JP2004065561A - Biological information acquiring device, and biological information processing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a biological information acquiring device which can further increase the reliability of biological information to be acquired. <P>SOLUTION: This biological information acquiring device 10 includes an existence acquiring unit 101, an information receiving unit 103, and an information transmitting unit 104. In this case, the existence acquiring unit 101 acquires biological existence information indicating whether a living body as a measurement object exists in a compartment 40 as a specified region or not. The information receiving unit 103 receives the measured biological information through a radio communication path. The information transmitting unit 104 transmits the biological existence information and the biological information being related with each other to a biological information processing device 20. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a biological information acquisition apparatus and a biological information processing apparatus.
[0002]
[Prior art]
For supporting home medical care, a biological sensor attached to a human (biological body) as a measurement target, a biological information communication terminal that receives the physiological information of the human by weak radio waves from the biological sensor, and a network from the biological information communication terminal There is a biological information measurement system including a patient information management device that receives and processes physiological information through the network.
[0003]
[Problems to be solved by the invention]
A weak radio wave is used from the biological sensor to the biological information communication terminal in consideration of the influence on the human body. Since this wireless transmission using weak radio waves is not bidirectional, error correction cannot be performed, and in some cases, the reliability of received physiological information may be reduced.
[0004]
Therefore, an object of the present invention is to provide a biological information acquisition apparatus and a biological information processing apparatus that can further improve the reliability of physiological information to be acquired.
[0005]
[Means for Solving the Problems]
The biological information acquisition device of the present invention wirelessly includes presence acquisition means for acquiring biological presence information indicating whether or not a biological subject as a measurement target exists in a predetermined region, and a biological sensor for measuring physiological information of the biological subject. Information receiving means for receiving the measured physiological information via a communication path, and information transmitting means for associating the living body presence information with the physiological information and transmitting the information to a predetermined destination.
[0006]
In the biological information acquisition device of the present invention, since the biological presence information and physiological information are transmitted in association with each other, it is possible to specify whether or not the physiological information is actually acquired from a biological body existing in a predetermined region, The reliability of the acquired physiological information can be further improved.
[0007]
In the biometric information acquisition apparatus of the present invention, the presence acquisition unit acquires biometric identification information for identifying each individual living organism together with the biological presence information, and the information transmission unit includes the biometric identification information, the biological presence information, and the physiological information. It is preferable to transmit the information to a predetermined transmission destination in association with the information. Since the biometric identification information is transmitted in association with the biological presence information and physiological information, it is possible to specify who the physiological information belongs to, and to further improve the reliability of the acquired physiological information.
[0008]
The biological information acquisition apparatus of the present invention provides a wireless communication path from a movement acquisition means for acquiring biological movement information indicating what kind of movement the living body as a measurement target is, and a biological sensor for measuring physiological information of the biological body. Information receiving means for receiving physiological information, and information transmitting means for associating the biological motion information with physiological information and transmitting it to a predetermined transmission destination.
[0009]
In the biological information acquisition device of the present invention, biological movement information and physiological information are transmitted in association with each other, so it is possible to specify in which exercise state the physiological information is acquired, and the acquired physiological The reliability of information can be further improved.
[0010]
A biological information processing apparatus according to the present invention includes information receiving means for receiving biological presence information indicating whether or not a living body as a measurement target is present in a predetermined area and biological physiological information, Validity determination means for determining the validity of physiological information based on the presence information.
[0011]
The biological information processing apparatus of the present invention receives biological presence information and physiological information associated with each other, and determines the validity of physiological information based on the biological presence information. Can be improved.
[0012]
Moreover, in the biological information processing apparatus of the present invention, the information receiving means receives biological identification information for identifying each individual biological body associated with the biological presence information and physiological information, and further, based on the biological identification information, It is preferable to include attribute determination means for determining which living body the physiological information belongs to. Since the biometric identification information, the biological presence information, and the physiological information associated with each other are received, it is possible to specify who the physiological information belongs to, and to further improve the reliability of the acquired physiological information.
[0013]
The biological information processing apparatus according to the present invention includes: information receiving means for receiving biological motion information indicating what kind of motion state the living body as a measurement target is associated with, and biological physiological information; And status determination means for determining the measurement status of physiological information.
[0014]
In the biological information processing apparatus of the present invention, since biological information and physiological information associated with each other are received, it is possible to specify in which exercise state the physiological information is acquired, The reliability of the acquired physiological information can be further improved.
[0015]
The biological information measurement system of the present invention includes any one of the above-described biological information acquisition devices and any one of the biological information processing devices described above. In the biological information acquisition device, the biological presence information and the physiological information are transmitted in association with each other. Therefore, it is possible to specify whether or not the physiological information is actually acquired from the biological body existing in the predetermined region. The reliability of information can be further improved. The biological information processing apparatus receives biological presence information and physiological information associated with each other and determines the validity of the physiological information based on the biological presence information, so that the reliability of the acquired physiological information can be further improved.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
The knowledge of the present invention can be easily understood by considering the following detailed description with reference to the accompanying drawings shown for illustration only. Subsequently, embodiments of the present invention will be described with reference to the accompanying drawings. Where possible, the same parts are denoted by the same reference numerals, and redundant description is omitted.
[0017]
A biological information measurement system according to an embodiment of the present invention will be described. FIG. 1 is a diagram showing a configuration of the biological information measurement system 1. The biological information measurement system 1 includes a biological information acquisition device 10 and a biological information processing device 20. The biometric information acquisition apparatus 10 and the biometric information processing apparatus 20 are configured to be able to transmit and receive information via the network 50.
[0018]
First, the biological information acquisition apparatus 10 will be described. As shown in FIG. 2, the biological information acquisition apparatus 10 physically includes a CPU 301, a ROM 302, a RAM 303, a communication controller 304, an input / output controller 305, a display controller 306, a print controller 307, an RF receiver 308, an antenna 309, an infrared ray. It includes parts such as a sensor 310, an amplifier comparator 311, an input unit 312, a display unit 313, and a printing unit 314.
[0019]
The biological information acquisition device 10 includes, as functional components, a presence acquisition unit (presence acquisition unit) 101, an exercise acquisition unit (exercise acquisition unit) 102, an information reception unit (information reception unit) 103, and an information transmission unit. (Information transmitting means) 104. Subsequently, each component will be described in detail.
[0020]
The presence acquisition unit 101 is a part that acquires biological presence information indicating whether or not a human (biological body) as a measurement target exists in a predetermined region. More specifically, whether or not a person (not shown) with the biosensor 30 is present in the room 40 as the predetermined area is acquired by the infrared sensor. This infrared sensor is a pyroelectric infrared sensor that detects changes in infrared rays, and detects changes in the temperature of the heat source and movement of the heat source. The presence acquisition unit 101 outputs the acquired biological presence information to the information transmission unit 104.
[0021]
The presence acquisition unit 101 further acquires biometric identification information for identifying individual persons as measurement targets together with the biometric presence information. More specifically, information (for example, a user ID) specifying who the person (not shown) to whom the biosensor 30 is attached is transmitted by infrared communication from a transmitter (not shown) worn by the person. Get by. The presence acquisition unit 101 outputs the acquired biological identification information to the information transmission unit 104 together with the biological presence information.
[0022]
The movement acquisition unit 102 is a part that acquires biological movement information indicating what movement state the person (living body) as the measurement target is in. More specifically, biomotion information indicating whether a human (not shown) with the biosensor 30 is stationary, is in a weak motion state such as walking, or is in a strong motion state such as running. get. For example, the test object is irradiated with a test wave, and the reflected wave is analyzed to obtain the velocity of the measurement object as biological motion information. The exercise acquisition unit 102 outputs the acquired biological exercise information to the information transmission unit 104.
[0023]
The information receiving unit 103 is a part that receives the measured physiological information from the biological sensor 30 for measuring human physiological information via a wireless communication path. In the present embodiment, the biological sensor 30 is a sensor that measures a pulse, and transmits the pulse to the information receiving unit 103 using a weak radio wave. The information receiving unit 103 outputs the received physiological information to the information transmitting unit 104. As the biosensor 30, various sensors such as a sphygmomanometer, a weight scale, a thermometer, an electrocardiograph, a SAS monitor, a respiratory monitor, a urinary incontinence sensor, an expiration gas monitor, an electronic stethoscope, a sputum monitor, and a blood glucose meter are used according to the application. Are used as appropriate.
[0024]
The information transmission unit 104 associates the biological presence information and biological identification information acquired by the presence acquisition unit 101, the biological exercise information acquired by the exercise acquisition unit 102, and the physiological information received by the information reception unit 103, thereby obtaining biological information. This is a part to be transmitted to the processing device 20.
[0025]
Next, the biological information processing apparatus 20 will be described. The biological information processing apparatus 20 is physically a computer system (or a CPU (central processing unit), a memory, an input device such as a mouse and a keyboard, a display device such as a display, a storage device such as a hard disk, a communication device such as a modem). A collection of computer systems).
[0026]
The biological information processing apparatus 20 includes, as functional components, an information receiving unit (information receiving unit) 201, an effectiveness determining unit (effectiveness determining unit) 202, an attribute determining unit (attribute determining unit) 203, a situation A determination unit (situation determination unit) 204 and a biological information storage unit 205 are included. Subsequently, each component will be described in detail.
[0027]
The information receiving unit 201 is a part that receives biological presence information indicating whether or not a human (biological body) as a measurement target exists in a predetermined region and physiological information about the human being associated with each other. In addition, the information receiving unit 201 also receives biometric identification information for identifying an individual person associated with the biometric presence information and physiological information. Furthermore, the information receiving unit 201 receives biological motion information indicating what kind of motion state a person as a measurement target is associated with, and physiological information about the person. The information receiving unit 201 transmits the biological presence information and physiological information to the validity determining unit 202, the biological identification information and physiological information to the attribute determining unit 203, and the biological motion information and physiological information to the situation determining unit 204, respectively. Output.
[0028]
The validity determination unit 202 is a part that determines the validity of physiological information based on living body presence information. For example, when the living body presence information is a person (not shown) with the living body sensor 30 in the room 40, physiological information is accurately transmitted from the living body sensor 30 to the living body information acquisition apparatus 10. Therefore, the validity determination unit 202 determines that the physiological information is valid. The validity determination unit 202 stores the physiological information and the corresponding determination result in the biological information storage unit 205.
[0029]
The attribute determination unit 203 is a part that determines which human (biological) the physiological information is based on the biometric identification information. For example, when a user ID is acquired as biometric identification information specifying who the person (not shown) with the biosensor 30 is, the person corresponding to the user ID is determined based on predetermined table information. To do. Further, it may be determined which human the physiological information is based on the user ID itself. The attribute determination unit 203 stores the physiological information and the corresponding determination result in the biometric information storage unit 205.
[0030]
The situation determination unit 204 is a part that determines the measurement situation of physiological information based on the biological motion information. For example, when “movement speed / speed 0 m” is acquired as the biological motion information, it is determined that the biological state is “stationary state”. Further, when “moving speed per minute 250 m” is acquired as the biological motion information, it is determined that the measurement state is “the state where the living body is running”. The situation determination unit 204 may recognize these determination results by dividing them into categories such as “level 1” and “level 2”. The situation determination unit 204 stores the physiological information and the corresponding measurement situation in the biological information storage unit 205.
[0031]
An example of information stored in the biological information storage unit 205 will be described with reference to FIG. According to the example of FIG. 3, the biometric information storage unit 205 stores a user ID, a pulse, validity, and an exercise state in association with each other. The user ID is information stored by the attribute determination unit 203 and is information for identifying each measurement target. The pulse is physiological information stored in association with the user ID. The validity is information that is determined and stored by the validity determination unit 202. The exercise state is information obtained by classifying and storing results determined by the situation determination unit 204 based on the biological exercise information. Since the pulse as physiological information is measured at any time, a plurality of physiological information may be stored for one user ID as in the example of FIG.
[0032]
The biological information measurement system 2 may include a plurality of biological information acquisition devices 10a to 10c as shown in FIG. In the example of FIG. 4, the biological information acquisition devices 10a to 10c receive physiological information from the biological sensors 30a to 30c, respectively. It is assumed that the human beings attached with the biometric sensors 30a to 30c are resident in the rooms 40a to 40c, respectively. For example, the biological information acquisition apparatus 10a that receives physiological information from the biological sensor 30a may also receive physiological information from the biological sensor 30b in the adjacent room 40b. However, in the biological information acquisition apparatus 10a, the presence acquisition unit 101 acquires information that specifies that the person with the biological sensor 30b does not exist in the room 40a. Therefore, the physiological information received by the biological information acquisition apparatus 10a from the biological sensor 30b is stored in the biological information storage unit 205 as the information “pulse 28, invalid” in FIG.
[0033]
In the present embodiment, the biological information acquisition device 10 associates the biological presence information with physiological information and transmits the biological information to the biological information processing device 20, so that the physiological information is acquired from a person who actually exists in the room 40. It is possible to specify whether or not there is, and the reliability of the physiological information to be acquired can be further improved.
[0034]
Moreover, since the biometric information acquisition device 10 associates the biometric identification information with the biometric presence information and physiological information and transmits it to the biometric information processing device 20, it is possible to specify who the physiological information belongs to and acquire The reliability of physiological information can be improved.
[0035]
Further, since the biological information acquisition device 10 associates the biological exercise information and the physiological information and transmits them to the biological information processing device 20, it is specified in which exercise state the physiological information is acquired. And the reliability of the acquired physiological information can be further improved.
[0036]
【The invention's effect】
According to the present invention, since living body presence information and physiological information are transmitted in association with each other, it is possible to specify whether or not the physiological information is actually acquired from a living body existing in a predetermined region. Therefore, it was possible to provide a biological information acquisition apparatus and a biological information processing apparatus that can further improve the reliability of physiological information to be acquired, which is an object of the present invention.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a biological information measurement system according to an embodiment of the present invention.
FIG. 2 is a diagram showing a configuration of a biological information acquisition apparatus according to an embodiment of the present invention.
FIG. 3 is a diagram showing an example of information stored in a biological information storage unit in FIG. 1;
FIG. 4 is a diagram showing a configuration of a biological information measurement system according to an embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Biometric information measurement system, 10 ... Biometric information acquisition apparatus, 20 ... Biometric information processing apparatus, 30 ... Biometric sensor, 40 ... Room, 50 ... Network, 101 ... Existence acquisition part, 102 ... Exercise acquisition part, 103 ... Information reception 104: Information transmission unit, 201: Information reception unit, 202 ... Effectiveness determination unit, 203 ... Attribute determination unit, 204 ... Situation determination unit, 205 ... Biological information storage unit.

Claims (6)

Presence acquisition means for acquiring living body presence information indicating whether or not a living body as a measurement target exists in a predetermined region;
Information receiving means for receiving the measured physiological information from a biological sensor for measuring physiological information of the living body via a wireless communication path;
Information transmitting means for associating the living body presence information with the physiological information and transmitting the information to a predetermined transmission destination;
A biometric information acquisition device. The presence acquisition means acquires biometric identification information for identifying each of the living organisms together with the biological presence information,
The biological information acquisition apparatus according to claim 1, wherein the information transmission unit associates the biological identification information, the biological presence information, and the physiological information and transmits the information to a predetermined transmission destination. A movement acquisition means for acquiring biological movement information indicating what movement state the living body as a measurement object is in;
Information receiving means for receiving the physiological information from a biological sensor for measuring physiological information of the biological body via a wireless communication path;
Information transmitting means for associating the biological motion information with the physiological information and transmitting the information to a predetermined transmission destination;
A biometric information acquisition device. Information receiving means for receiving living body presence information indicating whether or not a living body as a measurement target exists in a predetermined region and physiological information of the living body, which are associated with each other;
Validity determination means for determining the validity of the physiological information based on the biological presence information;
A biological information processing apparatus including: The information receiving means receives biological identification information associated with the biological presence information and the physiological information for identifying the individual biological body,
The biological information processing apparatus according to claim 4, further comprising attribute determination means for determining which biological information the physiological information is based on the biological identification information. Information receiving means for receiving biological movement information indicating what kind of movement state the living body as a measurement target is associated with, and physiological information of the living body;
Based on the biological movement information, status determination means for determining the measurement status of the physiological information;
A biological information processing apparatus including:

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