KR20130008686A - Meassuring system for quantity of motion and operating method of the same - Google Patents

Abstract

The present invention provides a momentum measuring system and its operation method. The momentum measuring system includes a cradle having a momentum meter and a gateway in close wireless communication with the momentum meter. The exercise amount measuring unit includes an exercise measuring unit measuring a user's exercise, a processing unit calculating measurement data including an exercise amount from the measured exercise, a storage unit storing measurement data, a display unit displaying measurement data, and a unique number of the exercise unit And a first communication module for wirelessly transmitting the measurement data and wirelessly receiving at least one of a time of the cradle and an environment variable of the momentum sensor.

Description

Measuring system for quantity and motion method of the same

The present invention relates to an exercise system, and more particularly, a system for measuring an exercise amount of a user and transmitting the movement amount to a cradle through short-range wireless communication, and the cradle has a gateway function and transmits information on exercise quantity to an exercise management server using a telephone line. It is about.

Overweight and lack of exercise are increasing the obesity and overweight population, which is increasing the need for modern health care. In addition, in recent years, the general public is also very interested in their own health, and due to the feasibility of ubiquitous health care, such interest is being materialized by the development of technology and social needs.

For this purpose, various devices have been developed for calculating calories burned by exercise and metabolic activity using gravity sensors, body temperature sensors, electrocardiogram sensors, and the like. Users of such devices want to measure the amount of exercise and calories consumed in the long term beyond measuring the amount of exercise or calories burned in a short period of time, and the number of users who want to manage the exercise of experts based on the measured data is increasing.

One technical problem to be solved of the present invention is to provide an exercise amount measurement system that can measure and manage the exercise amount at low cost and simple.

One technical problem to be solved of the present invention is to provide a method of operation of the exercise amount measurement system that can measure and manage the exercise amount at low cost and simple.

An exercise amount measuring system according to an embodiment of the present invention includes an exercise amount measuring device; And

And a cradle having a gateway for short-range wireless communication with the momentum monitor. The exercise amount measuring device includes an exercise measuring unit measuring a user's exercise; A processor configured to calculate measurement data including an exercise amount from the measured exercise; A storage unit for storing the measurement data; A display unit for displaying the measurement data; And a first communication module configured to wirelessly transmit the unique number and the measurement data of the exercise amount measurer and wirelessly receive at least one of a time of the cradle and an environment variable of the exercise rate measurer.

In one embodiment of the present invention, the watch of the momentum monitor may be synchronized with the watch of the cradle.

In one embodiment of the present invention, the motion measuring unit may be a three-axis acceleration sensor.]

In one embodiment of the present invention, the measurement data may include at least one of a measurement start time, a measurement period, steps, activity amount, calories burned, interval average activity amount.

In one embodiment of the present invention, the environmental variable of the exercise weight meter may include at least one of a measurement period, a storage period, a transmission period, and the user's weight.

In one embodiment of the present invention, the momentum measuring device may receive power wirelessly with the cradle.

In one embodiment of the present invention, the gateway may transmit the transmitted measurement data to a momentum management server through a public switched telephone network (PSTN).

In one embodiment of the present invention, the first communication module uses a 2.4 Ghz RF scheme, the measurement data may be transmitted based on IEEE 11073.

In one embodiment of the present invention, it may further include a blood glucose meter mounted on the cradle and wirelessly communicates with the cradle using short-range wireless communication.

In one embodiment of the present invention, the gateway comprises: a second communication module in communication with the first communication module of the exercise device; A PSTN communication unit for connecting the PSTN network with a telephone line; A memory for storing data; And a control unit controlling the second communication module and the PSTN communication unit.

An exercise amount measuring system according to an embodiment of the present invention includes an exercise amount measuring device; And a cradle having a gateway for short-range wireless communication with the momentum monitor. The method of operation of the system comprises initializing the momentum meter; Connecting the momentum meter to the gateway; Receiving a current time and environment variable from the gateway to match the time of the exercise meter with the time of the gateway and setting an environment variable of the exercise measure; And the exercise amount measuring device periodically storing the processed data by measuring a user's exercise, and periodically transmitting the processed data to the gateway.

In one embodiment of the present invention, determining whether the exercise device is mounted on the cradle; Transmitting the processed data to the gateway when the momentum monitor is placed on the cradle; And the momentum measuring device may further include at least one of the step of charging the power wirelessly or wired from the cradle.

In one embodiment of the present invention, setting an environment variable of the gateway; Scanning, by the gateway, the channel and storing the unique number of the exercise device and the exercise number assigned to the channel; The gateway accessing an exercise management server to receive time and environment variables and to set the gateway to the received environment variables; Receiving and storing data when the exercise measurer transmits data; Requesting and receiving an environment variable from the momentum monitor; And transmitting data to the exercise management server.

In the exercise amount measuring system according to an embodiment of the present invention, the time of the exercise rate measuring device, blood glucose meter, the cradle, and the exercise management server are all synchronized. Therefore, accurate and systematic momentum management is possible. In addition, the cradle is Bluetooth communication with the exercise tracker, the cradle can reduce the cost by wire communication using the PSTN network with the exercise management server.

1 is a conceptual diagram illustrating an exercise amount measuring system according to an embodiment of the present invention.
2 is a perspective view illustrating a momentum measurement system according to an embodiment of the present invention.
3 is a block diagram illustrating an exercise amount measuring system according to an exemplary embodiment of the present invention.
4 is a flowchart illustrating an operation of an exercise amount measurer according to an exemplary embodiment of the present invention.
5 is a flowchart illustrating an operation of a gateway according to an embodiment of the present invention.

Elderly people with diabetes periodically check their blood sugar levels and do regular exercise. However, excessive exercise can cause hypoglycemia. Therefore, proper exercise management is required.

A typical pedometer displays the number of steps on the screen. However, the momentum is hard to know only by the number of steps. Therefore, systematic momentum management is required.

According to the exercise amount measuring system according to an embodiment of the present invention, the exercise amount measurer continuously measures the exercise amount of the user and transmits it to the cradle using a short range wireless communication network. In addition, the blood glucose meter measures the user's blood sugar and transmits it to the cradle using a short range wireless communication network. The cradle has a gateway, and the cradle transmits the data transmitted from the blood glucose meter and the exercise meter to the exercise management server through a wired telephone network. The exercise amount management server collects the data transmitted through the wired telephone network and inputs it to the database. The exercise amount management server provides analysis information using user information and collected measurement data using an application program. In this case, the times of the momentum monitor, the blood glucose meter, the cradle, and the momentum management server are all synchronized. Therefore, accurate and systematic momentum management is possible.

The exercise amount measuring system according to the exemplary embodiment of the present invention may be operated as a blood glucose meter or may be operated independently. A gateway for short-range wireless communication is installed in a cradle, which transmits momentum data through a wired telephone line. The cradle may charge the momentum sensor by wire or wirelessly.

The user can wear the momentum to the waist dance. The user periodically measures blood sugar in time as instructed by the physician and health consultant. The user can charge the momentum by placing it on the cradle. The momentum meter may include a clock, and the setting of the momentum meter may be remotely set. The watch of the momentum monitor is synchronized with the watch of the momentum management server through the cradle.

The momentum meter measures the amount of exercise (calories burned and steps) at predetermined measurement intervals. The measured momentum is transmitted to the gateway at a predetermined transmission period. The measured exercise amount is transmitted to the exercise amount management server at a predetermined remote transmission period.

If the user does not wear the exercise tracker, the exercise tracker may automatically recognize this and may warn the user by appropriate warning to encourage wearing. Momentum meters may be provided with contact and / or contactless charging. The gateway may periodically inform the communication environment with the momentum management server that there is no problem.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosure may be made thorough and complete, and to fully convey the spirit of the invention to those skilled in the art. In the drawings, the components have been exaggerated for clarity. Portions denoted by like reference numerals denote like elements throughout the specification.

1 is a conceptual diagram illustrating an exercise amount measuring system according to an embodiment of the present invention.

2 is a perspective view illustrating a momentum measurement system according to an embodiment of the present invention.

1 and 2, the exercise amount measurement system 10 includes an exercise amount measurer 200, a cradle 300 having a gateway, and an exercise amount management server 140.

The exercise amount measuring device 200 may be carried by the user, measure the exercise amount of the user, store the measured exercise amount, and display the measured exercise amount. The exercise amount measuring unit 200 transmits data such as the measured exercise amount to the cradle 300 in short range wireless communication. The exercise amount measurer 200 may remotely set its environment variable by receiving the environment variable stored in the cradle 300. The momentum measuring device 200 may include a clock, and the clock of the momentum measuring device 200 may be synchronized by receiving the time of the cradle 300. The momentum measurer 200 may include a liquid crystal display 210a, an LED 211, and a buzzer (not shown). The LCD screen may display a momentum and a battery state. LEDs can indicate communication status. The buzzer may sound a warning. The exercise amount measurer 200 may include a first button 240a and a second button 240b as input means.

The exercise amount measuring unit 200 transmits data such as exercise amount to the holder 300 at a predetermined measurement period or when the exercise amount measuring unit 200 is placed on the holder 300.

The cradle 300 may be equipped with the exercise meter 200 and the blood glucose meter 400. The cradle 300 may be provided with an external power source. The cradle 300 may include an external antenna 304 for short-range wireless communication. The cradle 300 has a gateway. The gateway may be connected to the exercise management server 140 through a telephone line.

The cradle 300 may periodically transmit data such as an exercise amount to the exercise amount management server through a telephone line.

The cradle 300 may have a first groove 301 so that the momentum measurer 200 may be mounted. When the momentum measurer 200 is mounted in the first groove 301, the battery of the momentum measurer 200 may be charged or the momentum measurer 200 may wirelessly transmit data.

The blood glucose meter 400 may be mounted in the second groove 302 of the cradle 300. The blood glucose meter 400 may measure blood sugar and perform short-range wireless communication with the cradle 300 in a Bluetooth-HDP (Bluetooth-HDP) manner. The short range wireless communication protocol may be IEEE 11073.

The exercise amount management server 140 may receive and store data such as exercise amount and provide analysis information to a user by using an application program.

The user's computer 150 may be connected to the exercise amount management server 140 through the Internet to receive access information. The user's computer 150 may be replaced with a smartphone, a notebook, a PDP, or the like.

The exercise exercise amount management server 140 may include a modem 142, a data collection server 144, and a main server 146 connected to a telephone line. The data collection server 144 may be a server managing data, and the main server 146 may be a server on which an application program operates. The data collection server 144 may be integrated with the main server 146.

3 is a block diagram illustrating an exercise amount measuring system according to an exemplary embodiment of the present invention. 4 is a flowchart illustrating an operation of an exercise amount measurer according to an exemplary embodiment of the present invention. 5 is a flowchart illustrating an operation of a gateway according to an embodiment of the present invention.

3 Internal View Referring to FIG. 5, the exercise amount measurement system 10 includes a cradle 300 having an exercise amount measurer 200 and a gateway 300a in short-range wireless communication with the exercise rate measurer 200.

The exercise amount measuring unit 200 includes an exercise measuring unit 260 for measuring a user's exercise, a processing unit 220 for calculating measurement data including an exercise amount from the measured exercise, a storage unit 250 for storing the measurement data, The display unit 210 for displaying the measurement data, and the first communication module 230 for wirelessly transmitting the unique number and the measurement data of the exercise amount measuring device, and wirelessly receiving at least one of time and environmental parameters of the exercise amount measuring device. ).

The motion measuring unit 260 may include a 3D acceleration sensor.

The processor 220 may calculate the number of steps and calories burned using the acceleration data of the exercise measuring unit. The processing unit 220 may calculate the analysis of the output signal of the movement measuring unit 260 to be region accumulation steps and calorie consumption. The processor 220 may calculate a section average activity amount as an auxiliary index. The processor 220 may output the measurement data by analyzing the exercise amount (calories burned, steps, activity amount) at a predetermined measurement cycle. The measurement data may include at least one of steps, activity amount, calories burned, and section average activity amount. The measurement data may further include a measurement start time and a measurement period. The measurement period may be 1 minute to 1 hour. The measurement data can be reset every measurement period.

The display unit 210 may display the measurement data and the state. The display unit 210 may display the number of steps or calories burned. Whether a user displays steps or calories burned can be changed using a button on the input unit.

The input unit 240 may include two buttons. The first button may be a reset button and the second button may be a mode change button. When the reset button is pressed, the display unit 210 may display a cumulative value of the calories burned or the number of steps after the reset. When the mode change button is increased, the content of the display unit 210 may be changed from calories burned to steps.

The storage unit 250 may store the measurement data. The storage period of the measurement data may be the same as the measurement period. The storage unit 250 may store the measurement data of a previous period not transmitted to the holder. After the measurement data is transmitted to the holder, the stored measurement data of the storage unit 250 may be reset.

The first communication module 230 may use short-range wireless communication. In detail, the first communication module 230 may be a 2.4 Ghz RF module. The first communication module 230 may use a 2.4 Ghz RF scheme, and the measurement data may be transmitted based on the IEEE 11073 protocol.

The first communication module 230 may transmit the measurement data to the gateway 300a using short-range wireless communication at a predetermined transmission period. The transmission period may be 10 minutes to 2 hours. The transmission period may be greater than or equal to the measurement period. If the transmission fails, it can be transmitted together at the next transmission time. When the momentum measuring device is placed on the cradle, the momentum measuring device may immediately transmit measurement data. In this case, the measurement period may be shorter than the measurement period.

The first communication module 230 may transmit the unique number, the measurement cycle, the storage cycle, the transmission cycle, and the weight of the user to the gateway 300a. In addition, the first communication module 230 may receive an environment variable of the exercise amount measurer 200 from the gateway 300a. The environment variable of the exercise amount measurer 200 may include at least one of a measurement cycle, a storage cycle, a transmission cycle, and a weight of the user.

The first communication module 230 may receive the current time from the gateway 300a and provide it to the processing unit 220. The processor 220 may include a clock, and may synchronize the time of the clock with the time of the gateway 300a.

When the reset button of the exercise sensor 200 is pressed, the first communication module 230 may transmit a reset time and measurement data to the gateway 300a. In addition, the first communication module 230 may transmit a state of a battery to the gateway 300a.

 The wireless power receiver 270 may include an induction coil, a rectifier, and a battery. The wireless power receiver 270 may receive AC power in a magnetic induction manner from the wireless power transmitter of the cradle. The wireless power receiver 270 may rectify AC power to provide a DC voltage driving the momentum meter.

The operation method of the exercise amount measurer 200 may include an initialization step (S110). The initialization can be set by reading environment variables stored in the memory. The environmental variable may be a unique number of the meter, a measurement cycle, a storage cycle, a transmission cycle, and a weight. In addition, the clock of the momentum monitor 200 may be initialized.

Subsequently, the exercise amount measurer 200 may be connected to the gateway 300a (S112).

If the momentum measurer 200 successfully connects with the gateway 300a (S114), the current time of the gateway 300a and an environment variable of the momentum measurer 200 may be received (S116). Subsequently, the clock of the exercise amount measurer 200 may be set to the current time of the gateway 300a, and the exercise amount measurer 200 may be set to the received environment variable.

It is possible to check whether the exercise amount measuring device 200 is placed on the holder 300 (S117). The determination of whether the exercise amount measuring device 200 is placed on the holder 300 may be performed by using a contactless charging confirmation function. When the exercise amount measurer 200 is placed on the cradle, the exercise measurer 200 wirelessly transmits measurement data and environmental variables to the holder 300 (S118).

Subsequently, when the exercise amount measurer 200 is placed on the cradle 300, the exercise amount measurer 200 may operate in a charging mode. When the momentum measurer 200 is separated from the cradle 300, the momentum measurer 200 may perform measurement, storage, and transmission by an external interrupt scheme.

When the exercise amount measurer 200 is separated from the cradle 300, the exercise amount measurer 200 measures the exercise amount (S122), stores the measured data by analyzing (S124), and transmits (S126).

The gateway 300a may transmit the transmitted measurement data to the exercise management server 140 through a public switched telephone network (PSTN).

Blood glucose meter 400 may be mounted on the cradle 300 and wirelessly communicate with the cradle 300 using short-range wireless communication. The short range wireless communication may be Bluetooth-HDP (Bluetooth Health Device Profile). The short range wireless communication protocol may be IEEE 11073. The operation of the blood glucose meter 400 may be similar to the momentum meter.

The cradle 300 may include a gateway 300a. The gateway 300a may include a second communication module 310, a controller 320, a memory 340, a PSTN communication unit 350, and a wireless power transmitter 330. The gateway 300a may wirelessly communicate with the exercise measurer 200, communicate with the exercise manage server 140 using a telephone line, and charge the exercise measurer 200 wirelessly or by wire.

The second communication module 310 may perform short-range wireless communication with the first communication module 230 of the exercise device 200. The second communication module 310 may be RF communication of 2.4 Ghz. The second communication module 310 may use the IEEE 11073 protocol. The second communication module 310 scans a channel and stores a channel to which a predetermined signal comes and a unique number of the exercise amount measurer 200 assigned to the channel. The second communication module 310 accesses the exercise management server 140 to receive the current time and environment variables and provide them to the controller. The controller sets the received current time and environment variables.

The controller 320 may control the second communication module 310 and the PSTN communication unit 350.

The memory 340 stores measurement data and environment variables received from the exercise amount measurer 200. In addition, the memory 340 stores the environment variables received from the exercise server 140.

The gateway 300a has a unique number and may communicate with the exercise management server 140 using a PSTN network.

The PSTN communication unit 350 may communicate by using the phone number of the exercise server 140. The PSTN may use a Dual Tone Multi-Frequency (DTMF) based communication scheme.

The wireless power transmitter 330 may include a coil. The power adapter can receive external power to provide DC power. The DC power source may be provided to the wireless power transmitter. The wireless power transmitter may change the DC power to AC and provide the coil to the coil. The wireless power transmitter may be a coil type using inductive coupling.

The Bluets HDP module 360 may be in short-range wireless communication with the blood glucose meter. The gateway 300a may provide the exercise amount management server with data provided from the blood glucose meter.

The gateway 300a may provide the exercise amount management server 140 with measurement data transmitted by the exercise amount measurer 200 and / or an environment variable of the exercise amount measurer 200 at a predetermined remote transmission period. In addition, the gateway 300a may receive an environment variable of the gateway 300a and / or an environment variable of the exercise amount measurer 200 from the exercise amount management server 140. The environment variable of the gateway 300a may include a long transmission period.

The gateway 300a may receive a current time from the momentum management server 140 so that the clock of the gateway 300a may be synchronized with the time of the momentum management server 140.

When the gateway 300a communicates with the exercise management server 140 and receives data from the exercise measurer 200, the gateway 300a may forcibly terminate communication with the exercise management server 140. have. Subsequently, after the gateway 300a completes the reception of the data from the exercise amount measurer 200, the gateway 300a may communicate with the exercise amount management server 140.

The gateway 300a may include an environment variable setting step (S210). When power is supplied, the gateway 300a reads and sets an environment variable from a memory.

Subsequently, the second communication module 310 scans a channel and stores a channel through which a predetermined signal comes and a unique number of the exercise amount measurer 200 assigned to the channel (S212).

Subsequently, the gateway 300a may access the exercise management server 140 to receive and set a current time and environment variables (S214).

Subsequently, the gateway 300a may confirm that the measurement data is received from the exercise amount measurer 200 (S216). When the measurement data is transmitted from the exercise amount measuring device 200, it is stored after reception (S218).

Subsequently, when reception of the measurement data is terminated, the gateway 300a requests transmission of an environment variable of the current exercise amount measurer 200, and receives and stores the environment variable (S220).

Subsequently, the gateway 300a transmits the measured data and / or environment variable to the exercise amount management server 140 at a predetermined remote transmission period. The remote transmission period may be 1 hour to 6 hours.

While the invention has been shown and described with respect to certain preferred embodiments thereof, the invention is not limited to these embodiments, and has been claimed by those of ordinary skill in the art to which the invention pertains. It includes all the various forms of embodiments that can be implemented without departing from the spirit.

200: momentum sensor, 300: cradle, 300a: gateway
210: display unit 220: processing unit 230: first communication module 240: input unit
250: storage unit, 260: motion measuring unit, 270: wireless power receiving unit

Claims (13)

Momentum meter; And
A cradle having a gateway for short-range wireless communication with the momentum monitor,
The momentum meter is:
An exercise measuring unit measuring a user's exercise;
A processor configured to calculate measurement data including an exercise amount from the measured exercise;
A storage unit for storing the measurement data;
A display unit for displaying the measurement data; And
And a first communication module for wirelessly transmitting the unique number and the measurement data of the momentum monitor and wirelessly receiving at least one of a time of a cradle and an environment variable of the momentum gauge. The method according to claim 1,
The momentum measuring system of the momentum measuring device is characterized in that the synchronization with the clock of the cradle. The method according to claim 1,
The motion measuring unit is an exercise amount measuring system, characterized in that the three-axis acceleration sensor. The method according to claim 1,
The measurement data is an exercise amount measuring system, characterized in that it comprises at least one of the measurement start time, measurement period, steps, activity amount, calories burned, average interval activity. The method according to claim 1,
The environment variable of the exercise amount measurer includes at least one of a measurement cycle, a storage cycle, a transmission cycle, and a weight of the user. The method according to claim 1,
The momentum measuring system is an exercise amount measuring system, characterized in that for receiving power wirelessly with the cradle. The method according to claim 1,
The gateway transmits the transmitted measurement data to a momentum management server via a public switched telephone network (PSTN). The method according to claim 1,
The first communication module uses a 2.4 Ghz RF scheme,
The momentum measurement system, characterized in that for transmitting the measurement data based on IEEE 11073. The method according to claim 1,
And a blood glucose meter mounted on the cradle and wirelessly communicating with the cradle using near field communication. The method according to claim 1,
The gateway is:
A second communication module in communication with the first communication module of the momentum monitor;
A PSTN communication unit for connecting the PSTN network with a telephone line;
A memory for storing data; And
And a control unit controlling the second communication module and the PSTN communication unit. Momentum meter; And a cradle having a gateway for short-range wireless communication with the momentum sensor.
Initializing the momentum meter;
Connecting the momentum meter to the gateway;
Receiving a current time and environment variable from the gateway to match the time of the exercise meter with the time of the gateway and setting an environment variable of the exercise measure; And
The momentum measuring device measures the user's exercise periodically storing the processed data, and periodically transmitting to the gateway method of operating the exercise amount measuring system, characterized in that. 12. The method of claim 11,
Determining whether the momentum measurer is placed on the cradle;
Transmitting the processed data to the gateway when the momentum monitor is placed on the cradle; And
The momentum measuring device further comprises at least one of the step of charging the power wirelessly or wired from the cradle. 12. The method of claim 11,
Setting an environment variable of the gateway;
Scanning, by the gateway, the channel and storing the unique number of the exercise device and the exercise number assigned to the channel;
The gateway accessing an exercise management server to receive time and environment variables and to set the gateway to the received environment variables;
Receiving and storing data when the exercise measurer transmits data;
Requesting and receiving an environment variable from the momentum monitor; And
And at least one of transmitting data to the exercise management server.

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