WO2013168342A1

WO2013168342A1 - Physical activity measurement device

Info

Publication number: WO2013168342A1
Application number: PCT/JP2013/001796
Authority: WO
Inventors: 一哉村井; 金綱　良壽
Original assignee: パナソニック株式会社
Priority date: 2012-05-10
Filing date: 2013-03-15
Publication date: 2013-11-14
Also published as: JP2013233341A

Abstract

Provided is a physical activity measurement device capable of suppressing electric power consumption. A physical activity measurement device (1) is provided with an acceleration sensor (60), a communication unit (53) which communicates with an external device (2), and a control unit (51) which calculates the amount of physical activity on the basis of the detection result of the acceleration sensor (60). The control unit (51) stops the calculation of the amount of physical activity and the supply of electric power to the acceleration sensor (60) when the communication unit (53) communicates with the external device (2).

Description

Physical activity measuring device

The present invention relates to a physical activity measuring device including an acceleration sensor and a communication unit that communicates with an external device.

As a physical activity measurement device, for example, a biological information output system of Patent Document 1 is known. The biological information output system includes an action information collection device having a motion sensor, a communication unit, and an MPU, and an action information output device having a communication unit and a personal computer. The behavior information collection device calculates the number of steps, calorie consumption, etc. based on the body movement signal generated by the body movement sensor. The behavior information collection device communicates information such as the number of steps and calorie consumption to the personal computer through the two communication units.

JP 2000-41953 A

In the action information collection device of the biological information output system, the consumption of power increases as the number of units simultaneously operating to execute functions such as calculation of detection results of the body movement sensor and communication of information by the communication unit increases.

In order to solve the above-mentioned subject, the present invention aims at providing a physical activity measuring device which can control consumption of electric power.

The physical activity measuring device according to the present invention calculates an amount of physical activity based on an acceleration sensor, a communication unit communicating with an external device, and a detection result of the acceleration sensor, and the communication unit communicates with the external device. The control unit may stop at least one of the calculation of the amount of physical activity and the detection by the acceleration sensor.

In the above-mentioned physical activity measuring device, the control unit stops communication between the communication unit and the external device, a communication mode enabling communication between the communication unit and the external device, and The control unit has a measurement mode that enables calculation of the amount of physical activity and detection by the acceleration sensor, and the control unit calculates the amount of physical activity when the mode is changed from the measurement mode to the communication mode. It is preferable to stop at least one of the detections by the acceleration sensor.

In the physical activity measuring device, preferably, the control unit changes the mode from the communication mode to the measurement mode when a predetermined time has elapsed after changing the mode from the measurement mode to the communication mode.

In the physical activity measuring device, the physical activity measuring device includes a communication button, and the control unit changes the mode from the measurement mode to the communication mode when the communication button is kept pressed for a predetermined time. Is preferred.

In the above-mentioned physical activity measuring device, it is preferable to have a battery for supplying electric power to the control unit.

In the above-mentioned physical activity measuring device, when the communication unit completes communication with the external device, the control unit operates at least one of calculation of the stopped physical activity amount and detection of the acceleration sensor. Is preferred.

When the physical activity measuring device of the present invention calculates an amount of physical activity based on an acceleration sensor, a communication unit communicating with an external device, and a detection result of the acceleration sensor, and the communication unit communicates with the external device And a control unit configured to make the first period for calculating the amount of physical activity longer than the second period for calculating the amount of physical activity when the communication unit is not communicating with the external device.

The present invention provides a physical activity measurement device capable of suppressing power consumption.

About the physical activity measuring device of embodiment of this invention, (a) is a perspective view which shows a perspective view structure, (b) is a side view which shows side structure. The block diagram which shows a circuit structure about the physical activity measuring device of embodiment. The front view which shows the front structure of a display part about the physical activity measuring device of embodiment. The front view which shows the front structure of a display part about the physical activity measuring device of embodiment. The flowchart which shows the procedure of a mode change control process about the physical activity measuring device of embodiment.

The configuration of the activity meter as the physical activity measuring device 1 will be described with reference to FIG.

As shown in FIG. 1A, the physical activity measurement device 1 includes a housing 10, a display unit 20, a battery 30, a communication button 40, a control circuit 50 (see FIG. 2), an acceleration sensor 60 (see FIG. 2), And clip 70 (see FIG. 1 (b)). The physical activity measuring device 1 is attached to the user by the clip 70 being pinched by the belt of the user. The physical activity measuring device 1 detects the force applied to the acceleration sensor 60 based on the user's motion such as walking. The physical activity measuring device 1 calculates the amount of physical activity based on the detection result of the acceleration sensor 60 (hereinafter, “physical activity amount calculation”). The amount of physical activity includes the number of steps, calories consumed by activity, and exercise intensity.

The housing 10 is formed in a substantially L shape in a side view (see FIG. 1B). The housing 10 accommodates the display unit 20, the battery 30, the control circuit 50, and the acceleration sensor 60. The display unit 20 includes a pair of transparent substrates 21 disposed so as to sandwich the liquid crystal, and transparent electrodes (not shown) functioning as segments for applying a voltage to the liquid crystal. One transparent electrode of the pair of transparent substrates 21 is attached to the transparent substrate 21. The display unit 20 displays the physical activity amount of the user, personal information of the user, and the like. The communication button 40 is located on the side of the housing 10. The clip 70 is fixed to the housing 10. The personal information of the user includes age, gender, height and weight.

The circuit configuration of the physical activity measuring device 1 will be described with reference to FIG.

The control circuit 50 includes a control unit 51, a storage unit 52, a communication unit 53, and a communication switching circuit 54.

The control unit 51 is configured of a microcontroller (MCU). The control unit 51 is connected to the display unit 20, the battery 30, the communication button 40, the acceleration sensor 60, and the communication switching circuit 54. The control unit 51 includes a counter for measuring time. The control unit 51 controls the display of the physical activity amount and the like by the display unit 20, controls the power supply to the acceleration sensor 60, and calculates the physical activity amount based on the detection result of the acceleration sensor 60. The control unit 51 calculates the amount of physical activity based on a known calculation formula using a basic constant based on personal information of the user.

The storage unit 52 is configured of a non-volatile memory. The storage unit 52 uses an EEPROM (Electrically Program Read-Only Memory) as a non-volatile memory. The storage unit 52 stores the calculation result of the physical activity amount and the personal information of the user. The storage unit 52 is divided into a plurality of slots. In each slot of the storage unit 52, for example, calculation results of the amount of physical activity of the user of one day are stored.

The communication unit 53 communicates with a mobile phone functioning as the external device 2. Communication unit 53 includes an integrated circuit for RFID (Radio Frequency IDentification) (hereinafter, “communication IC”), and an antenna circuit (both not shown) that transmits and receives an electromagnetic wave when communicating with external device 2. The antenna circuit has an antenna substrate and an antenna pattern of copper foil (both not shown) formed on the antenna substrate. The antenna pattern is formed in a spiral shape. As communication between the physical activity measuring device 1 and the external device 2, transmitting personal information of the user stored in the external device 2 to the physical activity measuring device 1, and externalizing the physical activity amount stored in the storage unit 52 Transmission to the device 2 may be mentioned.

The communication switching circuit 54 is connected to the storage unit 52 and the communication unit 53. That is, the storage unit 52 and the communication unit 53 are connected to the control unit 51 via the communication switching circuit 54. Communication switching circuit 54 is connected between storage unit 52 and control unit 51 (hereinafter, “storage unit connection state”), and between communication unit 53 and control unit 51 (hereinafter, “communication unit connection state”. ") Switch.

The voltage of the electrode (not shown) of the acceleration sensor 60 changes in proportion to the acceleration or the like applied to the physical activity measuring device 1 when the user operates. The acceleration sensor 60 supplies a detection signal corresponding to the voltage of the electrode to the control unit 51.

The control unit 51 has a sleep mode, a measurement mode, and a communication mode as control modes. The control unit 51 changes the control mode to the sleep mode or the measurement mode based on the detection signal of the acceleration sensor 60. Further, based on the operation of the communication button 40, the control unit 51 changes the control mode to the communication mode. The control unit 51 changes the control mode to the sleep mode or the measurement mode using the first threshold value X1 and the second threshold value X2 (X1 <X2), which are the threshold values for the detection signal of the acceleration sensor 60. The first threshold X1 and the second threshold X2 are stored in the storage unit 52. In the sleep mode and the measurement mode, the communication unit 53 can not communicate with the external device 2.

In the sleep mode, for example, it is assumed that the physical activity measuring device 1 is placed on a desk without the user wearing the physical activity measuring device 1. In the sleep mode, the power supply to the display unit 20 is stopped, and the cycle of power supply to the acceleration sensor 60 (hereinafter, "power supply cycle") and the cycle of physical activity calculation (hereinafter, "compute cycle") The longest of the control modes. The control unit 51 changes to the sleep mode when the state where the detection signal of the acceleration sensor 60 is smaller than the first threshold value X1 is maintained for the predetermined time TA. The predetermined time TA is the time required for the control unit 51 to determine the control mode based on the measurement of the amount of change in the detection signal of the acceleration sensor 60, and is set in advance by experiment or the like.

The measurement mode has a first measurement mode and a second measurement mode.

In the first measurement mode, for example, it is assumed that the office work is performed when the user wears the physical activity measurement device 1 and sits on a chair. In the first measurement mode, power is supplied to the display unit 20, and the power supply cycle and the calculation cycle are shorter than the power supply cycle and the calculation cycle of the sleep mode. The control unit 51 changes to the first measurement mode when the state in which the detection signal of the acceleration sensor 60 is smaller than or equal to the first threshold X1 and smaller than the second threshold X2 is maintained for a predetermined time TA.

In the second measurement mode, for example, it is assumed that the user wears the physical activity measurement device 1 and exercise such as walking is performed. In the second measurement mode, power is supplied to the display unit 20, and the power supply cycle and the calculation cycle are shorter than the first measurement mode. The control unit 51 changes to the second measurement mode when the state where the detection signal of the acceleration sensor 60 is equal to or higher than the second threshold X2 is maintained for the predetermined time TA.

In the communication mode, communication between the communication unit 53 and the external device 2 is possible. In the communication mode, power is supplied to the display unit 20 and the communication IC, and the power supply to the acceleration sensor 60 and the physical activity calculation are stopped. The control unit 51 changes to the communication mode based on the fact that the user continues to press the communication button 40, that is, the communication button 40 continues to be pressed for a predetermined time (for example, 3 seconds) or more. When the power supply to the acceleration sensor 60 is stopped, the detection of the acceleration sensor 60 is stopped.

When changing the control mode as described above, the control unit 51 executes the following (A) to (C) based on the control mode.
(A) Power supply to the acceleration sensor 60 and change of start and stop of physical activity calculation.
(B) Change of connection state of the communication switching circuit 54.
(C) Change of start and stop of power supply to the communication IC.

Specifically, when changing from the measurement mode to the communication mode, the control unit 51 stops the power supply to the acceleration sensor 60 and the computation of the physical activity amount, starts the power supply to the communication IC, and switches the communication The circuit 54 is switched from the storage unit connection state to the communication unit connection state. Further, when changing from the communication mode to the measurement mode, the control unit 51 starts the power supply to the acceleration sensor 60 and the physical activity calculation, and stops the power supply to the communication IC, and the communication switching circuit 54 The communication unit connection state is switched to the storage unit connection state.

The details of the communication mode will be described with reference to FIGS. 3 and 4.

As shown in FIG. 3, in the communication mode, the display unit 20 functions as a communication standby screen on which an animation indicating a radio wave is displayed. That is, the display contents of the display unit 20 are repeated in the order of FIGS. 3 (a) to 3 (c). In this case, the physical activity measuring device 1 can communicate with the external device 2. Further, in the communication mode, the user sets the external device 2 to be able to communicate with the physical activity measuring device 1. At this time, the external device 2 transmits a signal for starting communication (hereinafter, “communication start signal”) to the outside every predetermined time. Then, the user brings the external device 2 close to the predetermined range of the physical activity measuring device 1. At this time, the communication unit 53 receives a communication start signal of the external device 2. The predetermined range is a range in which communication between the external device 2 and the physical activity measuring device 1 is possible.

Further, in the communication mode, when the communication with the physical activity measuring device 1 is completed, the external device 2 transmits to the communication unit 53 a signal for ending the transmission (hereinafter, “communication completion signal”). When the control unit 51 receives the communication completion signal, the control unit 51 changes the communication mode to the measurement mode. When communication between the physical activity measuring device 1 and the external device 2 is completed, the display unit 20 displays that the communication is completed, as shown in FIG. 4. Note that “when the communication unit communicates with an external device” indicates a period from when the physical activity measurement device 1 receives the communication start signal to when the communication completion signal is received.

In the communication mode, when the communication start signal of the external device 2 is not received even once for a predetermined time (for example, 30 seconds), the control unit 51 changes the communication mode to the measurement mode. In addition, it is assumed that the predetermined time is required for setting the external device 2 to be able to communicate with the physical activity measuring device 1 by the user and bringing the external device 2 into communication with the physical activity measuring device 1 in close proximity This is the maximum time, and is preset by an experiment or the like. In addition, when the measured value of the counter reaches a preset threshold, the control unit 51 determines that the measured value of the counter has reached a predetermined time.

The procedure of the mode change control process performed by the control unit 51 will be described with reference to FIG. In the following description with reference to FIG. 5, each component related to the physical activity measuring device 1 denoted by a symbol indicates each component described in FIG. 2.

When the user operates the communication button 40, the control unit 51 executes mode change control processing in mode change control. Then, the control unit 51 repeatedly executes the mode change control process every predetermined period until the control mode is changed from the communication mode to the measurement mode.

The control unit 51 determines whether or not the communication button 40 has been continuously pressed in step S11. The control unit 51 determines that the communication button 40 is continuously pressed when the communication button 40 is continuously pressed for a predetermined time (for example, 3 seconds) or more. When it is determined in step S11 that the communication button 40 has been continuously pressed, the control unit 51 changes the measurement mode to the communication mode.

When it is determined in step S11 that the communication button 40 has been continuously pressed, that is, when the measurement mode is changed to the communication mode, the control unit 51 starts counting the counter in step S12. The control unit 51 stops the power supply to the acceleration sensor 60 and the physical activity calculation in step S13, starts the power supply to the communication IC, and the connection state of the communication switching circuit 54 changes from the storage unit connection state to the communication unit Change to connection state.

In the communication mode, the control unit 51 changes the communication mode to the measurement mode based on the following determination. That is, control unit 51 determines whether or not the communication start signal is received from external device 2 in step S14. The control unit 51 determines whether or not the communication completion signal has been received from the external device 2 in step S16. In step S18, the control unit 51 determines whether the measured value of the counter is equal to or more than a threshold.

When it is determined that the communication start signal is received from the external device 2 in step S14 and the communication completion signal is received from the external device 2 in step S16, the control unit 51 changes the communication mode to the measurement mode. The control unit 51 resets the measurement value of the counter in step S15. The control unit 51 starts the power supply to the acceleration sensor 60 and the physical activity calculation in step S17, stops the power supply to the communication IC, and the connection state of the communication switching circuit 54 changes from the communication unit connection state to the storage unit Change to connection state.

When the control unit 51 determines that the communication start signal is not received from the external device 2 in step S14, and determines that the communication completion signal is received from the external device 2 in step S18, the communication mode is changed to the measurement mode Do. The control unit 51 proceeds to step S17.

The operation of the physical activity measuring device 1 will be described. Hereinafter, in the communication mode, power is supplied to the acceleration sensor 60 as in the measurement mode, and the physical activity measurement device assumed to perform physical activity calculation is referred to as “comparative configuration”.

The comparison configuration supplies power to the communication IC in addition to power supply to the acceleration sensor 60 and physical activity calculation in the communication mode. On the other hand, in the mode change control, the physical activity measuring device 1 of the present embodiment stops the power supply to the acceleration sensor 60 and the physical activity calculation when in the communication mode. Thereby, the physical activity measuring device 1 reduces the number of processes to be executed in the communication mode than in the comparison configuration. Therefore, the amount of power consumed in the communication mode is smaller than the amount of power consumed in the communication mode of the comparison configuration. As a result, the degree of decrease in the life of the battery 30 is reduced.

The physical activity measuring device 1 of the present embodiment has the following effects.

(1) The physical activity measuring device 1 stops the power supply to the acceleration sensor 60 and the physical activity calculation when the communication unit 53 communicates with the external device 2. According to this configuration, when the communication unit 53 communicates with the external device 2, the number of processes simultaneously executed by the control unit 51 is reduced, so that the power consumed by the control unit 51 is reduced. Therefore, the consumption of the power of the physical activity measuring device 1 is suppressed.

(2) When the control mode changes from the measurement mode to the communication mode, the physical activity measuring device 1 stops the power supply to the acceleration sensor 60 and the physical activity calculation. According to this configuration, the power supply to the acceleration sensor 60 and the body are compared with the configuration assuming that the power supply to the acceleration sensor 60 and the physical activity calculation are stopped only when the communication unit 53 communicates with the external device 2. The period for stopping the activity calculation becomes longer. Therefore, the effect that the consumption of the electric power of the physical activity measuring device 1 is suppressed is enhanced.

(3) The physical activity measuring device 1 is changed from the communication mode to the measurement mode when a predetermined time has passed since the change from the measurement mode to the communication mode. For this reason, it is avoided that communication mode is maintained continuously. Therefore, the consumption of the power of the physical activity measuring device 1 is suppressed.

(4) For example, in the configuration assumed to change from the measurement mode to the communication mode when the external device 2 is brought close to the physical activity measuring device 1, there is a possibility that the user may change from the measurement mode to the communication mode without intention. . Further, for example, in a configuration in which it is assumed that the measurement mode is changed to the communication mode by pressing the communication button 40, there is a possibility that the measurement mode is changed to the communication mode when the user erroneously touches the communication button 40. On the other hand, the physical activity measuring device 1 of this embodiment changes from the measurement mode to the communication mode when the communication button 40 is kept pressed for a predetermined time. For this reason, it is suppressed that the user as described above unintentionally changes from the measurement mode to the communication mode.

(5) The physical activity measuring device 1 has a battery 30 as a power source. According to this configuration, the cordlessness becomes cordless as compared with the configuration assuming that the external power source and the physical activity measuring device 1 are connected to each other by the cord, and the usability of the physical activity measuring device 1 is improved.

(6) The physical activity measuring device 1 starts power supply to the acceleration sensor 60 and physical activity calculation when communication between the communication unit 53 and the external device 2 is completed. According to this configuration, the power supply to the acceleration sensor 60 and the physical activity calculation can be resumed quickly.

The present invention includes embodiments different from the above embodiments. Hereinafter, the modification of the said embodiment as other embodiment of this invention is shown. The following modifications may be combined with each other.

The physical activity measuring device 1 of the embodiment changes the control mode from the measurement mode to the communication mode when the communication button 40 is continuously pressed for a predetermined time or more. On the other hand, when the communication button 40 is pressed, the physical activity measuring device 1 of the modified example changes the control mode from the measurement mode to the communication mode. Moreover, the physical activity measuring device 1 of another modification changes the control mode from the measuring mode to the communication mode when the external device 2 is located within the predetermined range of the physical activity measuring device 1.

The physical activity measuring device 1 of the embodiment changes the communication mode to the measurement mode when the measurement value of the counter is equal to or greater than the threshold after the change from the measurement mode to the communication mode. On the other hand, when the communication button 40 is pressed after the measurement mode is changed to the communication mode, the physical activity measuring device 1 of the modified example changes the communication mode to the measurement mode.

The physical activity measuring device 1 of the embodiment stops the power supply to the acceleration sensor 60 and the physical activity calculation when the measurement mode is changed to the communication mode. On the other hand, when the physical activity measurement device 1 of the modification is changed from the measurement mode to the communication mode and receives the communication start signal from the external device 2, the power supply to the acceleration sensor 60 and the physical activity calculation are stopped.

The physical activity measuring device 1 of the embodiment stops the power supply to the acceleration sensor 60 and the physical activity calculation when the measurement mode is changed to the communication mode. On the other hand, when the measurement mode is changed to the communication mode, the physical activity measurement device 1 according to the modification stops one of the power supply to the acceleration sensor 60 and the physical activity calculation.

The physical activity measuring device 1 according to the embodiment stops the power supply to the acceleration sensor 60 and the physical activity calculation when the communication unit 53 communicates with the external device 2. On the other hand, when the communication unit 53 communicates with the external device 2, the physical activity measuring device 1 of the modification example has a power supply cycle and an operation cycle in the measurement mode, that is, when the communication unit 53 does not communicate with the external device 2. The power supply cycle and the calculation cycle are made longer than that. In addition, when the communication unit 53 communicates with the external device 2, the physical activity measuring device 1 of another modified example makes one of the power supply cycle and the calculation cycle longer than in the measurement mode.

-In physical activity measuring device 1 of the above-mentioned modification, when it changes from measurement mode to communication mode, at least one of a power supply cycle and an operation cycle can also be made longer than the time in measurement mode.

The physical activity measuring device 1 of the embodiment has the battery 30. On the other hand, the physical activity measuring device 1 of the modified example does not have the battery 30. The physical activity measuring device 1 of a modification is connected to an external power supply via a cord.

A mobile phone is used as the external device 2 of the embodiment. On the other hand, a portable information terminal other than a mobile phone, for example, a tablet computer is used as the external device 2 of the modification.

Claims

A physical activity measuring device,
An acceleration sensor,
A communication unit that communicates with an external device;
A control unit that calculates the amount of physical activity based on the detection result of the acceleration sensor, and stops at least one of the calculation of the amount of physical activity and the detection by the acceleration sensor when the communication unit communicates with the external device And a physical activity measuring device.
The control unit
A communication mode enabling communication between the communication unit and the external device, stopping communication between the communication unit and the external device, and calculating the amount of physical activity and detection by the acceleration sensor Have a measurement mode that enables
The physical activity measurement according to claim 1, wherein the control unit stops at least one of calculation of the physical activity amount and detection by the acceleration sensor when the mode is changed from the measurement mode to the communication mode. apparatus.
The physical activity measurement device according to claim 2, wherein the control unit changes the mode from the communication mode to the measurement mode when a predetermined time has elapsed after changing the mode from the measurement mode to the communication mode.
The physical activity measuring device includes a communication button,
The physical activity measuring device according to claim 2 or 3, wherein the control unit changes the mode from the measurement mode to the communication mode when the communication button is kept pressed for a predetermined time.
The physical activity measuring device according to any one of claims 1 to 4, further comprising a battery for supplying power to the control unit.
The control unit operates at least one of calculation of the stopped physical activity amount and detection of the acceleration sensor when the communication unit completes communication with the external device. The physical activity measurement device according to any one of the preceding claims.
A physical activity measuring device,
An acceleration sensor,
A communication unit that communicates with an external device;
The communication unit communicates with the external device the first cycle in which the physical activity amount is calculated based on the detection result of the acceleration sensor and the communication unit calculates the physical activity amount when communicating with the external device And a control unit configured to make the amount of physical activity longer than a second period when the amount of physical activity is not calculated.