JP2009148338A - Portable device and its program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable device which adds consumption energy in a life and is used for a system for managing activity energy. <P>SOLUTION: The portable device comprises an activity energy storage means 104 for calculating and recording the activity energy, a proximity-to-specific positions detecting means 105 for detecting that a user is in the proximity of a specific device 2 placed in a specific position, a specific position consumption energy storage means 106 for accumulating the consumption energy of a prescribed amount by a prescribed hour and storing during the detection of the proximity to the specific device 2 by the means 105, and a consumption energy storage means 107 for adding the consumption energy stored in the means 106 to the activity energy stored in the means 104 to store it. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a portable device used in an activity energy management system for measuring and storing activity information data for use in activity energy management, and a program thereof.

  2. Description of the Related Art Conventionally, in order to perform diet and health management using consumed energy, conversion into consumed energy using the number of steps has been performed. However, in daily life, there was a lot of energy consumption other than walking, and the total energy consumption was not fully understood.

  Installed in the bathroom, personal data (weight, height, gender, age, etc.) is input and stored, and the bathing time is counted by inputting a bathing start instruction, and the time data and the pre-selected personal data are stored. A remote control device for a water heater has been devised that calculates and displays the amount of energy consumed during bathing using the basal metabolism reference value corresponding to (see Patent Document 1, for example).

  It also has a function to measure and store the heart rate at rest from the earlobe and to calculate the energy consumed during bathing from changes in bathing time, hot water temperature and heart rate, and to display the calculated value. And the remote control apparatus of the water heater which can confirm the change of the numerical value for every set period is also devised (for example, refer patent document 2).

  Also, by providing mat-shaped detection means in the house, detecting that a person has got on the mat-shaped detection means, and calculating the movement state of the person, etc. A management system has been devised in which the number of steps is counted and the person's activity level is known by knowing which position in the room in the house is moving around (see, for example, Patent Document 3).

Furthermore, a fixed unit that is attached to a bicycle and wirelessly transmits speed information, a wireless reception unit that receives a wireless signal from the fixed unit, an attachment / detachment detection unit that detects an attachment / detachment state to / from the bicycle, the wireless reception unit, and the attachment / detachment A data processing unit that inputs a signal from the detection unit; and a portable device that includes a step detection unit that counts the number of steps of the user and can be attached to and detached from the bicycle. The portable device receives a signal from the attachment / detachment detection unit Thus, when it is determined that the portable device is attached to the bicycle, the running state of the bicycle is calculated based on the signal from the wireless receiver, and when it is determined that the portable device is detached from the bicycle, the number of steps is detected. The user's walking state is calculated based on the signal from the unit, and based on the signals from the wireless receiving unit and the number of steps detecting unit, the user's bicycle energy consumption and walking Bicycle computing device and calculates the total consumed energy by summing the energy consumption has been proposed (e.g. see Patent Document 4).
Japanese Patent Laid-Open No. 10-305072 JP 2004-308947 A Japanese Patent Laid-Open No. 11-155825 JP 2000-131091 A

However, in the configuration of the first active energy management system described above, it is necessary for the user to give an instruction to start or end bathing, and there is a possibility of the user forgetting to operate or making an error. Further, in the configuration of the second activity energy management system, a device for measuring heart rate and measuring the temperature of hot water is required, and it is necessary to install the measuring device in a bathroom. Furthermore, both can only measure the energy consumed at the time of bathing, and the total energy consumed in life cannot be confirmed.

  Furthermore, in the configuration of the third activity energy management system, it is difficult to install a mat-shaped detection means in a place where the floor is special, such as a bathroom, and it is necessary to install the detection means in any place in the house. Therefore, there is a problem that the scale of the system and the cost become large.

  Further, in the configuration of the fourth activity energy management system, since the energy consumption for the bicycle is calculated only by receiving the bicycle speed information, the energy consumption other than the bicycle and walking cannot be calculated.

  This invention solves the said conventional subject, and it aims at providing the portable apparatus used for the active energy management system which can add up the energy consumption in life including exercises, such as bathing and a bicycle.

  In order to solve the above-described problem, the portable device of the present invention includes an identification information storage unit that holds identification information for identifying at least one of an identification number, sex, age, and the like, weight, Activity data obtained by biometric information storage means that retains at least one of body fat percentage, height, and other data, and at least one method such as counting steps or measuring acceleration And an active energy storage means for calculating and recording active energy using at least one of the data stored in the identification information storage means and the biometric information storage means, and a specific installed at a specific position A specific position proximity detecting means for detecting the proximity to the device, and while detecting the proximity to the specific device by the specific position proximity detecting means Specific location consumption energy storage means for accumulating and storing a predetermined amount of consumption energy in a predetermined time unit, and activity energy stored in the activity energy storage means for consumption energy stored in the specific location consumption energy storage means And energy consumption storage means for storing the total. As a result, the energy consumption is calculated from the number of steps and acceleration while the mobile device is always carried, and it is necessary to remove the mobile device or bring it close to a specific device installed at a specific position where there is no overall movement. Since the energy consumption of the managed person is calculated, the energy consumption based on the number of steps only and the energy consumption at a specific position can be calculated.

  The portable device of the present invention calculates the energy consumption of the manager at that location when it is necessary to remove the portable device or when it is close to a specific device installed at a specific position where there is no overall movement. In addition to calculating energy consumption, it is possible to check the overall energy consumption in daily life.

The first invention relates to a portable device, an identification information storage means for holding identification information for identifying at least any one of an identification number, sex, age, etc., and weight, body fat Biometric information storage means for holding at least one of rate, height, and other data, activity data obtained by at least one method of counting the number of steps or measuring acceleration, and the like, Active energy storage means for calculating and recording active energy using at least one of the data stored in the identification information storage means and the biometric information storage means, and a specific device installed at a specific position While detecting the proximity to the specific device by the specific position proximity detection means for detecting proximity and the specific position proximity detection means, Specific location consumption energy storage means for accumulating and storing a predetermined amount of energy consumption in a predetermined time unit, and activity for storing the energy consumption stored in the specific location consumption energy storage means in the activity energy storage means Consists of energy consumption storage means that stores energy in combination with energy, and calculates energy consumption based on the number of steps and acceleration while carrying a mobile device at all times. When approaching a specific device installed at a specific location, the energy consumption of the managed person at that location is calculated, so it is possible to calculate the sum of the energy consumed at the number of steps and the energy consumption at the specific location. , You can check the overall energy consumption in your life.

  The second invention has a specific position data receiving means for receiving data from a specific device by approaching a specific position, particularly in the first invention, and the specific position consumption energy storage means is configured to receive the specific position data. By storing the energy consumption at a specific position based on the data received by the means, the energy consumption data periodically received from the specific position consumption energy receiving means when the portable device approaches the specific position By storing in the energy consumption storage means, even if there are a plurality of specific positions, only one switch may be used for the specific position proximity detection means, and if the energy consumption data transmitted by the specific device is data specific to the specific position, The specific position consumption energy storage means does not need to store calculation formulas and parameters for each specific position.

  According to a third aspect of the present invention, in particular, in the first or second aspect, the specific position proximity detection unit wirelessly transmits the specific position so as to reach a certain distance from the specific position where the specific apparatus is installed. By detecting a beacon that includes identification information, it is possible to detect the proximity to a specific position by receiving a beacon by detecting the proximity to the specific position, so the managed person can identify the mobile device as a specific device. There is no need to deliberately approach, and the managed person only has to approach the specific device, so that natural behavior is not hindered.

  The fourth invention has a beacon response means for returning a response to the specific device when the beacon is detected by the specific position proximity detection means, particularly in the third invention, wherein the specific position data receiving means is the specific device. By detecting the response to the beacon and receiving the energy consumption data that is transmitted periodically, the energy consumption data from the specific device can be obtained only when the mobile device is in proximity. Not to do.

  According to a fifth aspect of the invention, in particular, in any one of the first to fourth aspects of the invention, the specific position is at least one of a bathroom, a dressing room, a bedroom, a bicycle, and an exercise equipment. Energy consumption of the managed person even in places where the portable device may be removed or where the active energy cannot be accurately measured by means such as a pendulum or acceleration sensor, which are commonly used to detect the behavior of the managed person. Can be calculated.

  In a sixth aspect of the invention, particularly in the fourth aspect of the invention, the specific device can calculate energy consumption by including data stored in at least one of the identification information storage means and the biological information storage means in the response to the beacon. It is not necessary to store necessary data, and energy consumption according to the managed person can be calculated and displayed based on the data received from the portable device, so that the configuration of the specific device 2 is easy. Become.

  In particular, according to a seventh invention, in any one of the first to sixth inventions, the seventh invention has a biological information receiving means for receiving biological information from a biological information measuring device having a function of transmitting biological information. When the biological information is wirelessly transmitted from the biological information measuring device after measurement by the biological information measuring device by holding the biological information in the biological information storage device, the biological information wireless device of the portable device receives the biological information. Therefore, the person to be managed does not make a mistake in inputting biometric information, and cannot be tampered with, and can be used more accurately as a parameter for managing energy consumption.

  An eighth invention is a program for causing a computer to execute at least a part of any one of the first to seventh inventions, thereby changing or adding a program during operation by downloading on a recording medium or a communication line. Therefore, it is possible to cope with a new specification change.

(Embodiment 1)
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is an overall configuration diagram of an active energy management system using a portable device in the first embodiment of the present invention, and FIG. 2 is a block configuration diagram of the portable device 1 in the present embodiment.

  The portable device 1 is always carried by a person who manages the active energy, and is fixed to the waist belt, worn with a string from the neck, wrapped around the wrist, put in a pocket of clothes, stuck on the body or clothes, etc. As shown in FIG. 2, the identification information storage means 101 holds identification information for identifying at least any one of the managed persons such as an identification number, sex, and age. And biometric information storage means 102 that retains at least one of data such as body weight, body fat percentage, and height, activity data obtained by the step count measuring means 103 that counts the number of steps, and identification information storage means 101 and the living body An active energy storage unit 104 that calculates and records active energy using at least one of the data stored in the information storage unit 102; While detecting the proximity to the specific device 2 by the specific position proximity detection means 105 and the specific position proximity detection means 105 for detecting the proximity to the specific device 2 installed at the position of Specific position consumption energy storage means 106 that accumulates and stores a predetermined amount of consumption energy in a predetermined time unit, and activity energy stored in the activity energy storage means 104 that is stored in the specific position consumption energy storage means 106 The energy consumption storage means 107 that stores the energy consumption and the energy consumption display means 108 made of a liquid crystal screen or the like for displaying the energy consumption stored in the energy consumption storage means 107 are configured.

  For example, if it is integrated with other functions such as a mobile phone, a portable audio player, an IC recorder, a card calculator, and a wristwatch, the portability becomes higher.

  The specific position proximity detecting means 105 is constituted by a reed switch, and a magnet is mounted on the specific device 2, and the reed switch is turned on by bringing the portable device 1 close to the specific device 2, so that one is connected to the power source. Since the other of the reed switches is also at the same potential as the power supply, it can be detected that the portable device 1 is close to the specific device 2 at a specific position.

  In addition, if it detects with the switch which turns on by actually contacting, it can be comprised comparatively cheaply rather than the combination of a reed switch and a magnet.

  The portable device 2 is installed in or near an exercise apparatus such as a bathroom, a dressing room in front of the bathroom, a bedroom, a bicycle handlebar, a walking / running machine, etc. Assume that you are acting. For example, a dressing room is bathing, and a bicycle handlebar is cycling.

  The biological information measuring device 3 measures biological information of a managed person and includes measuring devices such as weight, body fat percentage, blood pressure, heart rate / pulse rate, and height. The stored data in the biological information storage means 102 of the portable device 1 is an input means such as a keypad (not shown) provided in the portable device 1 with data measured by the biological information measuring device 3 or data stored by the manager himself / herself. Use to input.

  Next, the use procedure and operation | movement of the active energy management system of this Embodiment are demonstrated.

  The managed person always carries the portable device 1. When the managed person walks or runs, the step counting means 103 of the portable device 1 counts the number of steps of the managed person and transfers the number of steps to the active energy storage means 104. The transfer interval may be every step or may be transferred at regular intervals such as 10 seconds. In addition, in order to transfer for every step, it is only necessary to notify a pulse signal for each step, so the communication line and the telegram can be greatly simplified. Further, a clocking function is required for at least one of the step count counting means 103 and the active energy storage means 104 in accordance with the transfer interval.

  In the active energy storage means 104, the active energy based on the number of steps, that is, the calorie consumption is calculated by the following calculation formula and is made for each time unit.

Calories burned (kcal) = steps ÷ 30
When calculating calorie consumption a little more strictly, the gender, age, and weight of the managed person stored in the biological information storing means 102 are the identification information of the managed person stored in the identification information storing means 101. With reference to the calculation formula below, it is converted into calorie consumption as activity energy and stored for each time unit.

Calories burned (kcal) = basal metabolism (kcal) × METs × body weight (kg) × walking time (minutes)
Here, the basal metabolism is energy consumption per unit time in a resting state, and the value varies depending on age and sex as shown in FIG.

  METs is an index indicating how many times the energy consumption in the resting state is consumed, and is determined as shown in FIG. In walking, the step length is stored in the identification information storage means 101, and the walking speed can be obtained by dividing the product of the number of steps and the step length by the walking time, so METs are determined by this.

  The discrimination between walking and jogging cannot be performed strictly by the number of steps, but instead of counting the number of steps by the number of steps counting unit 103, the acceleration is constantly notified to the active energy storage unit 104 using a sensor that detects the acceleration. If it does, it can discriminate | determine by the tendency of acceleration. For example, when the vertical acceleration changes at equal intervals, walking or jogging is performed, and if the vertical acceleration is more than a certain width, it may be determined that the jogging is performed.

  The storage interval in the active energy storage means 104 is set to 2 minutes so that the active energy over time can be recorded.

  When the managed person takes a bath, the portable device 1 is placed on the specific device 2 installed in the dressing room of the bathroom which is one of the specific positions. At this time, the specific device 2 is provided with a protrusion at the switch portion of the specific position proximity detecting means 105, and the portable device 1 is placed on the specific device 2 to turn on the switch of the specific position proximity detecting means 105. Is in the bath.

  When the specific position proximity detection means 105 is turned on, the specific position consumption energy storage means 106 calculates and stores calories consumed during bathing.

The calorie consumption during bathing refers to the gender, age, and weight of the managed person stored in the biological information storing means 102 as identification information of the managed person stored in the identification information storing means 101.
Converted by the following formula and stored for each time unit.

Bath calorie consumption (kcal) = 0.0606 (kcal) × body weight (kg) × bath time (minutes) × correction coefficient The correction coefficient is shown in FIG. 5 according to age and sex.

  In the present embodiment, the calculation of the energy consumption during bathing is performed by a method different from the calculation formula performed by the active energy storage means 104, but the calculation is performed using the same formula by using METs during bathing. It is good to do.

  The consumption energy storage means 107 periodically reads out the data of the activity energy storage means 104 and the specific position consumption energy storage means 106 and adds them together to calculate the total energy consumption of the manager.

  The consumption energy display unit 108 displays the energy consumption value of the managed person stored in the consumption energy storage unit 107. The content to be displayed may be the number of steps or weight from the active energy storage unit 104.

  Note that the gender and age stored in the identification information storage means 101 are stored using an input means such as a keypad (not shown).

  Further, in the present embodiment, the specific position is only the dressing room of the bathroom, but it may be in the bathroom, or the bedroom where the portable device 1 may be removed or the managed device of the portable device 1 may be removed. Bicycles, treadmills, and other exercise equipment such as training machines that cannot accurately measure activity energy by means such as a pendulum or an acceleration sensor that are generally used for detecting a person's behavior can also be set at a specific position.

  In this case, the specific position proximity detecting means 105 has a switch corresponding to each specific place, and determines whether the switch is turned on, whether it is bathing, sleeping or cycling. Then, if the calorie consumption is calculated according to each determination, and the calculation result is stored by the specific position consumption energy storage means 106, the managed person's stored in the consumption energy storage means 107 is stored. Energy consumption is more accurate.

  As described above, while the portable device 1 is always carried, the energy consumption is calculated from the number of steps and the acceleration, and it is necessary to remove the portable device 1 or to the specific device 2 installed at a specific position where the entire movement is not performed. When approaching, the energy consumption of the managed person at that location is calculated, so that not only the energy consumption calculation based on the number of steps alone but also more accurate energy consumption calculation can be performed.

  In the present embodiment, the energy consumption at the specific position is calculated by the specific position consumption energy storage means 106 when approaching the specific position. However, as shown in FIG. If energy data transmission means is provided and the mobile device 1 is provided with the specific location consumption energy reception means 109, when the mobile device 1 comes close to the specific location, the mobile device 1 periodically receives from the specific location consumption energy reception means 109. By storing the consumption energy data in the specific position consumption energy storage unit 106, even if there are a plurality of specific positions, only one switch is used for the specific position proximity detection unit 105, and the consumption energy data transmitted by the specific device 2 is stored. Data specific to a specific location (for example, 0.606 kcal per unit time for a bathroom dressing room) If, storage formula and parameters for each specific position becomes unnecessary in certain positions consumption energy storage means 106.

(Embodiment 2)
Next, a second embodiment of the present invention will be described using the configuration diagram of the mobile device 1 of FIG.

  The difference between the present embodiment and the first embodiment is that the specific position proximity detecting means 105 has a wireless reception function for receiving a beacon from a specific device 2 installed at a specific position when approaching a certain distance. In addition, when a beacon is received, a beacon response means 110 is provided that wirelessly responds to the specific device 2 with the identification number of the portable device 1, that is, the ID of the managed person.

  The usage procedure and operation of the active energy management system of the present embodiment will be described.

  When the specific position proximity detecting unit 105 approaches the specific device 2 installed at the specific position up to a certain distance, the specific position proximity detecting unit 105 receives a beacon and determines that the specific apparatus 2 is close to the specific position.

  Further, if it is determined that it is close to the specific position, the beacon response means 110 wirelessly responds to the specific device 2 with the identification number of the portable device 1, that is, the ID of the manager.

  Since the specific device 2 wirelessly transmits the energy consumption data corresponding to the ID of the managed person from the mobile device 1, the mobile device 1 can be received by the specific energy receiving unit 109 of the mobile device 1 so that the mobile device 1 is in a specific position. The energy consumption data received from the specific-position-consumption energy receiving means 109 at regular intervals when it is close to is stored in the specific-position consumption energy storage means 106.

  The specific position proximity detection means 105 and the radio used for transmitting the beacon need only be able to communicate at a distance at which the managed person can be confirmed to be in a specific position such as a room or a bicycle. Communication using a RFID with a distance of several meters is performed. In particular, if a passive RF tag is used, since the mobile terminal 1 can start a receiving circuit with a beacon without always receiving a beacon, it is effective for power saving of a circuit using a battery as the mobile device 1. is there.

  Further, if a specific low-power radio using a radio wave band such as a 400 MHz band or a 900 MHz band is used for wireless communication, the wireless communication distance can be several tens to several hundreds of meters. The range determined to be close to the specific position in 105 is not only that the beacon can be received but also that the received radio wave intensity is equal to or greater than a predetermined threshold, and the distance that is determined to be close to the specific position is changed. Can be adjusted and changed.

  As described above, since the proximity to the specific position can be detected by receiving the beacon, the managed person does not need to deliberately bring the mobile device 1 close to the specific device 2, and the managed person even approaches the specific device 2. So that natural behavior is not hindered.

  Further, the specific device 2 is consumed as a value obtained by multiplying the data specific to the specific position from the gender, age, and weight of the managed person stored by the specific device 2 based on the ID of the managed person and the coefficient for each managed person. Since energy data can be calculated, it is possible to display the energy consumption of the managed person at the specific device 2, and since the specific device 2 transmits it to the mobile device 1, the specific device 2 is close to the mobile device 1. Since the energy consumption is transmitted only when it is being used, unnecessary data transmission is not performed, and the specific position consumption energy storage means 106 does not need to store a calculation formula or parameter for each specific position.

  If the gender, age, and weight are entered from the data stored in the identification information storage means 101 or the biometric information storage means 102 into the beacon response means 110, the specific device 2 has the gender and age corresponding to the ID of the manager. The weight does not need to be stored, and the energy consumption corresponding to the person to be managed can be calculated and displayed by the calculation formula corresponding to the built-in specific position, so that the configuration of the specific device 2 is facilitated.

  In the present embodiment, the beacon is transmitted from the specific device 2 and detected by the specific position detecting means 105 of the mobile device 1. On the contrary, the beacon is periodically transmitted from the mobile device 1. If a response is made to the specific device 2 using a passive RF tag, the power supply of the specific device 2 is unnecessary, and the ID of the specific device 2 is confirmed by a response from the specific device 2 and a specific position corresponding to the ID If the energy consumption is calculated using each calculation formula and parameter, the specific device 2 can be configured only with a passive RF tag, and therefore can be easily installed in a place where a power source cannot be prepared.

  In each embodiment, biological information such as body weight is written in the biological information storage means 102 of the portable device 1 by a managed person. However, as shown in FIG. If the living body information receiving means 111 for wirelessly receiving the living body information from the living body information measuring device 3 is provided, the portable information device when the living body information is wirelessly transmitted from the living body information measuring device 3 after measurement by the living body information measuring device 3 Since one biometric information wireless unit 111 receives the biometric information, the managed person does not input the biometric information in error and cannot be tampered with, and is used as a parameter for managing energy consumption more accurately. be able to.

  Further, the present invention may be a program for causing each device to implement the above embodiments, or a recording medium (such as a ROM built-in cassette) on which the program is recorded. It can be easily realized by using a general-purpose portable information terminal such as a PDA by using a program, and a single portable information terminal can be used as various biological information processing devices by exchanging a recording medium on which the program is recorded. Can be easily used.

  As described above, the portable device according to the present invention and the program thereof are used for activity energy management, and the total consumption energy can be managed by adding the energy consumption of the manager at a specific position only by always wearing it. Therefore, it can be applied to the use of a consumption energy management system for medical care or home calorie consumption management or health management.

Overall configuration diagram of an active energy management system according to Embodiment 1 of the present invention Block configuration diagram of the portable device according to the first embodiment of the present invention The figure which shows the basal metabolism of the management person which is used with portable equipment The figure which shows METs of the management person used with a portable device The figure which shows the consumption energy correction coefficient at the time of bathing of the manager who uses with portable equipment The block block diagram of the portable apparatus of another structure in Embodiment 1 of this invention The block block diagram of the portable apparatus in Embodiment 2 of this invention The block block diagram of another portable apparatus in Embodiment 2 of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Portable apparatus 2 Specific apparatus 3 Biometric information measuring apparatus 101 Identification information storage means 102 Biometric information storage means 103 Step count means 104 Active energy storage means 105 Specific position proximity detection means 106 Specific position energy storage means 107 Consumption energy storage means 108 Consumption energy Display means 109 Specific position consumption energy receiving means 110 Beacon response means 111 Biometric information receiving means

Claims (8)

At least one of identification information storage means for holding identification information for identifying at least one of the identification number, sex, age, etc., and data such as body weight, body fat percentage, height, etc. Biological information storage means for holding the above, activity data obtained by at least one method such as counting the number of steps or measuring acceleration, and the identification information storage means and the biological information storage means Active energy storage means for calculating and recording active energy using at least one of the stored data and specific position proximity detection for detecting proximity to a specific device installed at a specific position And a predetermined time unit during detection of proximity to the specific device by the specific position proximity detection means. Specific position consumption energy storage means for accumulating and storing the energy consumption, and consumption energy storage means for storing the energy consumption stored in the specific position consumption energy storage means together with the activity energy stored in the activity energy storage means And a portable device. Specific position data receiving means for receiving data from a specific device by approaching a specific position, the specific position consumption energy storage means at a specific position based on the data received by the specific position data receiving means; The portable device according to claim 1, which stores the consumed energy. The specific position proximity detecting means detects a beacon including at least identification information of the specific apparatus wirelessly transmitted so as to reach a certain distance from the specific position where the specific apparatus is installed. The portable device according to claim 1, wherein the portable device detects proximity. When the beacon is detected by the specific position proximity detecting unit, the beacon response unit returns a response to the specific device, and the specific position data receiving unit periodically transmits the specific device detecting a response to the beacon. The portable device according to claim 3, wherein the portable device receives energy consumption data. The portable device according to any one of claims 1 to 4, wherein the specific position is at least one of a bathroom, a dressing room, a bedroom, a bicycle, and an exercise equipment. The portable device according to claim 4, wherein data stored in at least one of the identification information storage unit and the biological information storage unit is included in a response to the beacon. 7. The biological information receiving means for receiving biological information from a biological information measuring device having a biological information transmission function, and holding the biological information in the biological information storage means. A mobile device that is either. A program for causing a computer to execute at least a part of the portable device according to any one of claims 1 to 7.