッド
420 端末装置
500 テレビ会議システム
510 インターネット
Claims (7)
- 室内の内壁材として取り付けられる内装用パネル材と、
該内装用パネル材に実装され、前記室内に居る人に関する情報を取得する情報取得部と、
前記内装用パネル材に実装され、前記室内に居る人に情報を報知する報知部と、
前記内装用パネル材に実装され、当該室以外の場所に設置されたサーバと通信を行なう通信部と、
前記内装用パネル材に実装され、前記情報取得部及び前記報知部を制御する制御部と、を備え、
前記通信部は、前記情報取得部から得られた情報をサーバに送信し、前記サーバから送信された情報を前記報知部に出力する通信用壁パネル。 - 前記内装用パネル材に設けられ、前記室内に設置されたコネクタに接続されるコネクタ部材を更に有し、
前記通信部は、前記コネクタ部材及び前記コネクタを介して前記サーバと通信可能に接続される請求項1に記載の通信用壁パネル。 - 前記内装用パネル材の裏面に配され、前記コネクタ部材、前記情報取得部、前記報知部、前記通信部、前記制御部に接続されるケーブルを更に有する請求項2に記載の通信用壁パネル。
- 前記情報取得部は、前記室内のデジタル画像を撮像する撮像部と、前記室内の音を検知する音検知部と、前記室内の温度を検知する温度検知部とのうち少なくとも何れか一つを含む請求項1に記載の通信用壁パネル。
- 前記報知部は、前記サーバから送信された画像情報を表示するディスプレイ装置と、前記サーバから送信された音声情報を発声するスピーカとのうち少なくとも何れか一方を含む請求項1に記載の通信用壁パネル。
- 被介護者の室内の内壁材として取り付けられる内装用パネル材と、
該内装用パネル材に実装され、前記室内に居る被介護者に関する画像情報及び音声情報を取得する情報取得部と、
前記内装用パネル材に実装され、前記室内に居る被介護者に外部からの画像情報及び音声情報を報知する報知部と、
前記内装用パネル材に実装され、通信を行なう通信部と、
前記内装用パネル材に実装され、前記情報取得部及び前記報知部を制御する制御部と、
前記情報取得部から得られた被介護者に関する画像情報及び音声情報を前記通信部から受信し、該受信した被介護者に関する画像情報及び音声情報を室内とは別の場所に設置された端末装置に送信するサーバと、
を備える介護システム。 - 複数の会議参加者の室内の内壁材として取り付けられる内装用パネル材と、
該内装用パネル材に実装され、該複数の会議参加者の内、一室内に居る第1の会議参加者に関する画像情報及び音声情報を取得する情報取得部と、
前記内装用パネル材に実装され、前記室内に居る第1の会議参加者に、該複数の会議参加者の内の第2の会議参加者に関する画像情報及び音声情報を報知する報知部と、
前記内装用パネル材に実装され、通信を行なう通信部と、
前記内装用パネル材に実装され、前記情報取得部及び前記報知部を制御する制御部と、
前記情報取得部から得られた前記第1の会議参加者に関する画像情報及び音声情報を前記通信部から受信し、前記第2の会議参加者に関する画像情報及び音声情報を前記通信部に送信するサーバと、
を備える会議システム。
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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JP2010535803A JP5162672B2 (ja) | 2008-10-28 | 2009-10-27 | 通信用壁パネル及び通信用壁パネルを備えた介護システム及び通信用壁パネルを備えた会議システム |
US13/122,465 US8755505B2 (en) | 2008-10-28 | 2009-10-27 | Communication wall panel, nursing care system having communication wall panel, and conference system having communication wall panel |
EP09823584.9A EP2343888A4 (en) | 2008-10-28 | 2009-10-27 | Communication wall panel, care system equipped with communication wall panel, and conference system equipped with communication wall panel |
Applications Claiming Priority (2)
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JP2008276738 | 2008-10-28 | ||
JP2008-276738 | 2008-10-28 |
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WO2010050474A1 true WO2010050474A1 (ja) | 2010-05-06 |
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US (2) | US8755505B2 (ja) |
EP (1) | EP2343888A4 (ja) |
JP (1) | JP5162672B2 (ja) |
WO (1) | WO2010050474A1 (ja) |
Families Citing this family (4)
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EP2343888A4 (en) * | 2008-10-28 | 2017-04-26 | University of Tsukuba | Communication wall panel, care system equipped with communication wall panel, and conference system equipped with communication wall panel |
JP4852159B2 (ja) * | 2010-02-24 | 2012-01-11 | 株式会社東芝 | 画像処理装置、画像処理方法および空調制御装置 |
US9690266B2 (en) * | 2011-09-19 | 2017-06-27 | Siemens Industry, Inc. | Building automation system control with motion sensing |
US9641885B2 (en) * | 2014-05-07 | 2017-05-02 | Vivint, Inc. | Voice control component installation |
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Also Published As
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US8755505B2 (en) | 2014-06-17 |
US20130321565A1 (en) | 2013-12-05 |
EP2343888A1 (en) | 2011-07-13 |
JP5162672B2 (ja) | 2013-03-13 |
EP2343888A4 (en) | 2017-04-26 |
JPWO2010050474A1 (ja) | 2012-03-29 |
US20110187812A1 (en) | 2011-08-04 |
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