JP4062516B2 - Living information management system and method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a life information management system and method for collecting and processing information on objects and consumers in a living environment and managing the information as life information.
[0002]
[Prior art]
Traditionally, human life has been surrounded by a large number of items, but human activities are often associated with certain of those items. The life information is, for example, information related to the storage location and operation status of the management object, the human whereabouts and the human behavior. If life management information is appropriately managed, the efficiency of searching for a management object can be improved. It is also easy to collect information on human behavior and the like. The prior art of a system that obtains such information by a sensor includes the following.
[0003]
In the conventional technology that discloses a consumer behavior determination system, the behavior determination device detects the behavior of the target person using, for example, a CCD camera or an infrared sensor, and further turns the TV power on / off or the refrigerator door. The action of the device is detected by detecting the operation of the device such as the opening / closing operation of the object and comparing the two types of detection results with the combination pattern of the behavior of the subject recorded in advance and the behavior of the device. If the patterns do not match, a warning is output (see Patent Document 1).
[0004]
The prior art that discloses an article usage status management system includes an abnormal situation monitoring system that uses a drug storage for the article as a medicine (see Patent Document 2). This abnormal situation monitoring system using a medicine storage stores a medicine in a box-shaped medicine storage with a door, and manages the use state of the medicine. A sensor that detects the opening and closing of the door of the medicine storage is installed inside the door, and based on the signal from the sensor, it is judged whether the door has been opened and closed during a specified time period, and the medicine is used according to the specified conditions. If not, an alarm is issued.
[0005]
[Patent Document 1]
JP 2001-34869 A
[Patent Document 2]
Japanese Patent Laid-Open No. 11-380
[0006]
[Problems to be solved by the invention]
In the behavior determination system as disclosed in Patent Document 1, a detector specialized for each device is necessary to detect the operation of the device, and a plurality of types of sensors are used to detect the behavior of the target person. There is a problem in terms of versatility and cost because it is necessary to install a plurality. Furthermore, observing the behavior of a consumer with a camera may impair the privacy of the consumer, and the consumer may not be able to perform natural living activities while being aware of the camera.
[0007]
In the article usage status management system disclosed in Patent Document 2, it is necessary to prepare a storage box according to the article, and it is difficult to store and manage a plurality of types of articles in one storage box. The problem is that.
[0008]
In view of the problems as described above, the present invention is highly versatile with respect to the management object, can efficiently detect the management object, and can manage the behavior information in the human living environment. An object of the present invention is to provide an information management system and method at a low cost.
[0009]
[Means for Solving the Problems]
  The present invention is a life information management system that collects and processes information on management objects and consumers in a living environment and manages the information as life information,
  A first data tag attached to the management object and having a record holding means for holding information on the management object, and a communication means capable of wirelessly communicating information with the outside;
  A second data tag carried by a consumer and having a record retaining means for retaining the information of the consumer, and a communication means capable of wirelessly communicating information with the outside;
  An observation device having communication means capable of information communication with the outside and wirelessly communicating information with the second data tag;
  Information processing means for performing processing for collecting and processing information transmitted and received through the observation device;
  An information terminal having display means for displaying the result processed by the information processing means,
  The communication means of the second data tag is:
  Communication distance in which wireless information communication with the first data tag can be reachedIs betterCommunication distance that can be reached wirelessly with the observation deviceShorter thanSet to be,
  The first data tag is attached to at least the door;
  The information terminal is installed at least near the door,
  When the information processing means receives information from the first data tag attached to the door via the observation device, the information processing means displays a list of items to be held toward an information terminal installed near the door. SendIt is a life information management system characterized by that.
[0011]
According to the present invention, the life information management system collects and processes information about the management object and the person in the living environment, manages the information as life information, and manages the first data tag and the second data tag. A data tag, an observer, an information processing means, and an information terminal are included. The first data tag is attached to the management object, and has a record holding means for holding information on the management object, and a communication means capable of wirelessly communicating information with the outside. The second data tag includes a recording and holding unit that is carried by a consumer and retains the information of the consumer, and a communication unit that can wirelessly communicate information with the outside. The observation device is capable of information communication with the outside, and particularly has a communication means capable of wireless information communication with the second data tag. The information processing means performs processing for collecting and processing information transmitted and received via the observation device. The information terminal has display means for displaying the result processed by the information processing means.
[0012]
  The communication means possessed by the second data tag is a communication distance that enables wireless information communication with the first data tag.Is betterCommunication distance that can be reached wirelessly with the observation devicethan,ShortSet to be. ThisAs a result, the communication distance between the first data tag and the second data tag is short, and the information communication between the consumer and the management object is limited to a narrow range of communication. It becomes possible to detect and collect only the action history of a highly likely consumer with high accuracy. In addition, since the communication distance between the observation device and the second data tag is long and the information communication between the consumer and the observation device is expanded to a wide range, it is possible to detect a behavior history over a wide range of the consumer. , The flexibility of the place where the observation machine is installed increases.
  Moreover, in the present invention, the first data tag is attached to at least the door, and the information terminal is installed at least near the door. When the information processing means receives the information from the first data tag attached to the door via the observation device, the information processing means displays a list of items to be held toward the information terminal installed near the door. Send. The information terminal that has received the list of items to be possessed from the information processing means displays the list of items to be possessed on the display means. A person in the vicinity of the door can check the items to be held based on the list of items to be held displayed on the display means of the information terminal provided in the vicinity of the door. it can.
[0013]
Further, the present invention is characterized in that infrared communication is used for the wireless information communication.
[0014]
According to the present invention, infrared communication is used for wireless information communication. When considering wireless communication like this system, infrared communication, RFID, and radio waves (Bluetooth, etc.) can be cited as communication method candidates. Among these, RFID can perform short-distance communication, but cannot perform medium-distance communication based on a small antenna. In addition, regarding the radio wave system, it is necessary to frequently replace the battery at a current value of about 50 mA, and it is difficult to limit the communication distance. In infrared communication, the current value may be about several mA, and the communication distance can be easily changed. Furthermore, when security is taken into consideration, there is little risk of intercepting infrared rays communicated with light.
[0015]
In the present invention, the communication means of the second data tag is:
By changing the modulation frequency of the infrared rays used for wireless information communication, the wireless data communication with the first data tag can be reached, and the wireless information communication with the observation device can be reached. The communication distance is set to a different length.
[0016]
According to the present invention, the communication means possessed by the second data tag can communicate wirelessly with the first data tag by changing the infrared modulation frequency used for wireless information communication. The distance and the communication distance that can be reached by wireless information communication with the observation device are set to different lengths. In this way, a simple configuration that changes the modulation frequency of infrared rays used for wireless communication enables a life of a consumer to detect and communicate information on a managed object with high accuracy over a wide range of activities. An information management system is realized.
[0017]
  Further, the present invention attaches to the management object a first data tag that holds information on the management object and enables information communication with the outside wirelessly,
  Have a second person carry a second data tag that holds the information of the consumer and can communicate with the outside wirelessly,
  Install an observation device capable of information communication with the outside, in particular capable of wireless information communication with the second data tag,
  Collects and processes information sent and received through the observation device, displays the processing result on display means provided in the information terminal, and manages it as living information about the management object and the person in the living environment In the life information management method to
  The second data tag is:
  Reachable communication distance of wireless information communication with the first data tagIs better, The reachable communication distance of wireless information communication with the observation deviceShorter thanInformation communicationAnd
  The first data tag is attached to at least the door;
  The information terminal is installed at least near the door,
  The display means provided in the information terminal installed in the vicinity of the door receives a list of items to be possessed as a processing result when receiving information from the first data tag attached to the door via the observation device. displayIt is a life information management method characterized by doing.
[0018]
According to the present invention, a first data tag is attached to an object to be managed, a second data tag is carried by a consumer, an observation device capable of information communication with the outside is installed, and transmitted / received via the observation device. By collecting and processing the information, the information can be managed as life information regarding the management object and the person in the living environment. In transmission / reception of information, that is, information communication, the second data tag includes a communication distance that allows wireless information communication with the first data tag, and a communication distance that enables wireless information communication with the observation device. Are set to different lengths.
[0019]
  thisThe information communication between the consumer and the management object is limited to a narrow range of communication, so it is possible to accurately detect and collect only the action history of the consumer who is likely to have actually been performed. In addition, since the communication distance between the observation device and the second data tag is long and the information communication between the consumer and the observation device is extended to a wide range, it is possible to detect a wide range of behavior history of the consumer. In addition, a living information management method with a high degree of freedom in the place where the observation machine is installed is realized.
  Moreover, in the present invention, the first data tag is attached to at least the door, and the information terminal is installed at least near the door. The display means provided in the information terminal installed in the vicinity of the door has a list of items to be possessed as processing results when information from the first data tag attached to the door is received via the observation device. Is displayed. A person in the vicinity of the door can check the items to be held based on the list of items to be held displayed on the display means of the information terminal provided in the vicinity of the door. it can.
[0020]
  In addition, the present invention collects information on management objects and consumers in the living environment.It is a life information management system that processes and manages it as life information,
  A first data tag that is attached to a management object, retains its own identification data, and transmits its identification data by infrared information communication;
  The identification data of the first data tag received from the first data tag is received from the first data tag by the information communication using infrared rays and received from the first data tag by the information communication using infrared rays. A second data tag for transmitting data;
  An observation device installed in a living environment and receiving data including identification data of the first data tag from the second data tag by information communication using infrared rays;
  Information processing means for collecting and processing data including identification data of the first data tag via an observation device,
  Living information characterized in that the communication distance between the first data tag and the second data tag is set to be shorter than the communication distance between the second data tag and the observation device. Management systemIt is.
[0021]
  According to the present invention,The first data tag is attached to the management object, and the second data tag is carried by a consumer. The observation machine is installed in the living environment. The first data tag holds its own identification data. The identification data of the first data tag is transmitted from the first data tag to the second data tag by information communication using infrared rays. Data including the identification data is transmitted from the second data tag to the observation device by information communication using infrared rays. The information processing means collects and processes the data including the identification data of the first data tag through the observation device.
  The communication distance between the first data tag and the second data tag is set to be shorter than the communication distance between the second data tag and the observation device. As a result, the information communication between the first data tag and the second data tag is limited to a narrow range of communication, so that only the behavior history of a consumer who is likely to have been actually detected is detected with high accuracy. Can be collected. On the contrary, since the information communication between the second data tag and the observation device is extended to a wide range, the degree of freedom of the installation location of the observation device can be increased.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a diagram showing a simplified configuration of a life information management system 1 according to an embodiment of the present invention. The life information management system 1 is a data that is a first data tag attached to a management object and having a record holding means for holding the information of the management object and a communication means capable of wireless information communication with the outside. Tag 2a, 2b, 2c, 2d, a second data tag having a record holding means that is carried by a consumer and holds the information of the consumer, and a communication means capable of wireless information communication with the outside The personal tags 3a, 3b can communicate with the outside, and the personal tags 3a, 3b have observation means 4a, 4b, 4c, 4d having communication means capable of wireless information communication, and the observation apparatuses 4a, 4b, There is a server 5 that is an information processing means 5 that performs processing for collecting and processing information transmitted and received via 4b, 4c, and 4d, and a display means for displaying the results processed by the server 5. That includes information terminals 6a, 6b, 6c, and 6d, and processed to collect information about the consumers and the management object in living environment, is used to manage the life information.
[0023]
In the life information management system 1 shown in FIG. 1, the data tags 2a, 2b, 2c, 2d, personal tags 3a, 3b, observation devices 4a, 4b, 4c, 4d, information terminals 6a, 6b, 6c, 6d are Although there are a plurality of each, when each is represented collectively, the alphabetical suffix is omitted.
[0024]
FIG. 2 is a block diagram showing a simplified configuration of the data tag and personal tags 2 and 3. The data tag and the personal tags 2 and 3 have the same basic configuration, and as described above, the record holding unit 11 that holds information on the management object or the consumer, and the communication unit 12 that can perform information communication wirelessly with the outside. And a control unit 13 for controlling the communication operation of the data tags and personal tags 2 and 3 and the operation of writing / reading information to / from the record holding means 11.
[0025]
FIG. 2B is a block diagram showing a specific example of the configuration of the personal tag 3. The control unit 13 is a processing circuit realized by, for example, a microcomputer on which a central processing unit (abbreviated CPU) 13a is mounted. The record holding unit 11 is a memory 11a in which, for example, a random access memory (abbreviated as RAM), which can write / read data at any time, is preferably used. The communication means 12 includes an infrared transmitter 12a that oscillates infrared rays and an infrared receiver 12b that receives infrared rays. The infrared transmission device 12a can transmit infrared rays of two types of modulation frequencies of 1.5 MHz and 38 kHz, and the infrared reception device 12b receives infrared rays of two types of modulation frequencies of 1.5 MHz and 38 kHz. be able to.
[0026]
FIG. 2C is a block diagram illustrating a specific example of the configuration of the data tag 2. The control unit 13 and the record holding unit 11 of the data tag 2 are configured by a CPU 13c and a memory 11c, like the personal tag 3. However, although the communication means 12 is similar to the personal tag 3 in that it includes an infrared transmission / reception device, the infrared transmission device 12c and the infrared reception device 12d transmit / receive infrared rays having a modulation frequency of 1.5 MHz. Can only do.
[0027]
The personal tag 3 as described above that is carried by a consumer constitutes a data tag device according to another embodiment of the present invention. Between the personal tag 3 and the data tag 2, the modulation frequency is common to the infrared transmission device 12 a and the infrared reception device 12 b of the personal tag 3 and the infrared transmission device 12 c and the infrared reception device 12 d of the data tag 2. Information communication is performed using 5 MHz infrared rays.
[0028]
FIG. 3 is a block diagram showing a simplified configuration of the observation device 4. The observation device 4 includes a communication means 14 capable of wireless and wired information communication with the outside, a record holding means 15 for recording data based on the information communication, a communication operation of the observation device 4 and a record holding means 15 And a control unit 16 for controlling information writing / reading operations.
[0029]
FIG. 3B is a block diagram illustrating a specific example of the configuration of the observation device 4. The control unit 16 and the record holding unit 15 of the observation device 4 are configured by a CPU 16a and a memory 15a as in the personal tag 3. The communication means 14 provided in the observation device 4 includes an infrared transmission device 14a and an infrared reception device 14b that perform wireless information communication, and a Local Area Network / Interface 14f (abbreviated as LAN / IF) that performs wired information communication. The The infrared transmission device 14a and the infrared reception device 14b can transmit and receive infrared rays having a modulation frequency of 38 kHz. The LAN / IF 14f is an interface for inputting / outputting information, and the observation device 4 can perform information communication with the information terminal 6 via the LAN / IF 14f via the server 5 and the server 5 in a wired manner. .
[0030]
Between the personal tag 3 carried by a consumer and the observation device 4, the infrared transmission device 12a and the infrared reception device 12b of the personal tag 3 and the infrared transmission device 14a and the infrared reception device 14b of the observation device 4 are common. Information communication is performed using an infrared of 38 kHz that is a modulation frequency.
[0031]
FIG. 4 is a diagram illustrating a state of information communication using infrared rays between the personal tag 3, the data tag 2, and the observation device 4. As described above, information communication is performed between the infrared transmission / reception devices 12a and 12b of the personal tag 3 and the infrared transmission / reception devices 14a and 14b of the observation device 4 at a modulation frequency of 38 kHz. The reaching distance is set to about 5 m. On the other hand, between the infrared transmission / reception devices 12a and 12b of the personal tag 3 and the infrared transmission / reception devices 12c and 12d of the data tag 2, information communication is performed at a modulation frequency of 1.5 MHz. The reach is set to about 2 m. In this way, by using infrared rays having different modulation frequencies for information communication for information communication, the reach of information communication can be set different for each modulation frequency.
[0032]
The reason why the reach of information communication can be set differently depending on the difference in modulation frequency will be described below. FIG. 5 is a diagram showing the difference in the rise delay time of the LED drive current due to the difference in the infrared modulation frequency. FIG. 5 illustrates a case where the infrared transmission device 12a included in the personal tag 3 transmits infrared rays having modulation frequencies of 1.5 MHz and 38 kHz.
[0033]
In infrared communication using a light emitting diode (abbreviated as LED) as a light source provided in the infrared transmission device 12a, based on a control signal from the CPU 13a which is the control unit 13, an LED drive circuit provided in the infrared transmission device 12a drives a drive current to the LED. Will be washed away. At this time, the drive current that flows through the LED requires a certain time for the rise until it reaches the set output current I1 and becomes a stable output state due to the gate parasitic capacitance of the transistor included in the LED drive circuit, and is a so-called delay time. Produce.
[0034]
When information communication is performed at an infrared modulation frequency of 1.5 MHz shown in FIG. 5A, the transmission time t1 of one rectangular wave (hereinafter referred to as a pulse) is short because of the high modulation frequency, and is shown in FIG. 5B. When information communication is performed at an infrared modulation frequency of 38 kHz, since the modulation frequency is low, the transmission time t2 of one pulse is longer than the transmission time t1 of the previous 1.5 MHz (t2> t1). On the other hand, since the delay time until reaching a stable output state is determined by the performance of the transistor provided in the LED drive circuit, the delay time td1 when the drive current flows at a modulation frequency of 1.5 MHz, and the drive current at the modulation frequency of 38 kHz. The delay time td2 when flowing is a value (td1≈td2) that is almost unchanged. Therefore, the ratio of the delay time to the transmission time per pulse is larger when the modulation frequency is 1.5 MHz than when the modulation frequency is 38 kHz {(td1 / t1)> (td2 / t2)}.
[0035]
Thus, the higher the modulation frequency, the shorter the transmission time of one pulse, so that the amount of radiated LED light that is proportional to the integrated value of the LED drive current per pulse decreases, and as described above, one pulse. Since the ratio of the delay time to the per-transmission time is increased, the amount of light emitted from the LED is further reduced. Since the transmission distance, which is the reach of information communication by the infrared transmitter 12a, is proportional to the amount of radiated light from the LED, when the output current I1 is set to be the same regardless of the modulation frequency, the transmission frequency 1 is high. The communication distance can be made longer at 38 kHz having a lower modulation frequency than .5 MHz. In the present embodiment, as described above, the transmission distance is set to about 5 m when the modulation frequency is 38 kHz, and the transmission distance is set to about 2 m when the modulation frequency is 1.5 MHz.
[0036]
FIG. 6 is a block diagram showing a simplified configuration of the server 5. The server 5 includes a communication unit 17 capable of communicating information with the outside by wire, an information processing unit 18 that collects and processes information transmitted / received via the observation device 4, and the observation device 4. Record holding means 19 for recording and holding information transmitted and received and information processing results, communication operation of the server 5 and information writing / reading operation to the record holding means 15, and information processing operation of the information processing section 18 The control part 20 which controls this is provided.
[0037]
FIG. 6B is a block diagram illustrating a specific example of the configuration of the server 5. The control unit 20 and the information processing unit 18 of the server 5 are configured by a CPU 20a (18a), and the record holding unit 19 is configured by a memory 19a such as a RAM as described above. The wired communication means 17 of the server 5 is configured by a LAN / IF 17a, similar to the wired communication means 14f provided in the observation device 4 described above. The server 5 can communicate information with the observation device 4 and the information terminal 6 through the LAN / IF 17a.
[0038]
FIG. 7 is a block diagram showing a simplified configuration of the information terminal 6. The information terminal 6 is transmitted / received via the server 5, the communication means 21 capable of communicating information with the outside by wire, the information processing unit 22 that collects and processes information transmitted / received via the server 5, and the server 5. Recording and holding means 23 for recording and holding information and information processing results, display unit 24 for displaying information and information processing results transmitted and received through the server 5, and communication operation and recording and holding of the information terminal 6 And a control unit 25 for controlling the information writing / reading operation to the means 23, the information processing operation of the information processing unit 22, and the display operation on the display unit 24.
[0039]
FIG. 7B is a block diagram illustrating a specific example of the configuration of the information terminal 6. The control unit 25 and the information processing unit 22 of the information terminal 6 are configured by a CPU 25a (22a), and the record holding unit 23 is configured by a memory 23a such as a RAM. The wired communication means 21 is constituted by a LAN / IF 21a, and the information terminal 6 can communicate information with the observation device 4 via the server 5 and the server 5 via the LAN / IF 21a. The display unit 24a is a monitor 24a configured to include, for example, a liquid crystal or a cathode ray tube. The display unit 24a displays the above-described information and the information processing result, and an input function from a consumer to the server 5 by a so-called touch pen method or the like. It may be configured to serve as both. The input function is not limited to the touch pen method, and may be configured to be provided separately with a keyboard or the like.
[0040]
FIG. 8 is a perspective view showing a schematic configuration of a room 26 in which the living information management system 1 shown in FIG. 1 is installed. The “living environment” referred to in the present invention includes a house, a store, a factory or office of a company included in the range of action in human life. In FIG. 8, one room 26 in a house is shown as an example of a living environment.
[0041]
The personal tag 3a is carried by a person 27 who is a consumer who uses the room 26 as a living environment. The data tag 2 is attached to an object that needs to manage the action record of the person 27, the data tag 2a is attached to a medicine bag, for example, and the data tag 2b is attached to a door 28 that is an entrance to the room 26. It is done. In these data tags 2, information relating to management objects attached thereto is held in the record holding means 11. The observation devices 4a, 4b, and 4c are attached to the wall surface or ceiling near the corner portion of the room 26, and observe the behavior of the person 27 and the person 27 with respect to the managed object by information communication with the personal tag 3a.
[0042]
The server 5 that collects and processes the action history of the person 27 on the management target by information communication is installed below the floor, and the place where the server 5 is attached is not particularly limited. Since the information terminal 6a is preferably configured to have an interface function with the person 27, the information terminal 6a is installed near the door 28 in the room 26, for example, in a position where the person 27 can easily see the person 27 and perform an input operation. . The living information management system 1 collects and processes information on the management object in the room 26 which is a living environment and the person 27 who is a living person, and manages the information as living information.
[0043]
The operation of each part constituting the life management information system 1 will be described below. 9 is a flowchart for explaining the operation of the personal tag 3, FIG. 10 is a flowchart for explaining the operation of the data tag 2, FIG. 11 is a flowchart for explaining the operation of the observation device 4, and FIG. It is a flowchart explaining operation | movement of.
[0044]
First, the operation of the personal tag 3 will be described with reference to FIG. At the start, not only the personal tag 3 but also the other data tag 2, the observation device 4, the server 5 and the information terminal 6 constituting the living information management system 1 are all in an operable state with the switch ON. .
[0045]
In step p1, a signal is transmitted from the infrared transmission device 12a toward the data tag 2 with infrared light having a modulation frequency of 1.5 MHz. In step p2, the CPU 13a determines whether or not a data tag ID, which is a return signal from the data tag 2, has been received. When the determination result is affirmative and the data tag ID is received, the process proceeds to step p3. When the determination result is negative and the data tag ID is not received, the process proceeds to step p7.
[0046]
In step p3, the received data tag ID, reception date and time, etc. are stored in the memory 11a. In step p4, the personal tag ID is transmitted together with the data tag ID and the reception date / time described above from the infrared transmission device 12a to the observation device 4 using infrared rays with a modulation frequency of 38 kHz. In step p5, the CPU 13a determines whether or not the personal tag 3 has received a “reception successful” reply signal indicating that the observation device 4 has received the information of the data tag ID, the reception date and time, and the personal tag ID. Is done. When the determination result is affirmative, the process proceeds to step p6. When the determination result is negative, the process proceeds to step p7. In step p6, the data stored in the memory 11a of the personal tag 3 is deleted, and the process returns to step p1.
[0047]
In step p7, which proceeds when the determination results in steps p2 and p5 are negative, the CPU 13a determines whether or not a predetermined time has elapsed since the information was transmitted to the observation device 4. When the determination result is affirmative and the predetermined time has elapsed, the process proceeds to step p8. When the determination result is negative and the predetermined time has not elapsed, the process returns to step p1 and the subsequent steps are executed. In step p8, the CPU 13a determines whether or not the communication record with the data tag 2 is held in the memory 11a. When the determination result is affirmative and the communication record is held, the process returns to step p4 and the subsequent steps are executed. When the determination result is negative and no communication record is held, the process returns to step p1 and the subsequent steps are executed.
[0048]
The operation of the data tag 2 will be described with reference to FIG. Step d1 is an operation performed in accordance with the operation of step p1 of the personal tag 3 shown in FIG. 9, and a transmission signal with a modulation frequency of 1.5 MHz from the infrared transmission device 12a included in the personal tag 3 is transmitted to the infrared reception device 12d. It is determined by the CPU 13c whether or not it has been received. When the determination result is affirmative, the process proceeds to step d2. In step d2, the data tag ID is transmitted toward the personal tag 3 from the infrared transmission device 12c using infrared light having a modulation frequency of 1.5 MHz. When the determination result is negative and no signal is received, the operation of step d1 is repeatedly executed.
[0049]
The operation of the observation device 4 will be described with reference to FIG. Step w1 is an operation performed in accordance with the operation of step p4 of the personal tag 3 shown in FIG. 9, and a transmission signal with a modulation frequency of 38 kHz from the infrared transmission device 12a provided in the personal tag 3 is received by the infrared reception device 14b. It is judged by the CPU 16a whether or not it has been done. When the determination result is affirmative, the process proceeds to step w2. In step w2, the personal tag ID, the data tag ID, and the reception date and time are stored in the memory 15a, and a “successful reception” signal is transmitted from the infrared transmission device 14a to the personal tag 3 by infrared rays having a modulation frequency of 38 kHz. When the determination result is negative and no reception is made, the process returns to step w1.
[0050]
In step w3, the personal tag ID, the data tag ID, the reception date and time, and the observation device ID are transmitted from the observation device 4 to the server 5 through the LAN / IF 14f in a wired manner. In step w4, the CPU 16a determines whether or not the observation device 4 has received a “reception successful” reply signal indicating that the server 5 has received the personal ID, data tag ID, reception date and time, and observation device ID information. Is judged by. When the determination result is affirmative, the process proceeds to step w5. When the determination result is negative and is not received, the process returns to step w3 to execute the subsequent steps. In step w5, the data stored in the memory 15a provided in the observation device 4 is deleted, and the process returns to step w1.
[0051]
The operation of the server 5 will be described with reference to FIG. Step s1 is an operation performed in accordance with the operation of step w3 of the observation device 4 shown in FIG. 11, and a transmission signal from the LAN / IF 14f, which is a wired information communication means provided in the observation device 4, is transmitted by the LAN / IF 17a. The CPU 20a determines whether or not it has been received. When the determination result is affirmative, the process proceeds to step s2. In step s2, the observation device ID, personal tag ID, data tag ID, and reception date and time are stored in the memory 19a, and a “reception successful” signal is transmitted from the LAN / IF 17a to the observation device 4. When the determination result is negative and no reception is made, the process returns to step s1.
[0052]
FIG. 13 is a block diagram showing a specific example of the configuration of the personal tag 31 and the observation device 35 provided in the life information management system according to the second embodiment of the present invention. The personal tag 31 and the observation device 35 provided in the life information management system of the present embodiment are similar to the personal tag 3 and the observation device 4 provided in the life information management system 1 of the first embodiment, and the corresponding parts are the same. The reference numerals are attached and the description is omitted. The data tag, server, and information terminal provided in the life information management system of the present embodiment are configured in the same manner as the data tag 2, server 5, and information terminal 6 provided in the life information management system 1 according to the first embodiment. The
[0053]
FIG. 13A shows a specific configuration of the personal tag 31. The personal tag 31 according to the present embodiment is characterized in that the infrared receiving device 32 is set so as to receive only one type of infrared having a modulation frequency of 1.5 MHz.
[0054]
FIG. 13B shows a specific example of the configuration of the observation device 35. The observation device 35 of the present embodiment is characterized in that the infrared transmission device 36 is set to transmit infrared light with a modulation frequency of 1.5 MHz and to transmit at high output. High-power transmission in the infrared transmitter 36 can be realized by setting the LED drive current to be large. That is, the LED drive current for transmitting infrared light with a modulation frequency of 1.5 MHz in the present embodiment is larger than the LED drive current for transmitting infrared light with a modulation frequency of 38 kHz in the first embodiment. By setting in this way, even if the frequency is high, a transmission distance equivalent to that when the frequency is low can be realized.
[0055]
FIG. 14 is a diagram illustrating a state of information communication using infrared rays between the personal tag 31, the data tag 2, and the observation device 35. Information communication is performed between the infrared transmission device 12a of the personal tag 31 and the infrared reception device 14b of the observation device 35 at a modulation frequency of 38 kHz as in the first embodiment, and the reach of the information communication is about 5 m. Set to On the other hand, between the infrared transmitter 36 of the observation device 35 and the infrared receiver 32 of the personal tag 31, although the modulation frequency is 1.5 MHz, information communication is performed with a high transmission output, so the modulation frequency is high. Nevertheless, the reach of the information communication is set to about 5 m, which is the same as that in the case of the information communication with the previous modulation frequency of 38 kHz.
[0056]
As in the first embodiment, information communication is performed between the infrared transmission / reception devices 12a and 31 of the personal tag 31 and the infrared transmission / reception devices 12c and 12d of the data tag 2 as in the first embodiment. Accordingly, the reach of the information communication is set to about 2 m.
[0057]
In this way, the reach of information communication can also be set to be different by changing the infrared transmission output used for information communication. In the second embodiment, the infrared receiving device 32 provided in the personal tag 31 may have a function of receiving only infrared rays having a modulation frequency of 1.5 MHz, and the infrared receiving device provided in the personal tag 3 in the first embodiment. There is no need to provide a configuration having a function of receiving two types of infrared rays with modulation frequencies of 1.5 MHz and 38 kHz unlike the device 12b. Therefore, the infrared receiving device 32 of the personal tag 31 can be simplified.
[0058]
Whether the configuration of the personal tag and the observation device is configured as in the first embodiment or the configuration of the second embodiment, considers the power consumption, dimensions, cost, etc. of the personal tag and the observation device. Just decide.
[0059]
Example 1
In the first embodiment, a personal belongings check operation by the living information management system 1 when a person 27 who is a consumer goes out will be described. FIG. 15 is a flowchart for explaining the operation of the personal tag 3, and FIG. 16 is a flowchart for explaining the operation of the server 5. Since the basic operation is the same as the flowcharts shown in FIGS. 9 to 12, only the operations of the personal tag 3 and the server 5 will be described here.
[0060]
The operation of the personal tag 3 will be described with reference to FIG. At the start, the data tag 2b is attached to the door 28, and each part constituting the life information management system 1 is in an operable state with the switch ON.
[0061]
In step p11, a signal is transmitted from the personal tag 3a carried by the person 27 toward the data tag 2b attached to the door 28. In step p12, it is determined whether or not a data tag ID, which is a return signal from the data tag 2b attached to the door 28, has been received. When the determination result is affirmatively received, the process proceeds to step p13. When the determination result is negative and not received, the process returns to step p11 to perform the subsequent operations.
[0062]
In step p13, the received data tag ID and the reception date and time are recorded. In step p14, the recorded information and personal tag ID are transmitted to the observation device 4. In step p15, it is determined whether or not a “successful reception” message, which is a reply signal from the observation device 4, has been received. When the determination result is affirmative, the process proceeds to step p16. When the determination result is negative, the process returns to step p14 and the subsequent operations are performed. In step p16, the information recorded in the personal tag 3a is deleted, and the process returns to step p11.
[0063]
The operation of the server 5 will be described with reference to FIG. Step s11 corresponds to the transmission of the observation device ID, which is information communication from the observation device 4 to the server 5 omitted in the flowchart, the data tag ID of the data tag 2b attached to the door 28, the personal tag ID, and the reception date and time. It is determined whether or not the aforementioned information has been received from the observation device 4. When the determination result is affirmative and a signal is received, the process proceeds to step s12. When the determination result is negative and no signal is received, step s11 is repeatedly executed.
[0064]
In step s 12, the received information is recorded and a “reception successful” message is transmitted to the observation device 4. In step s13, the presence / absence of a message attached in advance in association with the data tag ID of the data tag 2b attached to the door 28 is determined. When the determination result is affirmative and there is a message, the process proceeds to step s14. When the determination result is negative and there is no message, the process returns to step s11.
[0065]
In step s14, a “list of items to be held” which is a message attached in advance in association with the data tag ID is transmitted to the information terminal 6. For example, a message associated with a data tag ID such as “list of items to be possessed” can be read and used together with the data tag ID by storing in advance in the memory 11c provided in the data tag 2b. .
[0066]
Although not shown, the information terminal 6 a that has received the “list of items to be held” from the server 5 displays the “list of items to be held” on the monitor 24 a that is a display unit. The person 27 in the vicinity of the door 28 can check the items to be held based on the “list of items to be held” displayed on the monitor 24a of the information terminal 6a provided in the vicinity of the door 28. Occurrence can be prevented.
[0067]
(Example 2)
In the second embodiment, a taking time management operation by the living information management system 1 when a person 27 who is a consumer takes medicine every day will be described. FIG. 17 is a flowchart for explaining the operation of the server 5. Since the basic operation is the same as the flowchart shown in FIGS. 9 to 12, only the operation of the server 5 will be described here. Here, the person 27 or the caregiver inputs a predetermined time at which the medicine should be taken in advance from the input means of the information terminal 6a, and the input information is transmitted to the server 5 by wired information communication. 5 memory 19a. In addition, a data tag 2a is attached to a medicine bag that is a management object.
[0068]
In step s21, it is determined whether or not the set schedule time has been reached based on the clock function provided in the server 5 and the information related to the medicine taking time set in advance. When the determination result is affirmative and the set time, the process proceeds to step s22. When the determination result is negative and not the set time, step s21 is repeatedly executed. In step s22, the communication record in the memory 19a is searched, and it is determined whether there is no communication record with the data tag 2a attached to the medicine bag within the past 30 minutes. When the determination result is affirmative and there is no communication record, the process proceeds to step s23. When the determination result is negative and there is a communication record, the process returns to step s21.
[0069]
In step s23, an instruction signal for displaying the message “medicine time” is transmitted to the information terminal 6. In step s24, it is determined whether or not 30 minutes have elapsed since the time set for taking the medicine. When the determination result is affirmative and 30 minutes have passed, the process proceeds to step s25. When the determination result is negative and 30 minutes have not elapsed, step s24 is repeatedly executed. In step s25, the communication record in the memory 19a is searched, and it is determined whether there is no communication record with the data tag 2a attached to the medicine bag within the past 30 minutes. When the determination result is affirmative and there is no communication record, the process proceeds to step s26. When the determination result is negative and there is a communication record, the process returns to step s21. In step s26, an instruction signal to display a message “Do you forget to take medicine” is sent to the information terminal 6a, and the process returns to step s21.
[0070]
As described above, according to the life information management system 1, by displaying on the monitor 24a provided in the information terminal 6a whether or not it is time to take medicine that is determined every day and whether or not the medicine has been forgotten. You can call attention. Therefore, the person 27 who is a consumer can regularly take medicines necessary for health care.
[0071]
【The invention's effect】
  According to the present invention, a life information management system that collects and processes information on a management object and a person in a living environment and manages the information as life information includes a first data tag, a second data tag, The communication means including the observation device, the information processing means, and the information terminal and having the second data tag has a communication distance that allows wireless information communication with the first data tag. It is set to be shorter than the communication distance that can be reached by wireless information communication. As a result, the communication distance between the first data tag and the second data tag is short, and the information communication between the consumer and the management object is limited to a narrow range of communication. It becomes possible to detect and collect only the action history of a highly likely consumer with high accuracy. In addition, since the communication distance between the observation device and the second data tag is long and the information communication between the consumer and the observation device is expanded to a wide range, it is possible to detect a behavior history over a wide range of the consumer. , The flexibility of the place where the observation machine is installed increases.
  Moreover, in the present invention, the first data tag is attached to at least the door, and the information terminal is installed at least near the door. When the information processing means receives the information from the first data tag attached to the door via the observation device, the information processing means displays a list of items to be held toward the information terminal installed near the door. Send. The information terminal that has received the list of items to be possessed from the information processing means displays the list of items to be possessed on the display means. A person in the vicinity of the door can check the items to be held based on the list of items to be held displayed on the display means of the information terminal provided in the vicinity of the door. it can.
[0072]
In addition, according to the present invention, since infrared communication is used for wireless information communication, the current value may be about several mA, and it is easy to change the communication distance. There is little fear.
[0073]
Further, according to the present invention, the communication means included in the second data tag can reach wireless information communication with the first data tag by changing the infrared modulation frequency used for wireless information communication. The communication distance and the communication distance at which wireless information communication with the observation device can be reached are set to different lengths. In this way, a simple configuration that changes the modulation frequency of infrared rays used for wireless communication enables a life of a consumer to detect and communicate information on a managed object with high accuracy over a wide range of activities. An information management system is realized.
[0074]
  According to the present invention, the first data tag is attached to the management object, the second data tag is carried by the consumer, the observation device capable of information communication with the outside is installed, and transmission / reception is performed via the observation device. By collecting and processing information to be processed, it can be managed as living information related to the management object and the person in the living environment. In transmission / reception of information, that is, information communication, the second data tag is a communication distance that can be reached by wireless information communication with the first data tag.Is betterReachable communication distance of information communication by radio with the observation deviceThan to be shorterIs set.
[0075]
  thisThe information communication between the consumer and the management object is limited to a narrow range of communication, so it is possible to accurately detect and collect only the action history of the consumer who is likely to have actually been performed. In addition, since the communication distance between the observation device and the second data tag is long and the information communication between the consumer and the observation device is extended to a wide range, it is possible to detect a wide range of behavior history of the consumer. In addition, a living information management method with a high degree of freedom in the place where the observation machine is installed is realized.
  Moreover, in the present invention, the first data tag is attached to at least the door, and the information terminal is installed at least near the door. The display means provided in the information terminal installed in the vicinity of the door has a list of items to be possessed as processing results when information from the first data tag attached to the door is received via the observation device. Is displayed. A person in the vicinity of the door can check the items to be held based on the list of items to be held displayed on the display means of the information terminal provided in the vicinity of the door. it can.
[0076]
  Also according to the invention,The first data tag is attached to the management object, and the second data tag is carried by a consumer. The observation machine is installed in the living environment. The first data tag holds its own identification data. The identification data of the first data tag is transmitted from the first data tag to the second data tag by information communication using infrared rays. Data including the identification data is transmitted from the second data tag to the observation device by information communication using infrared rays. The information processing means collects and processes the data including the identification data of the first data tag through the observation device.
  The communication distance between the first data tag and the second data tag is set to be shorter than the communication distance between the second data tag and the observation device. As a result, the information communication between the first data tag and the second data tag is limited to a narrow range of communication, so that only the behavior history of a consumer who is likely to have been actually detected is detected with high accuracy. Can be collected. On the contrary, since the information communication between the second data tag and the observation device is extended to a wide range, the degree of freedom of the installation location of the observation device can be increased.
[Brief description of the drawings]
FIG. 1 is a diagram showing a simplified configuration of a life information management system 1 according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a simplified configuration of first and second data tags 2 and 3;
FIG. 3 is a block diagram showing a simplified configuration of an observation device 4;
FIG. 4 is a diagram illustrating a state of information communication using infrared rays between the personal tag 3, the data tag 2, and the observation device 4.
FIG. 5 is a diagram showing a difference in rise delay time of an LED drive current due to a difference in infrared modulation frequency.
6 is a block diagram showing a simplified configuration of a server 5. FIG.
7 is a block diagram showing a simplified configuration of the information terminal 6. FIG.
FIG. 8 is a perspective view showing a schematic configuration of a room 26 in which the living information management system 1 shown in FIG. 1 is installed.
FIG. 9 is a flowchart for explaining the operation of the personal tag 3;
10 is a flowchart for explaining the operation of the data tag 2. FIG.
FIG. 11 is a flowchart for explaining the operation of the observation device 4;
12 is a flowchart for explaining the operation of the server 5. FIG.
FIG. 13 is a block diagram showing a specific example of the configuration of a personal tag 31 and an observation device 35 provided in the life information management system according to the second embodiment of the present invention.
FIG. 14 is a diagram illustrating a state of information communication using infrared rays between the personal tag 31, the data tag 2, and the observation device 35.
15 is a flowchart for explaining the operation of the personal tag 3. FIG.
FIG. 16 is a flowchart for explaining the operation of the server 5;
FIG. 17 is a flowchart for explaining the operation of the server 5;
[Explanation of symbols]
1 Living information management system
2 Data tag
3,31 Personal tag
4,35 observation machine
5 servers
6 Information terminals
26 rooms
27 people
28 Door

Claims (5)

A living information management system that collects and processes information on objects to be managed and consumers in the living environment, and manages them as living information,
A first data tag attached to the management object and having a record holding means for holding the information of the management object, and a communication means capable of wirelessly communicating information with the outside;
A second data tag carried by a consumer and having a record retaining means for retaining the information of the consumer and a communication means capable of wirelessly communicating information with the outside;
An observation device which is capable of information communication with the outside and has a communication means capable of wireless information communication with the second data tag;
Information processing means for performing processing for collecting and processing information transmitted and received via the observation device;
An information terminal having display means for displaying the result processed by the information processing means,
The communication means of the second data tag is:
The direction of the radio by the information communication reachable communication distance between the first data tag, the radio by the information communication with the observation machine than possible communication distance reaches, is set to be shorter,
The first data tag is attached to at least the door;
The information terminal is installed at least near the door,
When the information processing means receives information from the first data tag attached to the door via the observation device, the information processing means displays a list of items to be held toward the information terminal installed near the door. life information management system which is characterized that you send. For wireless information communication,
The life information management system according to claim 1, wherein infrared communication is used . The communication means of the second data tag is:
By changing the modulation frequency of the infrared rays used for wireless information communication, the wireless data communication distance with the first data tag and the wireless communication with the observation device can be reached. The life information management system according to claim 2 , wherein the communication distance is set to a different length . The management object has information on the management object, and a first data tag capable of wirelessly communicating information with the outside is attached,
Have a second person carry a second data tag that holds the information of the consumer and can communicate with the outside wirelessly,
Install an observation device capable of information communication with the outside, in particular capable of wireless information communication with the second data tag,
Collects and processes information sent and received through the observation device, displays the processing result on display means provided in the information terminal, and manages it as living information about the management object and the person in the living environment In the life information management method to
The second data tag is:
The communication distance that wireless information communication with the first data tag can be reached is shorter than the communication distance wireless information communication with the observation device, and the information communication is performed.
The first data tag is attached to at least the door;
The information terminal is installed at least near the door,
The display means provided in the information terminal installed in the vicinity of the door displays a list of items to be held as processing results when information from the first data tag attached to the door is received via the observation device. A life information management method characterized by displaying. A living information management system that collects and processes information on objects to be managed and consumers in the living environment, and manages them as living information,
A first data tag that is attached to the management object, holds the identification data of the self, and transmits the identification data of the self by information communication by infrared;
The first data tag is carried from the first data tag by information communication using infrared rays carried by a consumer. A second data tag for receiving data including identification data of the first data tag received from the first data tag by infrared information communication;
An observation device that is installed in a living environment and receives data including identification data of the first data tag from the second data tag by infrared information communication;
Information processing means for collecting and processing data including identification data of the first data tag through an observation device,
Living information characterized in that the communication distance between the first data tag and the second data tag is set to be shorter than the communication distance between the second data tag and the observation device. Management system.

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