JP2004024487A - Information recording system, information processing system, storage device and measuring instrument - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system for easily checking health based on measured values measured with measuring instruments. <P>SOLUTION: Among a plurality of the measuring instruments, a portable storage device such as a memory card is detachably connected to make this storage device record measured values of the respective measuring instruments. Furthermore, present time information generated on a side of the storage device is coordinated with the measured values in this case, thereby measuring times of the measured values are also stored in the storage device. Thus, the measured values measured by the respective measuring instruments and their measuring times are collected automatically in the storage device. Furthermore, the storage device is connected with a personal computer, or the like, to output information on the measured values/measuring times collected in this storage device in a necessary form. Thus, the collected information on the measured values/measuring times can visually be presented to a user in a certain form. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides an information recording device including a measuring device that performs measurement on a predetermined measurement target related to a human body, and a storage device that is connected to the measuring device and that can store a measurement value measured by the measuring device. The present invention relates to a system, an information processing system including the measurement device, the storage device, and the information processing device, and a measurement device and a storage device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, measuring devices such as a body weight / body fat ratio measuring device, a blood pressure measuring device, a body temperature measuring device, and the like have been widely used as devices for measuring the health condition of a human body. And it is generally possible to perform a daily check of a health condition using these measuring devices.
[0003]
When trying to check the health condition in this way, it is rare that a sudden change appears in the measurement result in a short period of time, so the value measured by the above measuring instrument is continuously Is important.
It is also important to record not only the measured value of one item, but also the measured value of other items, and to try comprehensive judgment from the measured values of these multiple items. .
[0004]
[Problems to be solved by the invention]
However, in the related art, various measuring instruments as described above have a function of recording a measured value on a required recording medium. It is kept until the record of.
For this reason, under the present circumstances, when trying to record the measurement values between different items in association with each other as described above, the values measured by the respective measuring machines are recorded on paper by hand each time, or stored in a personal computer. On the other hand, it was manually entered and recorded.
[0005]
That is, conventionally, when managing the health condition using various measuring devices as described above, the burden of continuously recording the measurement results is large, and it is difficult to perform this easily. there were.
[0006]
[Means for Solving the Problems]
Therefore, in view of the above problems, the present invention is configured as follows as an information recording system including a measuring device and a storage device capable of storing information.
In other words, the measurement device that is provided in the measurement device and performs measurement on a predetermined measurement target related to the human body to obtain a measurement value can be communicated between the measurement device and the storage device that is loaded in the measurement device. Connection means for connecting to the storage device, a current time information generation means capable of generating current time information, and a measurement value obtained by the measurement means, from the current time information generation means An information generating unit that generates measurement result information in which the acquired current time information is associated, and a storage control unit that controls the measurement result information generated by the information generating unit to be stored in the storage device. I made it.
[0007]
In the present invention, an information processing system including a measuring device, a storage device capable of storing information, and an information processing device is configured as follows.
In other words, the measurement device that is provided in the measurement device and performs measurement on a predetermined measurement target related to the human body to obtain a measurement value can be communicated between the measurement device and the storage device loaded in the measurement device. Connection means for connecting to the storage device, a current time information generation means capable of generating current time information, and a measurement value obtained by the measurement means, from the current time information generation means Information generation means for generating measurement result information associated with the acquired current time information; storage control means for controlling the measurement result information generated by the information generation means to be stored in the storage device; An information acquisition unit that is provided in the processing device and reads and acquires the measurement result information stored in the storage device; and an information acquisition unit that is provided in the information processing device. The resulting measurements result information, and the like and a data processing means for outputting the required output form.
[0008]
Further, in the present invention, the storage device is configured as follows.
That is, when mounted on a measuring device that obtains a measured value by performing measurement on a predetermined measurement target related to the human body, a connection unit that communicably connects to the measuring device, and a device that generates current time information. Current time information generating means, storage means for storing information, and measurement result information obtained by associating the current time information obtained from the current time information generating means with the measured value obtained by the measuring device. And a storage control means for storing the data in the storage means.
[0009]
Further, in the present invention, the measuring device is configured as follows. That is, in a state in which a storage device having a predetermined external shape is loaded, a connection unit that can be communicably connected to the storage device, and a measurement of a predetermined measurement target related to a human body is performed to obtain a measurement value. Measuring means, and measurement result information in which the measured value obtained by the measuring means is associated with the current time information generated on the storage device side is stored in the storage means of the storage device side. And a processing execution unit for executing a required process for performing the processing.
[0010]
According to the present invention, the measurement value measured by the measurement device is associated with the current time information generated in the loaded storage device, whereby the measurement value measured by the measurement device is The measurement result information associated with the measurement time is generated. Then, the measurement result information thus generated is stored in the storage device.
Thus, in the storage device, the measured value and the measurement time are automatically stored as the measurement is performed by the measurement device.
[0011]
In addition, the measurement value measured by each measurement device as described above is associated with the current time information generated by the storage device, so that the measurement time of each measurement device is a common time. Be managed on the axis.
[0012]
According to the present invention, the measurement result information stored in the storage unit of the storage device is output in a required output form by an information processing device configured to be able to perform data communication with the storage device. Become like
This makes it possible to present the contents of the measurement result information using the function of the information processing apparatus as an application.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an information processing system according to an embodiment of the present invention will be described. The description will be made in the following order.
1. Overview of information processing system
2. Storage device configuration
3. Configuration of measuring device
4. Configuration of information processing device
5. Recording of measurement result information
6. Display processing of measurement result information
[0014]
1. Overview of information processing system
FIG. 1 shows an outline of an information processing system according to the present embodiment.
In FIG. 1, the information processing system according to the present embodiment includes a memory card 1 as a storage device, a blood pressure measuring device 10, a weight measuring device 20, as a measuring device, and a personal computer 30 as an information processing device. You.
[0015]
In this case, the memory card 1 is a card-type storage device having a built-in solid-state memory, and is portable. Further, in the case of the present embodiment, the memory card 1 is provided with a portion for generating current time information indicating the current date and time and hour and minute as described later.
[0016]
Each of the blood pressure measuring device 10 and the weight measuring device 20 has connection slots 10a and 20a for detachably connecting the memory card 1 as shown in the figure, and is connected to the respective connection slots 10a and 20a. It is configured to be able to write / read data to / from the memory card 1.
[0017]
The personal computer 30 also has a connection slot 30a as shown in the figure, and can write / read data to / from the memory card 1 detachably connected to the connection slot 30a.
[0018]
In the information processing system configured as described above, each of the blood pressure measurement device 10 and the weight measurement device 20 measures the weight value and the blood pressure value with the memory card 1 loaded in the connection slot 10a or the connection slot 20a. Done. Then, as the measurement is completed, the current time information generated by the memory card 1 is acquired, and the current time information is associated with the measurement value measured this time.
In this way, the blood pressure measurement device 10 and the weight measurement device 20 generate measurement result information in which the current measurement value is associated with the time information corresponding to the time when the measurement was performed. The measurement result information is written into the memory card 1 by the blood pressure measuring device 10 and the weight measuring device 20.
[0019]
In the personal computer 30, the measurement result information is read by connecting the memory card 1 to the connection slot 30a. Then, based on the measurement result information read out in this way, for example, the measured values are displayed in a list in each of the items of blood pressure and body weight, or the change along the time axis is measured for the measured value of each item. The display based on the measurement result information is performed in a required display mode such as a graph.
[0020]
2. Storage device configuration
FIG. 2 is a block diagram showing an internal configuration of the memory card 1 according to the present embodiment.
As shown, an input / output interface (I / O) 2, a memory controller 3, a flash memory 4, an RTC (Real Time Clock) 5, and a power supply unit 6 are configured inside the memory card 1.
In this figure, an input / output interface 2 is a part for performing data communication with external devices (a blood pressure measuring device 10, a weight measuring device 20, a personal computer 30) to which the memory card 1 is connected.
The input / output interface 2 includes necessary terminals such as a data input / output terminal (not shown), an operation input terminal input from an external device, and a terminal for receiving power supply from the external device. You. The operating power and signals input from an external device are supplied to the memory controller 3 via these terminals.
[0021]
The memory controller 3 performs a write / read operation on the flash memory 4.
For example, during a write operation, data supplied from a corresponding terminal is written to the flash memory 4 in accordance with an operation clock supplied from an external device via the input / output interface 2. At the time of reading, data is read from the flash memory 4 in accordance with the operation clock supplied from the external device, and is output from the corresponding terminal to the external device.
[0022]
An RTC 5 is provided for the memory controller 3 as shown.
The RTC 5 is a part that generates current time information indicating the current date and time. The RTC 5 is provided with a power supply unit 6 as shown in the figure, and a battery is attached to the power supply unit 6 to supply operating power to the RTC 5.
[0023]
The flash memory 4 is a rewritable nonvolatile memory.
In the case of the present embodiment, the flash memory 4 stores a file in which measurement result information generated in each of the blood pressure measuring device 10 and the weight measuring device 20 is written.
[0024]
The contents of this file are as shown in FIG. 5, for example.
First, as a file stored in the flash memory 4, name information added to the file as a header portion is written in an area at the head as shown in the figure.
Then, for each of the following lines, the respective measurement result information is written in such a manner that the time information indicating the time when each measurement value was measured and the measurement value are in order as shown in the figure.
In this case, immediately before each piece of time information, for example, "time" is written to indicate that the following information is time information as shown in the figure. Similarly, immediately before the information of each measurement value, item information indicating the blood pressure / body weight is written. Further, when the measured value is a blood pressure value, immediately before each measured value as shown in FIG. , "L" is written to the lower limit value, respectively.
In the case of the present embodiment, the information in this file is written in a text format.
[0025]
In the case of this embodiment, the flash memory 4 stores a plurality of files in which such contents are written. Thus, for example, when the memory card 1 is shared and used by a plurality of users, the measurement result information can be stored in a file corresponding to each user. This will be described later.
[0026]
3. Configuration of measuring device
As the measuring device of the present invention, in addition to the blood pressure measuring device 10 and the weight measuring device 20 described above, for example, a body temperature measuring device that measures a human body temperature, or a body fat percentage is calculated by measuring an electric resistance or the like of a human body. Body fat measuring machine.
Here, an internal configuration of the above-described blood pressure measurement device 10 will be described as a configuration example of the measurement device of the present invention.
[0027]
FIG. 3 is a block diagram illustrating a configuration of a main part inside the blood pressure measurement device 10.
In this figure, only blocks of an electronic circuit system are mainly shown, and other parts are omitted.
In this figure, a memory card interface (I / F) 11 is a part for performing data communication with the memory card 1 connected to the connection slot 10a described in FIG.
The terminals provided on the memory card interface 11 correspond to the terminals provided on the input / output interface 2 of the memory card 1, so that the blood pressure measurement device 10 operates on the connected memory card 1 It is possible to supply a power supply, an operation clock, and the like, and to transfer various data.
[0028]
The blood pressure measurement unit 13 performs various actual operations required for blood pressure measurement based on control from a microcomputer (microcomputer) 12 illustrated.
For example, based on the control of the microcomputer 12, the blood pressure measurement unit 13 drives and controls a pressure pump (not shown) for performing a pressurizing operation in the cuff (cuff) 10b shown in FIG.
[0029]
The blood pressure measurement sensor 14 is a pressure sensor, and converts a change in the pressure state of the arm band 10b into an electric signal. Then, the electric signal is supplied to the microcomputer 12.
[0030]
The operation unit 16 is provided with various operators for giving an operation instruction to the blood pressure measurement device 10.
The operation unit 16 supplies an operation signal to the microcomputer 12 according to an operation element on which the operation has been performed. Then, the microcomputer 12 controls each unit so as to obtain an operation according to the operation signal.
[0031]
The display unit 15 is, for example, a liquid crystal display, and displays numbers, characters, and the like based on the control of the microcomputer 12.
[0032]
The microcomputer 12 performs overall control of the blood pressure measurement device 10.
For example, the microcomputer 12 controls the operations of the necessary components such as the blood pressure measurement unit 13 and the blood pressure measurement sensor 14 in order to realize a required operation according to an operation on the operation unit 16.
Further, for example, based on the electric signal supplied from the blood pressure measurement sensor 14 as described above, the electric signal is converted into numerical data as a blood pressure value. In addition, it controls the display unit 15 for displaying necessary information such as the measurement value measured by the blood pressure measurement sensor 14.
Further, the microcomputer 12 also performs various data write / read operations with respect to the memory card 1 connected to the connection slot 10a.
[0033]
Further, in the case of the present embodiment, the microcomputer 12 performs an operation of acquiring the current time information generated by the RTC 5 described in FIG. 2 from the memory card 1 connected in the connection slot 10a. Then, the measurement result information is generated by associating the thus obtained current time information with the measurement value measured as described above, which will be described later.
[0034]
The configuration of the weight measuring device 20 used as the measuring device of the present embodiment shown in FIG. 1 includes a memory card interface 11, a microcomputer 12 and a microcomputer 12 which are substantially common to the blood pressure measuring device 10 described in FIG. , The display unit 15 and the operation unit 16 are provided. In addition, in addition to this, the body weight measuring device 20 includes at least a body weight measurement sensor that measures the body weight by converting, for example, the pressure of the human body into an electric signal as a part corresponding to the blood pressure measurement sensor 14 described above. Provided.
[0035]
4. Configuration example of information processing device
FIG. 4 is a block diagram illustrating a configuration example of a personal computer 30 as an information processing device included in the information processing system of the present invention.
First, as shown in the figure, a personal computer 30 used in the present embodiment has a memory card interface (I) as an interface means for performing data communication with the memory card 1 connected to the connection slot 30a described in FIG. / F) 31.
The memory card interface 31 is provided with a plurality of terminals corresponding to the respective terminals provided on the input / output interface 2 of the memory card 1 as in the case of the blood pressure monitor 10 described above. The memory card interface 31 is connected to an internal data bus provided inside the personal computer 30 as shown in the figure.
This enables the personal computer 30 to perform data communication with the memory card 1 via the memory card interface 31.
[0036]
As shown, a ROM 32, a RAM 33, a CPU 34, and an input / output interface 35 are connected to the internal data bus.
The ROM 32 stores a program for causing the CPU 34 to execute various processes as firmware, for example. The RAM 33 appropriately stores data, programs, and the like necessary for the CPU 34 to execute various processes.
The CPU 34 executes various processes according to a program stored in the above-described ROM 32 or a hard disk drive 39 described later, for example.
[0037]
A keyboard 36 and a mouse 37 are connected to the input / output interface 36, and operation signals supplied from these are output to the CPU 34. A display 38 is connected to the input / output interface 36 so that images can be displayed.
[0038]
Also, a hard disk drive 39 as a recording medium is connected to the internal data bus. The hard disk drive 39 and the CPU 34 are connected via an internal data bus, so that the CPU 34 can record or read data files, programs, and the like on the hard disk drive 39.
[0039]
In the case of the present embodiment, a measurement result display application 39a is stored in the hard disk drive 39 as shown in the figure.
The measurement result display application 39a includes a program to be executed by the CPU 4 when displaying the measurement result information read from the memory card 1 connected via the memory card interface in a required display mode. That is, in order for the personal computer 30 to execute the operation according to the present embodiment, the measurement result display application 39a needs to be installed in advance.
[0040]
5. Recording of measurement result information
As described above, each of the blood pressure measurement device 10 and the weight measurement device 20 according to the present embodiment receives a current value from the RTC 5 in the connected memory card 1 according to the measurement of the blood pressure value and the weight value. Time information is obtained. Further, by associating the thus obtained current time information with the measurement value measured this time, measurement result information indicating the measurement value and the measurement time is generated. Then, a file describing the measurement result information is written to the flash memory 4 in the memory card 1.
[0041]
Processing operations to be executed by the microcomputer in the memory controller 3 and each measuring device in order to realize such an operation will be described with reference to FIGS.
Here, as an example of the processing operation to be performed by each measuring instrument side, only the processing operation by the blood pressure measurement device 10 will be described as an example, and in the case of other measurement devices, it will be substantially the same as that shown in this figure. Therefore, illustration is omitted here.
In these figures, FIG. 6 shows an operation until a file to be written is determined from among a plurality of files stored in the flash memory 4 as described above, and FIG. The operation up to the writing of the measurement result information to the written file is shown.
[0042]
First, in FIG. 6, the microcomputer 12 of the blood pressure monitor 10 monitors whether or not the memory card 1 is connected to the connection slot 10a shown in FIG. When the memory card 1 is connected to the connection slot 10a and communication with the memory card 1 via the memory card interface 11 becomes possible, the process proceeds to step S102.
[0043]
In step S102, the flash memory 4 in the memory card 1 is accessed, and only the name information attached to each file is obtained.
That is, the microcomputer 12 extracts only the information written in the header portion of each file described in FIG. 5, and thereby acquires only the name information attached to each file.
[0044]
When the name information attached to each file is obtained in this way, in step S103, the name information is displayed on the display unit 15 shown in FIG.
Then, after each name information is displayed on the display unit 15 in this way, in the following step S104, the user is caused to select the name information. At this time, the microcomputer 12 performs necessary control operations such as moving a cursor displayed on the display unit 15 in response to a user operation on the operation unit 16.
[0045]
In a succeeding step S105, it is monitored whether or not an operation for confirming the name information selected in the step S104 has been performed.
Then, when there is an operation to determine the name information, in step S106, the name information thus determined is stored in the built-in RAM, and this name is registered as the user name to be measured this time. That is, the blood pressure measurement device 10 can recognize the file to which the data is to be written among the files stored in the flash memory 4.
When the processing operation of step S108 is executed, the processing shifts to the processing operation of FIG. 7 described below.
[0046]
7, the main microcomputer 12 of the blood pressure measurement device 10 monitors whether or not the user has performed a measurement start operation in step S201 illustrated. If it is determined that the measurement start operation has been performed, for example, by performing a required operation on the operation unit 16, the process proceeds to step S202.
[0047]
In step S202, control is performed on the blood pressure measurement unit 13, the blood pressure measurement sensor 14, and the like, and measurement of the blood pressure value is started.
In the case of the blood pressure measuring device 10, two values, an upper limit value and a lower limit value, are measured as the blood pressure value measured in step S202. That is, in this case, for example, the blood pressure value at two predetermined time points is measured with respect to the blood pressure value that fluctuates as the pressurized state by the cuff 10b is changed. Then, the two blood pressure values obtained at these times are set as an upper limit value and a lower limit value, respectively.
[0048]
Note that, as described in steps S201 and S202, the measurement of the blood pressure value is started here in response to the measurement start operation by the user. For example, in the case of the weight measuring device 20, instead of this, For example, the measurement may be started in response to the pressure being sensed by the weight measurement sensor.
[0049]
In the following step S203, it is monitored whether the measurement operation in step S202 has been completed. When the measurement is completed, the blood pressure value measured as described above is displayed on the display unit 15 in step S204.
[0050]
When the blood pressure value measured this time is displayed on the display unit 15 in this manner, the microcomputer 12 requests the memory controller 3 to transmit current time information in step S205 to generate the above-described measurement result information.
When this transmission request is made, in step S206, the presence or absence of reception of the current time information from the memory card 1 is monitored.
[0051]
The memory controller 3 monitors the presence or absence of the transmission request in step S301 illustrated. If there is such a transmission request from the measuring device, the process proceeds to step S302.
[0052]
In step S302, reference is made to current time information indicating the current date and time generated by the RTC 5 described in FIG. Then, the current time information referred to in this manner is transmitted to the measuring device in step S303.
[0053]
When the microcomputer 12 receives the current time information transmitted from the memory card 1 side, in step S207, the microcomputer 12 associates the received current time information with the measurement value measured in step S202 to perform measurement. Generate result information.
In this case, as described with reference to FIG. 5, the information generated as the measurement result information corresponds to a text format.
Immediately before the current time information received as described above, for example, character data of “time” is added. Further, immediately before the measured value measured in step S202, item information (in this case, “blood pressure”) indicating the item of the measured value is added.
Further, in this case, immediately before each blood pressure value corresponding to the upper limit value and the lower limit value, an identifier indicating the difference (for example, “H” for the upper limit value, “L” for the lower limit value). ).
[0054]
In the following step S208, a process for accessing the flash memory 4 in the memory card 1 and reading the corresponding file is executed in order to record the measurement result information generated in this manner.
That is, in step S208, first, the header portion of each file held in the flash memory 4 is referred to based on the name information recorded in the RAM in step S106 in FIG. Then, by reading a file in which the same name information as the name information recorded in the RAM is written in the header portion, a file to which the measurement result information is to be written is read.
[0055]
When a corresponding file is read from each file held in the flash memory 4 in this way, in step S209, the file is expanded in the RAM containing the file.
Then, in step S210, the measurement result information is written to, for example, the last part of the file thus expanded, and the file content is updated. That is, in this case, the generated measurement result information is written in the file in the order in which the measurement was performed.
[0056]
In step S211, the file whose contents have been updated as described above is transferred to the memory card 1, and the contents of the transferred file are overwritten on the original file held in the flash memory 4. Make an overwrite request. Then, when this is executed, the processing operation ends as shown in the figure.
[0057]
In the memory card 1, the memory controller 3 monitors whether or not the updated file and the overwrite request have been received in step S304.
Then, when such information is received, in step S305, a process of overwriting the received file with the original file held in the flash memory 4 is executed.
As a result, the measurement result information generated on the measurement device side as described above is additionally written in the corresponding file held in the flash memory 4.
[0058]
As will be understood from the description of FIG. 7, in the present embodiment, the measuring device obtains the current time information generated in the memory card 1, and the measuring device generates the measurement result information. The case is taken as an example. However, in the present embodiment, instead of this, the measuring device simply transmits the measured value measured to the connected memory card 1, and the measured value transmitted in this way and the current time information are May be performed on the memory card 1 side to generate measurement result information.
[0059]
Further, as will be understood from the description of FIGS. 6 and 7 above, in this case, the measurement device side performs the measurement with the memory card 1 connected, as an example. Alternatively, the memory card 1 may be connected after performing the measurement, and the measurement result information created and held at the time of the measurement may be recorded in the memory card 1 at this time.
[0060]
6. Display processing of measurement result information
In the information processing system according to the present embodiment, the measurement result information recorded in the memory card 1 by the processing operations shown in FIGS. 6 and 7 can be output in a required output form via the personal computer 30. it can.
In the case of the present embodiment, the personal computer 30 reads out the measurement result information recorded in the memory card 1 as described above, and then, based on the measurement result information, sets the date and time of each measurement value, for example. This measurement result information is displayed and output in a required display mode, such as displaying a graph of the change over time.
That is, by displaying the measurement result information recorded in the memory card 1 as described above on an information processing device such as the personal computer 30 having a relatively substantial drawing function, information based on the measurement result information is obtained. Is output in a form that can be easily viewed by the user.
[0061]
For this purpose, the CPU 34 in the personal computer 30 described in FIG. 4 executes a processing operation as shown in FIG. Note that the processing operation shown in this figure is executed by the CPU 34 according to a program as a measurement result display application 39a stored in the hard disk drive 39 shown in FIG.
First, as shown in the figure, in step S401, the CPU 34 monitors whether or not the memory card 1 is connected to the connection slot 30a. When the memory card 1 is connected to the connection slot 30a and communication with the memory card 1 via the memory card interface 31 becomes possible, the process proceeds to step S402.
[0062]
In step S402, the flash memory 4 in the memory card 1 connected to the connection slot 30a is accessed, and each file held in the flash memory 4 is obtained. At this time, each file thus obtained from the memory card 1 is developed in the RAM 33 shown in FIG.
[0063]
In step S403, only the name information is extracted by referring to the header portion of each file thus obtained.
Then, in the subsequent step S404, the extracted name information is displayed on the display 38 shown in FIG. 4 so that the user can select a file to be displayed from the files acquired in the above step S402. .
That is, in this step S404, as operation icons for allowing the user to select one piece of name information from each piece of name information extracted as described above, an icon indicating the corresponding name information is displayed. 38.
[0064]
In step S405, the user is caused to select the name information displayed on the display 38 as described above. In this case, the user can move the cursor displayed on the display 38 by performing an operation via the mouse 37 or the like, for example. Then, by moving the cursor over the operation icon corresponding to each piece of the name information, the name information can be selected.
[0065]
In subsequent step S406, it is monitored whether or not an operation for determining the attraction information selected as described above has been performed. As this determination operation, for example, a double-click operation on the mouse 37 may be monitored.
[0066]
In step S407, the measurement result information is read from the file to which the name information determined in step S406 is attached, and each measurement value is displayed on the display 38 in a required display mode based on the measurement result information.
In this case, as a required display mode based on the measurement result information, for example, a table showing a list of each measurement value and their measurement time is displayed.
That is, based on the measurement result information formed as shown in FIG. 5, a table is displayed in which each measurement value and its measurement time are listed, for example, in descending order of the measurement time. Things.
At this time, by referring to the item information written immediately before each measured value as shown in FIG. 5, the measured values of each item of the blood pressure value and the weight value are separately displayed. Can be.
[0067]
Further, as a required display mode based on the measurement result information, for example, a graph is displayed in which the horizontal axis indicates the passage of time and the vertical axis indicates the unit level (for example, kg for weight) corresponding to the measured value. You may.
In other words, at the corresponding position on the coordinates formed by the ordinate and the abscissa, a point according to the value of each measurement value and the measurement time is performed, and the points formed thereby are connected by a line. , The change of the measured value over time is graphed.
Also in this case, by referring to the item information written immediately before each measurement value, a graph corresponding to each item can be generated. For example, in the case of a blood pressure value, a graph corresponding to each of the upper limit value and the lower limit value can be generated by referring to the information “H” and “L” as shown in FIG. .
[0068]
By performing the processing operation of step S407 as described above, in the personal computer 30, the change of each measurement value written in the file with the passage of date and time is easily visually recognized by the user. In the form on the display 38.
[0069]
When the display processing of step S407 is performed, the CPU 34 ends the processing operation.
Here, as a required display mode based on the measurement result information, a case where the measurement result information is displayed in a table, and a case where a graph is displayed based on the measurement result information are described as examples. These display modes are examples of display examples for allowing the user to easily visually recognize the change of the measured value over time, and are not limited thereto.
[0070]
The information processing system according to the present embodiment has been described above.
As described above, in the information processing system of the present embodiment, the memory card 1 is provided with the RTC 5 that generates current time information indicating the current date and time. A connection slot (10a, 20a, 30a) and a memory card interface (11, 21, 31) are provided for each of the blood pressure measurement device 10, the weight measurement device 20, and the personal computer 30. 1 is detachably connected to perform data communication.
[0071]
With such a configuration, in the blood pressure measurement device 10 (and the weight measurement device 20), as the measurement is performed, in the memory card 1 connected via the connection slot 10a (20a). The generated current time information is obtained. Then, the current time information and the measured value are associated with each other to generate measurement result information indicating the measured value and the measurement time, and the measured result information is recorded in the memory card 1. Will be done.
[0072]
As a result, the memory card 1 automatically stores the measurement values measured by the respective measurement devices and the measurement time as the measurement is performed.
As a result, the user can collectively record the measured values and the measured times of the respective items in the memory card 1 without recording the measured values and the measured times on, for example, paper as in the related art. become.
[0073]
Further, the measurement value measured by each measuring device as described above is associated with the current time information generated on the memory card 1 side, so that the measuring time in each measuring device is a common time. Be managed by axis.
In other words, this makes it possible to manage the measurement time of each item measured by a plurality of measurement devices on a common time axis.
Thereby, depending on the information processing system of the present embodiment, it is possible to ensure consistency of the measurement time to be associated with the measurement value measured by each measurement device.
[0074]
Further, as described above, in the information processing system of the present embodiment, the measurement result information recorded in the memory card 1 as described above is displayed in a required display manner via the personal computer 30. be able to. As this display mode, for example, based on each measurement value written in the measurement result information and the measurement time, a change over time of each measurement value is displayed as a graph. .
Thus, in the information processing system according to the present embodiment, for each measurement value recorded in memory card 1, a change over time can be presented in a form that can be easily recognized by the user. Become like
[0075]
Here, as described above, in the information processing system according to the present embodiment, current time information is generated in the memory card 1 as a common storage device that stores measurement values measured between different measurement devices. The RTC 5 is provided. Thus, the measurement time of each measured value can be managed on a common time axis.
In this way, by utilizing the effect obtained by providing the RTC 5 for a storage device common to different devices, the memory card 1 of the present embodiment can be used for a plurality of devices having a clock function. It can also be used for time adjustment between devices.
[0076]
That is, assuming that the plurality of devices having the clock function include, for example, the blood pressure measurement device 10 and the weight measurement device 20 provided with a clock function, the memory connected to the connection slots 10a and 20a will be described. When the current time information is obtained from the card 1, the current time information generated by the own device is adjusted to the current time information.
Thus, the current time information generated in each of the blood pressure measuring device 10 and the weight measuring device 20 is unified based on the current time information generated in the memory card 1.
By doing so, it is possible to save the trouble of manually adjusting the current time information for each device in order to set the time between a plurality of devices having a clock function.
[0077]
Here, the blood pressure measuring device 10 and the weight measuring device 20 as measuring devices have been described as examples of the plurality of devices having the clock function, but the memory card 1 according to the present embodiment is applied to time setting. Devices that can perform the measurement are not limited to these measurement devices.
That is, a predetermined storage device such as a connection slot for connecting the memory card 1 and a plurality of digital still cameras having a memory card interface can be detachably connected, and a storage device common to a plurality of devices. The device is not limited to this as long as it is assumed that the device is used.
[0078]
Note that, in this embodiment, a case where the outer shape of the storage device constituting the information processing system is a card type has been described as an example, but the outer shape of such a storage device is limited to a range having portability. May be changed within.
[0079]
In addition to the configuration of the memory card 1 as a portable storage device as described above as a storage device of the present invention, for example, the storage device of the present embodiment has the following configuration. It is also possible to realize the same function as the memory card 1 of the embodiment.
In other words, the functions of the memory card 1 are divided into a portable function that can be attached to and detached from different measuring devices, and a function that stores measurement values measured by different measuring devices. Is to do so.
As such a configuration, for example, the former function is realized by an adapter having a wireless communication function such as Bluetooth, and the latter function is realized by a server device (a personal computer or the like) capable of performing such Bluetooth communication. An example is the case.
That is, in this case, each measuring device is configured to be able to acquire the current time information held in the server device by, for example, wireless communication via the adapter when the adapter is connected. Then, the measurement result information generated based on the current time information is recorded in a storage medium provided in the server device side by wireless communication via the adapter.
Even with such a configuration, it is possible to realize functions equivalent to those of the memory card 1 of the present embodiment.
[0080]
Further, in the present embodiment, the blood pressure measuring device 10 for measuring blood pressure and the weight measuring device 20 for measuring body weight have been described as examples of the measuring device constituting the information processing system. , Besides this, for example, to perform measurement on a predetermined measurement object relating to the human body, such as a body temperature measuring device capable of measuring the body temperature of a human body and a fat percentage measuring device capable of measuring the body fat percentage of the human body However, the present invention is not limited to this as long as the measuring device can perform the above.
[0081]
Further, in the present embodiment, the personal computer 30 has been described as an example of the information processing apparatus constituting the information processing system. However, as the information processing apparatus of the present invention, other information such as a PDA (Personal Digital Assistant) may be used. It may be a processing device.
[0082]
Further, in the present embodiment, as an output form of the measurement result information read from memory card 1 in personal computer 30, a case where this measurement result information is displayed and output on display 38 in a required display mode has been taken as an example. .
However, as an output form of the measurement result information in the personal computer 30, for example, a required server that manages the measurement result information read from the memory card 1 by a medical institution or the like via a network may be used. You may make it transmit and output to an apparatus.
In this case, the user can surely perform a health check based on the analysis result performed on the server device side based on the measurement result information, for example.
[0083]
Further, in the present embodiment, only the name information is written into the header portion of the file held in the flash memory 4 of the memory card 1. However, for this header portion, for example, the user's height, Other additional information such as gender and age may be written.
For example, if information on the height of the user is written in the header portion of the file, for example, the weight measuring device 20 or the like can calculate the obesity degree from the measured weight value based on the information on the height. It becomes possible.
[0084]
【The invention's effect】
As described above, in the present invention, the storage device for storing the measurement value measured by the measuring device is provided with the current time information generating means for generating the current time information. The measurement device is provided with a connection unit for performing data communication with the storage device.
[0085]
Then, as the measured value is measured on the measuring device side, by associating the measured value with the current time information generated in the storage device connected via the connection means, The measurement result information in which the measured value is associated with the measurement time is generated. Then, the measurement result information generated in this way is stored in the storage device connected as described above.
[0086]
Thus, the user can automatically take the measured value and the measurement time into the storage device at the same time as performing the measurement in the measurement device.
As a result, the user can record the measurement value and the measurement time of each item in one storage device without recording the measurement value and the measurement time on, for example, paper as in the related art. Become.
That is, according to the present invention, it is possible to provide a system that can more easily perform a health check based on a measured value measured by a measuring device.
[0087]
In addition, by associating the measurement value measured by the measurement device as described above with the current time information generated by the storage device, the measurement time of all the measurement devices used as the present invention can be measured. Can be managed by a common time axis.
That is, according to the present invention, it is possible to manage the measurement times of the measurement values of the respective items measured by the plurality of measurement devices on a common time axis.
As a result, according to the present invention, it is possible to ensure consistency of the measurement time to be associated with each measurement value.
[0088]
According to the present invention, the measurement result information recorded in the storage device as described above is output in a required output form via an information processing device configured to enable data communication with the storage device. Like that.
Then, as the output form, for example, if each of the measurement values written in the measurement result information and the display based on the measurement time are performed, the measurement value of each item is displayed over time. Along with this, it is possible to present the change along a form that can be easily visually recognized by the user.
That is, also in this respect, it is possible to provide a system that can more easily perform a health check based on the measurement value measured by the measurement device.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an outline of an information processing system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a main part inside the storage device according to the embodiment;
FIG. 3 is a block diagram showing a configuration of a main part inside the measuring device of the embodiment.
FIG. 4 is a block diagram illustrating a configuration of a main part inside the information processing apparatus according to the embodiment;
FIG. 5 is a diagram illustrating information stored in the storage device.
FIG. 6 is a flowchart showing a recording processing operation of measurement result information in the information processing system of the present embodiment.
FIG. 7 is a flowchart illustrating a recording processing operation of measurement result information in the information processing system according to the present embodiment.
FIG. 8 is a flowchart illustrating a display processing operation of measurement result information in the information processing system according to the present embodiment.
[Explanation of symbols]
Reference Signs List 1 memory card, 2 input / output interface, 3 memory controller, 4 flash memory, 5 RTC, 6 power supply unit, 10 blood pressure monitor, 11 memory card interface, 12 microcomputer, 13 blood pressure measurement unit, 14 blood pressure measurement sensor, 15 display Unit, 16 operation unit, 20 weight measuring machine, 30 personal computer, 31 memory card interface, 32 ROM, 33 RAM, 34 CPU, 35 input / output interface, 36 keyboard, 37 mouse, 38 display

Claims (8)

It consists of a measuring device and a storage device capable of storing information,
Measuring means that is provided in the measuring device and obtains a measurement value by performing measurement on a predetermined measurement target regarding the human body,
Connection means for communicatively connecting the measurement device and the storage device loaded in the measurement device,
Current time information generating means provided in the storage device and capable of generating current time information;
Information generation means for generating measurement result information associated with the current time information obtained from the current time information generation means, for the measurement value obtained by the measurement means,
Storage control means for controlling the measurement result information generated by the information generation means to be stored in the storage device,
An information recording system comprising: The measuring device is
A measuring device-side current time information generating means capable of generating current time information,
Adjustment for adjusting the time of the current time information generated by the measuring device-side current time information generating means by using the current time information obtained through the connecting means from the current time information generating means on the storage device side Means,
The recording system according to claim 1, further comprising: A measuring device, a storage device capable of storing information, and an information processing device,
Measuring means that is provided in the measuring device and obtains a measurement value by performing measurement on a predetermined measurement target regarding the human body,
Connection means for communicatively connecting the measurement device and the storage device loaded in the measurement device,
Current time information generating means provided in the storage device and capable of generating current time information;
Information generation means for generating measurement result information associated with the current time information obtained from the current time information generation means, for the measurement value obtained by the measurement means,
Storage control means for controlling the measurement result information generated by the information generation means to be stored in the storage device,
Information acquisition means provided in the information processing device, for reading and acquiring the measurement result information stored in the storage device,
An information processing unit that is provided in the information processing apparatus and outputs the measurement result information obtained by the information obtaining unit in a required output form;
An information processing system comprising: The information processing means includes:
The measurement result information acquired by the information acquisition means is configured to execute control for displaying and outputting the information in a required display form.
The information processing system according to claim 3, wherein: The information processing means includes:
The measurement result information obtained by the information obtaining means is configured to be able to be transmitted and output to a required server device connected via a network.
The information processing system according to claim 3, wherein: Connection means for communicatively connecting to the measurement device when mounted on a measurement device that obtains a measurement value by performing measurement on a predetermined measurement target related to the human body;
Current time information generating means capable of generating current time information;
Storage means for storing information;
Storage control means for obtaining measurement result information associated with the current time information obtained from the current time information generation means for the measurement value obtained by the measurement device, and storing the measurement result information in the storage means;
A storage device comprising: Connection means capable of communicatively connecting to a storage device having a predetermined external shape in a loaded state,
Measuring means for measuring a predetermined measurement target relating to the human body to obtain a measurement value;
Necessary information for causing the measured value obtained by the measuring means to be associated with the current time information generated on the storage device side is stored in the storage device of the storage device. Processing execution means for executing processing;
A measuring device comprising: The processing execution means includes:
The measurement value obtained by the measurement unit and the current time information obtained from the storage device via the connection unit are associated with each other, and the measurement result information is generated.
The generated measurement result information is stored in the storage unit, and the processing for transferring the measurement result information to the storage device side via the connection unit is configured to be executable.
The measuring device according to claim 7, wherein:

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