KR20170007720A - Exercise measuring management system and exercise measuring management method in the system - Google Patents

Abstract

Disclosed are a system and a method for measuring and managing an exercise amount in real-time. The present invention includes: an exercise amount measurement slave chip provided with an acceleration sensor for measuring an exercise state according to a participants exercise in real-time and including a micro controller unit (MCU) for collecting and processing measurement data measured by the acceleration sensor and a communication unit; a master server for receiving at the communication unit exercise amount measurement data transmitted from the exercise volume measurement slave chip into the communication unit to process the received exercise amount measurement data through a central processing unit (CPU); an exercise amount analysis evaluation modeling unit of the master server, which compares the exercise amount measurement data measured through the exercise amount measurement slave chip with a recommended exercise amount reference value (population reference value) to analyze and evaluate an individual exercise status of a participant, resulting in showing the resultant data as an identifiable data field. The present invention is capable of providing systemized exercise information and an exercise design which match each individuals exercise characteristics to provide the useful information needed for a balanced growth of the body.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a real-

The present invention distributes slave chips to infants and preschool children, growing teens and participants including adulthood, collects momentum measurement data transmitted from the chip holder, compares and analyzes the momentum with the population, To a real-time momentum measurement management system and method.

Exercise and management of infants, children, and adolescents during the growing period will affect the maintenance of health and balance development of the body. Recently, the development of ubiquitous computing and cloud computing technologies is demanding not only health care but also related services for systematically managing the movements of infants, children, and youths. The user wants to access the service anytime and anywhere regardless of time and place, but the measurement and management method of the momentum through the measurement of the momentum is limited compared to the healthcare field.

In recent years, there have been supplied a variety of exercise equipment and facilities for indoor and outdoor exercise learning by classifying them into early childhood, childhood, and adolescence. Most athletic facilities or supplies for athletics have been popular in some sporting activities with some preference. Recent trends are that a variety of athletic facilities and supplies are being commercialized in various formats.

For example, most exercise equipment and supplies for infants and children are designed to enhance sensation and strength, or stimulate the nerves and musculoskeletal muscles to help the body's normal development. Exercise using the average helps balance the body's sense of hearing, and the bar helps balance strength and body balance.

The exercise equipment and apparatus that can dynamically induce the movement of the body to obtain the exercise effect are easily accessible and relatively freely available, but the exercise information required is not provided or systematically managed. In an educational institution that establishes an exercise program for infants or young people including kindergartens, kindergartens, etc., it measures the individual exercise amount regularly or irregularly according to the exercise program and informs the program leader (leader or teacher) Although it is possible to share, systematic and useful measurement and management of exercise is not done.

On the other hand, a method of measuring the momentum using human body communication is known. In this method, a human body having conductivity is used as a communication channel to send information to an electrode of a transmitter attached to a part of a human body, and to make contact with an electrode of an external receiver, There is a way. However, since the electrodes are required to be attached to the human body, they are not free, and the channels exhibit anisotropic characteristics rather than isotropic properties, and many interference signals exist simultaneously. In addition, it is almost impossible to simultaneously measure the motion state of infants, children, and the like.

Network communication can be used as an effective means to measure and manage individual momentum. For example, network communication can be effectively utilized to measure individual momentum in real time by transmitting data in accordance with a communication protocol that is negotiated through a network interconnected between each computer terminal or systems in a locally distributed location have. Among them, the centralized network is a form in which a plurality of client terminals are connected to one server, and most of the communication functions can be controlled by a server located in the center, while a distributed control network is a system in which a plurality of terminals are connected to each other, Each of which is directly connected to each other without a control computer in a peer-to-peer manner. Unlike a centralized network, a function and a responsibility for communication may be equally distributed among respective terminals.

In order to measure the momentum in real time using a centralized or decentralized network, a high-cost communication device is required, such as a smart device. Particularly, peer-to-peer method is a network that can access network-connected resources without specific protocol. However, it is not easy to handle because it is disadvantageous to price problem and miniaturization.

In this way, educational institutions and other institutions that open exercise programs for infants and young people including daycare centers, kindergartens, and daycare centers can more systematically measure the amount of individual exercise according to the exercise program, In addition, there is a need for a solution that can extract and quantify the data of the individual exercise quantity measurement systematically, regularly and economically.

Patent Document 1. Korean Patent Laid-Open No. 10-2012-0017705 Patent Document 2: Korean Patent Publication No. 10-2015-0008534

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and it is an object of the present invention to provide a method and apparatus for measuring individual exercise amount in accordance with an exercise program, The purpose of this study is to make it possible to reflect on the design of the exercise to derive the high quality exercise type and the type according to the individual characteristics.

Another object of the present invention is to distribute a slave chip for measuring exercise quantity, which can be manufactured at a comparatively low price, to a participant group and to collect systematically the individual exercise amount in real time.

Yet another object of the present invention is to process individual exercise amount measurement data as individual exercise amount evaluation information to suggest exercise models suited to individual characteristics.

According to an aspect of the present invention, there is provided a micro controller unit (MCU) having an acceleration sensor for measuring a movement state of a participant in real time, an EEPROM for collecting and processing measurement data measured from an acceleration sensor, A momentum measurement slave chip including a communication unit for transmitting momentum measurement data; A master server for receiving momentum measurement data transmitted from the momentum measurement slave chip through a communication unit and performing a comparison analysis process by a CPU (Central Processing Unit) 220; And a momentum analysis evaluation modeling unit for comparing the momentum measurement data measured through the slave chip for measuring the exercise amount with a recommended exercise quantity reference value (population reference value) to evaluate the individual exercise result state and displaying the result as an identifiable table Real-time momentum measurement management system.

According to an embodiment of the present invention, there is further provided a client terminal for receiving and receiving momentum measurement data and evaluation result data from a master server, wherein the client terminal comprises a computer capable of reading evaluation result data, A communication terminal, a PDA, a USB, and a recording medium.

In addition, according to the embodiment of the present invention, the slave chip for measuring the momentum and the master server each include a communication unit, the slave chip for measuring the momentum transmits the momentum measurement data to the master server through the communication unit, And a real-time exercise quantity measurement management system that receives the exercise quantity measurement data transmitted from the slave chip for measuring the exercise quantity in real time.

In addition, according to the embodiment of the present invention, the slave chip for measuring momentum may include an acceleration sensor and a complementary metal oxide semiconductor (CMOS) image sensor. The CMOS image sensor is composed of an image receiving element, an A / D converter, an image compression device for compressing the image of the image into a JPEG file, a bit rate control device for controlling the bit rate of the compressed image data, The image information from the participant of the slave chip for measuring momentum can be acquired and various exercise information related to the current exercise state, the exercise progress and the exercise can be received.

In addition, according to the embodiment of the present invention, the slave chip for measuring momentum measures motion speed and exercise distance during movement through an acceleration sensor, acquires image information through a CMOS image sensor, transmits the image information to the master server, And transmitting the participant's body temperature information to the master server through the body temperature sensor for measuring, so that various body information occurring during the body exercise can be transmitted to the master server and managed.

According to the embodiment of the present invention, the slave chip for measuring the momentum generates a field voltage in response to the speed change of the acceleration sensor, and generates a near field communication (NFC) chip Chip) is detected. When the NFC chip is detected, the optimum frequency is set based on the magnitude of the field voltage, and the device operates in the reader mode.

According to an embodiment of the present invention, the master communication unit includes a voltage-controlled oscillator that outputs an oscillation voltage using a voltage transmitted from a slave chip for measuring momentum; A frequency divider for generating a frequency based on an oscillation voltage output from the voltage controlled oscillator; And a mixer for mixing the input signal with the frequency generated in the frequency divider to convert the frequency of the input signal.

Further, according to the embodiment of the present invention, the master communication section includes a receiving apparatus. The receiving apparatus includes a band pass filter (BPF), a low noise amplifier (LNA), a mixer, a frequency generator, a channel select filter, a power gain amplifier (PGA) And includes a processing unit, thereby stably receiving the momentum measurement data transmitted from the slave chip for measuring the momentum.

In addition, according to the embodiment of the present invention, the momentum measurement data collected through the slave chip for measuring the momentum can be transmitted to the master server through the Wi-Fi, ZigBee, and Bluetooth communication through quantum communication. have.

According to an embodiment of the present invention, the master server drives a search engine to access a web server to extract a recommended recommended exercise amount reference value based on the exercise amount measurement data measured through the slave chip for measuring exercise amount, A parameter reference unit for searching a population reference value from the population reference value; And a reference value comparison unit for extracting a population reference value through the parameter calling unit and comparing the reference value with the individual exercise amount measurement data and outputting the comparison data to the exercise amount evaluation result table. By comparing the exercise evaluation result with the average of the population To derive its value and generate basic data that can be reflected in the exercise design corresponding to the individual characteristics of the individual fragrance.

According to another aspect of the present invention, there is provided a method of measuring mobility, comprising: receiving individual momentum measurement data transmitted from a slave chip for measuring momentum; Reading the exercise amount measurement data transmitted from the step at the master server, calculating the exercise result measurement value according to a predetermined rule, and at the same time, inputting age / gender of the participant's basic information into the input field and processing it into field data; Comparing the retrieved population reference value with the field data processed in the step by setting the age / sex as a constant to compare the exercise result measured value, which is the processed field data, with the population reference value; And a step of extracting comparison data through the comparison and analysis step and acquiring an individual exercise amount evaluation result.

Further, in the embodiment of the present invention, in the step of receiving the individual momentum measurement data transmitted from the slave chip for measuring momentum, to the master server, a plurality of master servers are operated to transmit the data between the slave chip for measuring momentum and the master server And a real-time momentum measurement and management method that extends the transmission / reception area.

Further, in an embodiment of the present invention, in the field data comparison analysis, the population reference value is extracted from the database of the web server through the parameter call unit built in the master server of the momentum measurement manager, and the data of the momentum measurement reaches the population reference value , Or less than or equal to a predetermined threshold value.

Further, according to the embodiment of the present invention, the individual exercise amount evaluation result obtained from the exercise amount evaluation result acquisition step is selectively provided to the authenticated client terminal or the authenticated educator, authenticated exercise person or authenticated general person according to the importance of the classified information And reading out the individual exercise amount measurement information, thereby to prevent leakage of the measured individual exercise amount measurement information and manage personal information.

The present invention measures the individual exercise amount in accordance with the exercise program, and is compared with the population reference value based on the data, and is reflected in the exercise design to derive the high-quality exercise method and the type suited to the individual body development situation or the individual characteristic And it is possible to measure and manage high quality exercise by allowing the program host and the authorized user to share the information with the optimized exercise method suitable for the user.

The present invention relates to a measuring device for measuring the amount of exercise, which can design a measuring device without using an expensive device, distributes a one-chip terminal with a small size and a small price at a low cost to a participant, It is possible to measure a plurality of individual exercise amounts simultaneously in the indoor and outdoor, and to manage the exercise amount measurement information systematically and economically.

The present invention can distribute a one-chip to a participant who requires management of the momentum measurement data, including a growing child and a child, and collect the momentum for the chip holder in real time to provide the necessary momentum information in real time It is effective.

The present invention has an effect that individual exercise amount measurement data can be processed into individual exercise amount evaluation information and stored in a database or shared as individual exercise management data.

1 shows an example of extracting individual exercise amount measurement data according to an embodiment of the present invention.
2 is a block diagram of a configuration of a real-time exercise quantity measurement management system according to an embodiment of the present invention.
3 is an illustration showing a slave chip for measuring momentum according to an embodiment of the present invention.
4 is a block diagram of a CMOS image sensor included in a slave chip for measuring momentum according to an embodiment of the present invention.
5 is a flowchart illustrating a control of a communication unit of a slave chip for measuring momentum according to an embodiment of the present invention.
6 is a block diagram of a master server according to an embodiment of the present invention.
7 is a block diagram of a master communication unit according to an embodiment of the present invention.
8 is a block diagram of a master communication unit according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 shows an example of the measurement of the momentum using the average band. Referring to FIG. 1, an example of measuring the amount of exercise in the exercise process using the average band is shown. The type of exercise that utilizes the average group induces the participants' exercise by the order of the pre-exercise planning program operation such as' passing 'and' passing '. If the participant has a slave chip for measuring the momentum, the participant's momentum can be measured in any form.

Participants are required to participate in exercise programs that are worn or carried without any restriction on the wrist, waist, pockets, legs, and shoes, and all preparations can be made in kindergarten, daycare center, By distributing slave chips for measuring exercise quantity and installing exercise aids in educational institutions, etc., it is possible to acquire the exercise quantity measurement data according to a certain standard and schedule. FIG. 1 illustrates the embodiment of the exercise using the average band as a reference.

The real-time momentum measurement management system according to the embodiment of the present invention may include a slave chip 100 for measuring momentum and a master server 200, as shown in FIG. Here, the master server 200 may be a 'personal mobile communication terminal (smart phone)' or a 'manager computer'.

For measuring momentum Slave  Chip (program participant)

The slave chip 100 for measuring momentum includes an acceleration sensor 110 for measuring the motion state of a participant of the exercise program in real time, an MCU 120 (micro) having an EEPROM for collecting and processing measurement data measured from the acceleration sensor 110 a controller unit and a communication unit 130, so that it can be configured as a one-chip capable of short-range communication.

Distance, number of times, and heartbeat number read from the acceleration sensor 110 by the program control of the microcontroller (MCU) according to the movement of the exerciser, ). Data measurements responsive to the kinetic characteristics of athletes by an acceleration sensor are well known to those skilled in the art.

The slave chip 100 for measuring the momentum can be manufactured relatively cheaply compared with a smart device including a broadband communication device and is advantageous for miniaturization and the like and can be easily worn on a body part such as a wrist of a worker.

For example, it can be attached or carried in favorable conditions to the right part of the body including wrist, neck, belt, shoe, etc., Less burden on you. In particular, since it can be mass-produced and distributed, it has many advantages as an application for transmitting data measurement results as compared with an expensive smart device.

In this regard, there is an example in which a chip having a communication device is introduced in a form of a chip card type so as to enable high-speed data transmission, but its use as a slave chip for measuring momentum including an acceleration sensor is limited .

Master server (smart phone or server operated by administrator, or computer)

The master server 200 receives the exercise amount measurement data transmitted from the exercise amount measurement slave chip 100 through the communication unit 230 and processes the received exercise amount measurement data through the CPU 220 (Central Processing Unit).

The exercise amount measurement data measured through the slave chip 100 for measuring the exercise amount is compared with a population reference value serving as a recommended exercise amount reference value to analyze and evaluate the individual exercise state, And outputs it through the analysis evaluation modeling unit 230. The output evaluation information can be provided as data that can be viewed by the instructor, the teacher, the parents, and the authorized persons of the educational institution. Here, the 'population reference value' is a reference value for evaluating the current momentum level of the participant based on the average value considering the age / sex, and corresponds to a parameter retrieved from the master server. The master server 200 can process data signals between quantum communications by allocating addresses and assigning IDs to individual slave chips 100 for measuring momentum.

Client terminal (parent / guardian)

The client terminal 300 may be a device carried by a participant or guardian of a participant, for example, a computer carried by a child or a child or a parent or guardian of a student, a personal portable communication terminal, a PDA, a USB, have. The parent can participate in the exercise amount measurement program and acquire the analysis and evaluation information of the child from the master server 200 through the client terminal 300 as information.

The slave chip 100 for measuring the momentum and the master server 200 are provided with the communication units 130 and 230 respectively and the slave chip 100 for measuring the momentum transmits the momentum measurement data to the master server 200 And the master server 200 can receive the momentum measurement data transmitted from the slave chip 100 for measuring momentum through the communication unit 230 in real time.

The momentum measurement data collected through the slave chip 100 for measuring the momentum may be transmitted to the master server 200 through ZigBee communication, Bluetooth, Wi-Fi communication network, or the like. Since the communication unit of the master server 200 is capable of performing quantum communication with the communication unit 130 of the slave chip 100 for measuring the momentum, the master server 200 can communicate with each of the slave chips . In general, a single master server 200 has a limitation in assigning an address to each slave and assigning an ID. However, it is preferable that the communication ID is not more than 10 slave and not more than 30 slave per master . This may be a matter that may change depending on the number of participants.

The slave chip 100 for measuring momentum may include an acceleration sensor 110 and a CMOS (complementary metal oxide semiconductor) image sensor 140.

3, the acceleration sensor 110 measures motion speed, motion distance, number of exercises, heart rate, etc., and the body temperature sensor measures the body temperature of the human body. The CMOS image sensor 140 measures motion And detects the participant's image information.

3 and 4 show an example of the CMOS image sensor 140 combined with the slave chip 100 for measuring momentum.

4, the CMOS image sensor 140 includes an image receiving element 141, an A / D converter 142, an image compression device 143 for compressing an image into a JPEG file, A bit rate control unit 144 for controlling a bit rate, and a FIFO circuit 145 for outputting compressed image data by fixing the bit rate. The MOS image sensor 140 captures the motion through the image receiving element 141, converts the signal, compresses the signal through the image compression device, and supplies the bit rate of the compressed image data to the bit rate control device 144. [ It is possible to output stable image data compressed at a fixed bit rate.

In addition, the slave chip 100 for measuring momentum can measure the motion speed and the motion distance during the movement through the acceleration sensor 110, acquires the image information through the CMOS image sensor 140, 200). Also, the participant body temperature information may be transmitted to the master server 200 through the body temperature sensor 150 for measuring the body temperature. The method of measuring the momentum with an acceleration sensor is known in the art, but it is not related to the real-time direct data processing between the two by one-chip slave / master communication.

At the same time, the image information is acquired through the CMOS image sensor and transmitted to the master server. The body temperature is measured by the body temperature sensor, and the body temperature information of the participant is mastered There is no example of processing a body motion and condition information processing including a series of kinetic velocity - image - body temperature transmitted to a server concurrently through a one-chip master chip.

The communication unit 130 of the slave chip 100 for measuring the momentum according to the embodiment of the present invention generates a field voltage in response to the speed change of the acceleration sensor 110 and generates a near field communication chip (short-range wireless communication chip) is detected, and when the NFC chip is detected, it can operate in the reader mode by setting the optimum frequency based on the magnitude of the field voltage.

5, when power is applied to the communication unit 130 (S100), the operation state of the acceleration sensor 110 is detected by the acceleration sensor (not shown) in the MCU 120 (S101). When the operation is performed, a field voltage is generated in response to the speed change of the acceleration sensor (S102). Then, the field voltage is continuously measured (S103). Then, based on the magnitude of the field voltage, it is inquired whether a near field communication chip (NFC) exists (S104). When the NFC chip is present (S105), if the NFC chip is detected (S106), the NFC chip is set to the optimum frequency based on the magnitude of the field voltage (S106) , And the optimum frequency can be set in the communication unit.

6 is a block diagram of a master server according to an embodiment of the present invention. Referring to FIG. 6, the master server 200 drives the search engine 241 to extract an individual recommended exercise quantity reference value based on the exercise quantity measurement data measured through the slave chip 100 for measuring momentum, 242, and a parameter call unit 240 for searching a population reference value from the web server 242. [

The parameter calling unit 240 drives the search engine 241 to determine a reference value constant of the exercise program participant based on the age / sex, and extracts a population reference value based thereon. The extracted reference value is an average value according to age / gender and is compared with the individual exercise amount measurement data through the reference value comparator 243, and the comparison data is output to the exercise amount analysis evaluation modeling unit 230 to analyze the exercise amount corresponding to the individual sex / age .

For example, assuming that a participant A, age 10 years old and sex (male), has measured a distance of 200 mm from a running distance of 1 minute, the parameter comparator 240 compares the calculated distance with a population reference value. If participants were evaluated to have the same age, gender, and 250 mm in the same condition, the participant A would not be within the same gender age range. Reflect.

In the same way, by extracting population reference values for each item for each participant, it is necessary to collectively design individual items such as whether the exercise amount is inferior under the same age / gender condition, And the like can be created as field data and shared with an administrator, a teacher, and a guardian to present an exercise program optimized for each individual.

Meanwhile, the master server 200 generates and transmits a Simple Object Access Protocol (SOAP) message including the momentum measurement data including the at least one of the acceleration sensor, the body temperature sensor, and the data detected from the CMOS image sensor, The W3C (world wide web consortium) can be used to access and transfer to a web server via HTTP. SOAP messages can be generated on any platform capable of processing text and in any programming language. Also, it can be implemented in any platform environment since it is transmitted using HTTP.

The web server can receive the SOAP message and extract the feature data from the standard momentum data contained in the SOAP message. The eXtensible Markup Language (XML) conversion engine converts standard population reference value data and feature data into metamodel-based data, and upon receipt of the exercise quantity measurement management service request message from the external interface communication unit, based on the parameter values included in the request message An OCL code generator associated with the requested momentum measurement management service inserts and outputs parameter values into an OCL code document for extracting requested momentum measurement management service related signal data among OCL code documents, The interpreter interprets and executes the generated OCL code to extract the metamodel-based momentum analysis and evaluation data and provide it to the client.

Here, when an access to an XML-based database is requested, the OCL code generator extracts signal data using OCL and generates an OCL code document for checking the measurement of the momentum. The OCL code generator may receive a request for a predefined service sent from the clients via the communication unit. In this case, the clients can invoke the service using the SOAP message. The SOAP message may include parameter values for calling the service module. The parameter values can include values for name, age, weight, and gender.

7 is a block diagram of a master communication unit according to an embodiment of the present invention. 7, the master communication unit 230 includes a voltage control oscillator 231 for outputting an oscillation voltage using the voltage transmitted from the slave chip 100 for measuring momentum, a voltage control oscillator 231 for outputting an oscillation voltage based on the oscillation voltage output from the voltage control oscillator A frequency divider 232 for generating a frequency, and a mixer 233 for converting the frequency of the input signal by mixing an input signal with a frequency generated in the frequency divider. The communication between the slave chip 100 and the slave chip 100 can be seamlessly maintained. This is excluded from what is absolutely necessary for achieving the object of the present invention, and can be selectively employed for the purpose of enhancing communication performance.

8 is a block diagram of a master communication unit according to an embodiment of the present invention. 8, the master communication unit 230 includes a receiving apparatus 235. The receiving apparatus 235 includes a BPF 235-1 (Band Pass Filter), an LNA 235-2 (Low Noise Amplifier A mixer 235-3, a frequency generator 235-4, a channel filter 235-5, a PGA 235-6, an A / D converter 235, -7), and a baseband processor 235-8. Such a receiving device of the master server can smoothly carry out bilateral communication with the communication unit of the slave chip 100 for measuring the exercise amount distributed to the participants of the exercise program. This is not necessary for achieving the object of the present invention, and can be selectively employed for the purpose of enhancing communication performance at a relatively source distance condition.

The method of measuring and managing momentum according to an embodiment of the present invention may be performed in the following order.

First, the individual exercise amount measurement data transmitted from the slave chip 100 for measuring the exercise amount is transmitted.

The master server 200 reads the exercise amount measurement data transmitted from the slave chip 100 held by the participant and calculates the exercise result measurement value according to a predetermined rule and at the same time identifies the age / Input data is processed by field data. The data input may be a teacher, a facilitator, or a professional educator who guides the exercise program.

In order to compare the motion result measurement value, which is the processed field data, with the population reference value, the age / sex is set to a constant, and a search engine is run to perform comparison analysis between the retrieved population reference value and the processed field data. The comparative analysis can be performed automatically by an operation programmed into the CPU of the master server, and the comparison value can be extracted as a result.

Then, the data is extracted through comparative analysis to obtain the result of individual exercise amount evaluation, and it is utilized for individual exercise characteristics and tendency, weak exercise items, and personalized exercise design.

Also, in the field data comparison analysis, the population reference value can be extracted from the database of the web server through the parameter call part built in the master server of the momentum measurement manager, and based on whether or not the data of the momentum measurement result reaches or exceeds the population reference value The results of individual momentum measurements can be evaluated.

In addition, the result of the individual exercise amount evaluation obtained through the exercise amount evaluation result may be disclosed through an access authentication that is selectively disclosed to an authenticated client terminal, an authenticated educator, an authenticated sportsman or an authorized general person according to the importance of the classified information, or It can be managed with security.

The present invention measures the individual exercise amount in accordance with the exercise program, and is compared with the population reference value based on the data, and is reflected in the exercise design to derive the high-quality exercise method and the type suited to the individual body development situation or the individual characteristic This enables the programmer and the authorized user to share the information and access the optimized exercise method suitable for the participant, thereby enabling the measurement and management of high quality exercise quantity.

In addition, the measurement device for measuring the amount of exercise can be designed without the use of an expensive smart device, and it can be configured as one chip having a small size and a small size at a low price, distributed to a participant at a low cost, In which a plurality of individual momentum amounts can be simultaneously measured and economically managed.

In addition, it is possible to distribute a one-chip to a participant who needs to manage momentum measurement data including an infant and a child in a growing period, collect the momentum for the chip holder in real time, and provide necessary momentum information in real time.

In addition, it can be used as an important data for individual exercise management by storing individual exercise amount measurement data as individual exercise amount evaluation information and storing it in a database or sharing it. Especially, it is possible to use the program without age or gender restriction, , And adolescents, who need a balanced body development.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

100: Slave chip for measuring momentum 110: Accelerometer
120: MCU 120 (micro controller unit) 130:
140: CMOS image sensor (complementary metal oxide semiconductor)
150: body temperature sensor 200: master server (master)
220: Central processing unit (CPU) 220: Master communication unit
230: momentum analysis evaluation modeling unit
240: Parameter call section
241: Search engine
242: Web server
243: reference value comparison section
300: Client terminal

Claims (14)

A momentum measurement slave chip including an acceleration sensor for measuring a motion state according to movement of a participant in real time, a micro controller unit (MCU) for collecting and processing measurement data measured from the acceleration sensor, and a communication unit;
A master server for receiving momentum measurement data transmitted from the momentum measurement slave chip at a communication unit and processing the data through a CPU (Central Processing Unit);
And comparing the measured exercise amount data with a population reference value that is a recommended exercise amount reference value, analyzing and evaluating the exercise state of each participant and extracting and displaying the results of the exercising by the individual slave chip for measuring exercise amount, And a modeling unit. The method according to claim 1,
And a client terminal for receiving and receiving momentum measurement data and momentum analysis evaluation modeling data from the master server, wherein the client terminal comprises a computer, a smart phone, a personal digital assistant, a PDA, a USB, Real - time momentum measurement management system. The method according to claim 1,
Wherein the slave chip for measuring the momentum and the master server each have a communication unit and the slave chip for measuring the momentum transmits the measurement data of momentum through the communication unit to the master server, A real-time momentum measurement management system that receives transmitted momentum measurement data in real time. The method according to claim 1,
Wherein the momentum measurement data collected through the slave chip for measuring momentum is transmitted to a master server via a ZigBee communication, a bluetooth, and a Wi-Fi communication network. The method according to claim 1,
The slave chip for measuring momentum includes an acceleration sensor and a complementary metal oxide semiconductor (CMOS) image sensor. The CMOS image sensor includes an image receiving element, an A / D converter, an image A real time momentum measurement management system including a compression device, a bit rate control device for controlling a bit rate of compressed image data, and a FIFO circuit for outputting compressed image data with fixed bit rate. The method according to claim 1,
The slave chip for measuring momentum measures a motion speed and a motion distance during an exercise through an acceleration sensor, acquires image information through a CMOS image sensor, transmits the image information to a master server, and transmits a body temperature information To the master server. The method according to claim 1,
Wherein the communication unit of the slave chip for measuring momentum generates a field voltage in response to the speed change of the acceleration sensor, detects whether a near field communication (NFC) chip is present based on the magnitude of the field voltage, And a real time momentum measurement management system that operates in a reader mode by setting an optimal frequency based on the magnitude of the field voltage. The method according to claim 1,
Wherein the master server is connected to a web server by driving a search engine to extract an individual recommended exercise amount reference value based on the exercise amount measurement data measured through the slave chip for measuring the exercise amount and a parameter for searching a population reference value from the web server A calling part; And a reference value comparison unit for extracting a population reference value through the parameter calling unit, comparing the reference value with the individual momentum measurement data, and outputting the comparison data to the momentum analysis evaluation modeling unit. The method according to claim 1,
Wherein the master communication unit comprises: a voltage controlled oscillator for outputting an oscillation voltage using a voltage transmitted from the slave chip for measuring momentum; A frequency divider for generating a frequency based on an oscillation voltage output from the voltage controlled oscillator; And a mixer for mixing the input signal with the frequency generated in the frequency divider to convert the frequency of the input signal. The method according to claim 1,
The master communication unit 230 includes a receiving device 235. The receiving device 235 includes a BPF 235-1 (Band Pass Filter), an LNA 235-2 (Low Noise Amplifier), a mixer A frequency synthesizer 235-4, a channel filter 235-5, a power gain amplifier 235-6, an A / D converter 235-7, And a baseband processor (235-8). The method comprising: receiving individual momentum measurement data transmitted from a slave chip for measuring momentum to a master server; Reading the exercise amount measurement data transmitted from the step at the master server, calculating the exercise result measurement value according to a predetermined rule, and inputting the age / sex of the measurement participant in the basic information of the measurement participant into the field data; Comparing the retrieved population reference value with the field data processed in the step by setting the age / sex as a constant to compare the exercise result measured value, which is the processed field data, with the population reference value; And extracting the comparison data through the comparison and analysis step to obtain the individual exercise amount evaluation result. 12. The method of claim 11,
Wherein the step of receiving the individual momentum measurement data transmitted from the slave chip for measuring momentum is transmitted to the master server to perform a real-time momentum measurement for extending the data transmission / reception area between the slave chip for measuring momentum and the master server, How to manage. 12. The method of claim 11,
In the field data comparison and analysis step, the population reference value is extracted from the database of the web server through the parameter call unit built in the master server of the momentum measurement manager, and the individual momentum amount is calculated based on whether or not the data of the momentum measurement result reaches the population reference value And evaluating the measurement result. 12. The method of claim 11,
And a reading authentication step of selectively releasing the individual exercise amount evaluation results obtained from the exercise amount evaluation result acquisition step to an authenticated client terminal or an authenticated educator, an authenticated athlete, or an authorized general public according to the importance of the classified information A method for measuring and managing real-time momentum.

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