CN220554496U - Body fit detection system - Google Patents

Abstract

A system for detecting fitness comprising: the portable electronic device comprises a first motion sensor, a first communication device, a server and a portable electronic device. The first communication device is connected to the first motion sensor in a communication way. The server is connected to the first communication device in a communication way. The portable electronic device is connected to one of the first communication device and the server in a communication manner. The first motion sensor obtains first sensing data. The first communication device receives first sensing data from the first motion sensor. The server receives the first sensing data from the first communication device. The server responds to receiving login information from one of the portable electronic device and the first communication device, and outputs a fitness report corresponding to the login information according to the login information and the first sensing data. The body fit detection system provided by the utility model can automate the body fit detection process so as to improve the accuracy of detection quantity and detection process.

Description

Body fit detection system

Technical Field

The utility model relates to a body fit detection system.

Background

The traditional fitness detection process is time-consuming and labor-consuming, and the fitness can guide a person to check a list of the testee, explain a detection mode, observe whether the motion of the testee accords with the specification or manually record measurement result data and the like in the single detection process. Therefore, the conventional detection method cannot effectively improve the detection amount and ensure the detection quality and the accuracy of the data. On the other hand, the physical fitness instructor records the measurement result data by using a paper, so that the workload of the administrative staff is increased, and the testee also needs to wait for the time of data collection and report making, so that the physical fitness report cannot be obtained in real time.

Disclosure of Invention

In view of the above, the present utility model provides a system for detecting body fitness, which can automate the detection process of body fitness to improve the accuracy of the detection amount and the detection process.

The utility model provides a body fit detection system, which comprises a first motion sensor, a first communication device, a server and a portable electronic device. The first communication device is connected to the first motion sensor in a communication way. The server is connected to the first communication device in a communication way. The portable electronic device is connected to one of the first communication device and the server in a communication manner. The first motion sensor obtains first sensing data. The first communication device receives first sensing data from the first motion sensor. The server receives the first sensing data from the first communication device. The server responds to receiving login information from one of the portable electronic device and the first communication device, and outputs a fitness report corresponding to the login information according to the login information and the first sensing data.

Based on the above, the fitness detection system of the present utility model can complete the checking operation of the data of the testee and the detection of the fitness by the communication device and the motion sensor, and can output the corresponding fitness report according to the login information received from the portable electronic device or the communication device. Therefore, the fitness detection system can automate the fitness detection process, so as to improve the accuracy of detection quantity and detection process, and can provide the fitness report to the testee in real time.

Drawings

FIG. 1 is a schematic diagram of a fitness detection system according to an embodiment of the utility model.

Fig. 2 is a schematic diagram of a communication device according to an embodiment of the utility model.

Fig. 3 is a schematic diagram of a portable electronic device according to an embodiment of the utility model.

FIG. 4 is a schematic diagram of a server according to an embodiment of the utility model.

FIG. 5 is a schematic diagram of a motion sensor according to an embodiment of the utility model.

Reference numerals illustrate:

100: body fit detection system

110-1, 110-n: communication device

120-1, 120-n: motion sensor

111. 121, 131, 141: processor and method for controlling the same

112. 122, 132, 142: storage medium

113. 123, 133, 143: transceiver with a plurality of transceivers

114: card reader

115: display device

124: sensing element

130: server

140: portable electronic device

144: image capturing device

DS1, DSn: sensing data

RFr: radio frequency receiver

RFt: a radio frequency element.

Detailed Description

In order that the utility model may be more readily understood, the following specific examples are provided as illustrations of the true practice of the utility model. In addition, wherever possible, the same reference numbers will be used throughout the drawings and the description to refer to the same or like parts.

FIG. 1 is a schematic diagram of a fitness detection system according to an embodiment of the utility model. Please refer to fig. 1. The fitness detection system 100 may include communication devices 110-1 to 110-n, motion sensors 120-1 to 120-n, a server 130, and a portable electronic device 140. The communication devices 110-1 to 110-n are respectively connected to the corresponding motion sensors 120-1 to 120-n in a communication manner. The server 130 is communicatively coupled to the communication devices 110-1 to 110-n. The portable electronic device 140 is communicatively connected to the communication devices 110-1 to 110-n or the server 130. The communication devices 110-1 to 110-n or the motion sensors 120-1 to 120-n belong to, for example, a body fit detection unit. The portable electronic device 140 is, for example, a terminal device such as a smart phone, a notebook computer, or a tablet computer belonging to a subject, or an integrated circuit card such as a health care card of the subject. The number of the communication devices 110-1 to 110-n and the motion sensors 120-1 to 120-n can be designed according to the actual requirement (i.e., n can be any positive integer), and the utility model is not limited.

Fig. 2 is a schematic diagram of a communication device 110-1 according to an embodiment of the utility model. The communication device 110-1 may include a processor 111, a storage medium 112, and a transceiver 113. In one embodiment, the communication device 110-1 may further include a card reader 114 or a display 115.

The processor 111 is, for example, a central processing unit (central processing unit, CPU), or other programmable general purpose or special purpose micro-control unit (micro control unit, MCU), microprocessor (microprocessor), digital signal processor (digital signal processor, DSP), programmable controller, application specific integrated circuit (application specific integrated circuit, ASIC), graphics processor (graphics processing unit, GPU), video signal processor (image signal processor, ISP), video processing unit (image processing unit, IPU), arithmetic logic unit (arithmetic logic unit, ALU), complex programmable logic device (complex programmable logic device, CPLD), field programmable logic gate array (field programmable gate array, FPGA), or other similar element or combination thereof. The processor 111 may be coupled to the storage medium 112, the transceiver 113, the card reader 114, and the display 115, and may access and execute various modules and various applications stored in the storage medium 112 to perform various functions of the communication device 110-1.

The storage medium 112 is, for example, any type of fixed or removable random access memory (random access memory, RAM), read-only memory (ROM), flash memory (flash memory), hard Disk Drive (HDD), solid state hard disk (solid state drive, SSD), or the like or a combination thereof, and is used to store a plurality of modules or various applications executable by the processor 111.

The transceiver 113 transmits and receives signals wirelessly or by wire, for example, through a combination of ZigBee (ZigBee), bluetooth (Bluetooth), or wireless fidelity (Wireless Fidelity, wi-Fi) networks, etc. Transceiver 130 may also perform operations such as low noise amplification, impedance matching, mixing, up or down frequency conversion, filtering, amplification, and the like. The communication device 110-1 can be communicatively connected to the motion sensor 120-1, the portable electronic device 140 or the server 130 through the transceiver 113. The transceiver 113 may further include a radio frequency receiver RFr to receive radio frequency signals.

The card reader 114 is used to read data stored in an integrated circuit (integrated circuit, IC) card.

The display 115 may be a liquid-crystal display (LCD), a light-emitting diode (LED) display, a vacuum fluorescent display (vacuum fluorescent display, VFD), a plasma display (plasma display panel, PDP), an organic light-emitting diode (OLED), or a field-emission display (FED).

The configuration and function of the communication device 110-n may be similar to that of the communication device 110-1 shown in fig. 2.

Fig. 3 is a schematic diagram of a portable electronic device 140 according to an embodiment of the utility model. The portable electronic device 140 is, for example, a smart phone, a tablet computer or an integrated circuit card carried by a subject. The portable electronic device 140 may include a processor 141, a storage medium 142, and a transceiver 143. In one embodiment, the portable electronic device 140 may further include an image capturing device 144.

Processor 141 may be similar in construction and function to processor 111 as shown in fig. 2. The processor 141 is coupled to the storage medium 142, the transceiver 143, and the image capturing device 144, and accesses and executes a plurality of modules and various applications stored in the storage medium 142 to perform various functions of the portable electronic device 140.

The storage medium 142 may be constructed and function similar to the storage medium 112 shown in fig. 2. The storage medium 142 may be used to store a plurality of modules or various application programs that may be executed by the processor 141.

The configuration and function of transceiver 143 may be similar to transceiver 113 as shown in fig. 2. The portable electronic device 140 can be communicatively connected to the communication device 110-1, the communication device 110-n or the server 130 through the transceiver 143. The transceiver 143 may further include a radio frequency element RFt for transmitting radio frequency signals.

The image capturing device 144 is, for example, a camera or a photographic device for capturing images. The image capturing device 144 may comprise an image sensor such as a complementary metal oxide semiconductor (complementary metal oxide semiconductor, CMOS) or a charge coupled device (charge coupled device, CCD).

FIG. 4 is a schematic diagram of a server 130 according to an embodiment of the utility model. The server 130 may include a processor 131, a storage medium 132, and a transceiver 133.

Processor 131 may be similar in construction and function to processor 111 as shown in fig. 2. The processor 131 may be coupled to the storage medium 132 and the transceiver 133, and may access and execute a plurality of modules and various applications stored in the storage medium 132 to implement various functions of the portable electronic device 140.

The storage medium 132 may be similar in structure and function to the storage medium 112 shown in FIG. 2. The storage medium 132 may be used to store a plurality of modules or various application programs that may be executed by the processor 131.

The configuration and function of the transceiver 133 may be similar to the transceiver 113 shown in fig. 2. The server 130 may be communicatively coupled to the communication device 110-1, the communication device 110-n, or the portable electronic device 140 via the transceiver 133.

FIG. 5 is a schematic diagram of a motion sensor 120-1 according to an embodiment of the utility model. Motion sensor 120-1 may include a processor 121, a storage medium 122, a transceiver 123, and a sensing element 124.

Processor 121 may be similar in construction and function to processor 111 as shown in fig. 2. The processor 121 may be coupled to the storage medium 122, the transceiver 123, and the sensing element 124, and access and execute a plurality of modules and various applications stored in the storage medium 122 to implement the functions of the motion sensor 120-1.

The storage medium 122 may be similar in structure and function to the storage medium 112 shown in fig. 2. The storage medium 122 may be used to store a plurality of modules or various application programs that may be executed by the processor 121.

The configuration and function of transceiver 123 may be similar to transceiver 113 shown in fig. 2. The motion sensor 120-1 may be communicatively coupled to the communication device 110-1 via the transceiver 123.

The sensor 124 may include, but is not limited to, a resistance ruler, a Time of Flight (ToF) sensor, a reed switch, an acceleration sensor, or an image capturing device.

The individual fitness detection station comprises a communication device and a motion sensor. Specifically, the communication device 110-1 and the motion sensor 120-1 are used in a fitness detection station; the communication device 110-n and the motion sensor 120-n are used in another fitness detection station. In one embodiment, the subject may bind with the communication device 110-1 to complete the login operation. The server 130 may receive login information of the subject from the portable electronic device 140 or/and the communication device 110-1 of the subject to complete the login operation. Next, the subject may wear the motion sensor 120-1 and begin detecting. During the detection process, the motion sensor 120-1 can obtain the sensing data DS1. The communication device 110-1 receives the sensing data DS1 from the corresponding motion sensor 120-1, and transmits the sensing data DS1 to the server 130. Finally, the server 130 can output a fitness report corresponding to the login information according to the login information and the sensing data DS1. The login information may include information related to the portable electronic device 140 or the communication devices 110-1 to 110-n. For example, the login information may include the device identification code of the portable electronic device 140 or the communication devices 110-1 to 110-n. Accordingly, the server 130 can learn the detection items and the information of the testee by the login information to output the corresponding fitness report.

In one embodiment, the subject is to detect more than two items of fitness. After detecting the fitness item corresponding to the communication device 110-1, the subject may unbind with the communication device 110-1 and bind with other communication devices, such as the communication device 110-n, to complete the login operation. The server 130 may receive login information of the subject from the portable electronic device 140 or/and the communication device 110-n of the subject to complete the login operation. Next, the subject may wear the motion sensor 120-n and begin detecting. During the detection process, the motion sensor 120-n can obtain the sensing data DSn. The communication device 110-n receives the sensing data DSn from the corresponding motion sensor 120-n, and transmits the sensing data DSn to the server 130. Finally, the server 130 may output a fitness report corresponding to the login information according to the login information and the sensing data DS1 and the sensing data DSn to provide a complete fitness report for the user.

Therefore, the fitness detection system can automate the fitness detection process, so as to improve the accuracy of detection volume and detection process, and can provide the fitness report to the testee in real time.

The testee can bind the portable electronic device 140 with the communication device 110-1 to complete the login operation.

In an embodiment, the portable electronic device 140 may be a terminal device with a radio frequency (RFt) belonging to the subject or a radio frequency identification (Radio Frequency Identification, RFID) card provided by a fitness detection unit. Specifically, the subject can place the portable electronic device 140 near or in a sensing area (not shown) of the communication device 110-1. The communication device 110-1 can transmit the login information to the server 130 in response to receiving the rf signal from the rf device RFt of the portable electronic device 140 via the rf receiver RFr, so as to complete the login operation.

In one embodiment, the portable electronic device 140 may be an integrated circuit card, such as a health care card of a subject. Specifically, the subject can place the portable electronic device 140 in close proximity to or in proximity to the card reader 114 of the communication device 110-1. The communication device 110-1 can transmit the login information to the server 130 to complete the login operation in response to the portable electronic device 140 (i.e., the integrated circuit card) being read by the card reader 114.

In an embodiment, the portable electronic device 140 may be a terminal device such as a smart phone, a notebook computer or a tablet computer belonging to the subject. Specifically, the communication device 110-1 can display a bar Code, such as a quick response Code (Quick Response Code, QR Code), through the display 115. The subject can bring the portable electronic device 140 close to the display 115 to scan the barcode through the image capturing device 144. Accordingly, the portable electronic device 140 can transmit login information to the server 130 in response to the barcode scanned by the image capturing device 144, so as to complete the login operation.

The communication device 110-1 may display a prompt message via the display 115 in response to transmitting the login information to instruct the subject to perform fitness detection. In one embodiment, the server 130 may instruct the communication device 110-1 to display a prompt message through the display 115 in response to receiving login information from the portable electronic device 140 to instruct the subject to perform fitness detection.

After the login operation is completed, the subject may wear the motion sensor 120-1 according to the prompt information displayed by the display 115, and start the fitness detection.

The sensor 124 of the motion sensor 120-1 may include, but is not limited to, a resistance ruler, a Time of Flight (ToF) sensor, a reed switch, an acceleration sensor, or an image capturing device. The resistance ruler can be used for length measurement, for example, data for detecting softness or sitting posture forward bending of a tested person. The time-of-flight sensor may detect the height of the subject. The reed switch may be provided on a treadmill or a treadmill to detect the number of treads per unit time by a subject. Acceleration sensors, such as tri-axial acceleration sensors (triple axis accelerometer), may be strapped to the limbs or torso of a subject to detect various movements of the subject, such as knee height or hand lifting height. The image capturing device can capture images of the testee during various actions, so as to detect whether the actions of the testee are correct.

For example, the subject is to detect the number of in-situ knee steps per unit time (e.g., one minute). The display 115 may output a prompt message related to the test item, which may include information such as a preliminary action before the test, a test procedure description, a remaining number of test seconds, or a number of accumulated steps. The subject can wear the motion sensor 120-1 having the acceleration sensor on the foot or the knee according to the prompt information and detect. During the detection period, the motion sensor 120-1 can acquire the sensing data DS1 and transmit the sensing data DS1 to the communication device 110-1. Further, during the detection, the communication device 110-1 can display the accumulated number of steps and the remaining detection seconds on the display 115 according to the sensing data DS1, so that the subject can learn the current detection status. When the test is completed, the subject may choose whether to re-test. If the testee needs to carry out detection again, the testee can repeatedly carry out the detection process; conversely, if the subject does not need to re-detect, the communication device 110-1 can transmit the sensing data DS1 to the server 130 for the server 130 to generate the fitness report.

In one embodiment, the portable electronic device 140 and the motion sensor 120-1 may be embedded in a single device. For example, the subject wants to detect if the motion of a single foot standing is in place. The display 115 may output a prompt related to the detection item, for example, requesting the subject to turn on the camera (i.e., the image capturing device 144) of the portable electronic device 140, and place the portable electronic device 140 at a fixed point. The prompt information prompts the testee to stand on one foot at a specific position for detection. When the test is completed, the subject may choose whether to re-test. If the testee needs to carry out detection again, the testee can repeatedly carry out the detection process; conversely, if the subject does not need to re-detect, the communication device 110-1 can transmit the sensing data DS1 to the server 130 for the server 130 to generate the fitness report.

In one embodiment, the communication device 110-1 and the motion sensor 120-1 may be embedded in a single device. For example, the subject wants to detect if the motion of a single foot standing is in place. The communication device 110-1 can output a prompt message related to the detection item through the display 115, and turn on a camera (i.e., an image capturing device) of the communication device 110-1 for detection. When the detection is completed, the communication device 110-1 can transmit the sensing data DS1 to the server 130 for the server 130 to generate a fitness report.

Therefore, the body fit detection system can automate the body fit detection process so as to improve the accuracy of detection quantity and detection process.

The server 130 can output a fitness report corresponding to the login information according to the login information and the sensing data. Specifically, the server 130 may store the mapping relationship between the login information and the user account. The server 130 may query the user account according to the mapping relationship in response to receiving the login information, and output a fitness report corresponding to the user account. Further, the server 130 may be communicatively connected to an external database (not shown) to obtain fitness statistics and determine fitness level based on the fitness statistics and the sensing data to generate a fitness report. The fitness statistics are, for example, sensing data for other users to perform fitness detection. The external database may be a local database, other server database or cloud database of the system, but is not limited thereto.

In one embodiment, the subject may view the fitness report via the communication device 110-1 immediately after the test is completed. Specifically, after the detection is completed, the communication device 110-1 can transmit the sensing data DS1 to the server 130. The server 130 can output the fitness report to the communication device 110-1 according to the DS1 sensing data or/and the previous sensing data or/and the sensing data of the previous different item and the login information. The communication device 110-1 may provide a fitness report to the subject via the display 115. The fitness report may include the current detection result and fitness level or/and the previous detection result and fitness level or/and the detection result and fitness level of different items.

In one embodiment, the subject may view the fitness report at any point in time through the portable electronic device 140 after the detection is completed. Specifically, the subject can transmit login information to the server 130 through the portable electronic device 140. The server 130 queries the user account according to the mapping relationship based on the received login information, and outputs a fitness report corresponding to the user account to the portable electronic device 140. Accordingly, the subject can view the fitness report through the portable electronic device 140. The fitness report may include the results of the detection of all of the test items detected by the subject and the fitness level.

In one embodiment, the subject may view the fitness report at any point in time via the communication device 110-1 after the test is completed. Specifically, the subject can transmit the login information to the server 130 through the communication device 110-1. The server 130 then queries the user account according to the mapping relationship based on the received login information, and outputs a fitness report corresponding to the user account to the communication device 110-1. Accordingly, the subject may view the fitness report via the display 115. The fitness report may include the results of the detection of all of the test items detected by the subject and the fitness level.

In summary, the fitness detection system of the present utility model can complete the checking operation of the data of the detected person and the detection of the fitness by the communication device and the motion sensor supporting the internet of things technology, so that the fitness detection process is automated, and the number of detected objects is increased. After the detection is completed, the server can output the body fit report according to the login information and the sensing data in real time, or can output the body fit report corresponding to the user account according to the mapping relation based on the login information so as to provide the body fit report to the testee in real time. Therefore, the utility model can greatly reduce the workload of the fitness instructor and ensure that the recording mode of the fitness report accords with the specification.

Claims (10)

1. The utility model provides a body fit can detecting system which characterized in that, body fit can detecting system includes first action sensor, first communication device, server and portable electron device, wherein:

the first motion sensor is used for acquiring first sensing data;

the first communication device is in communication connection with the first motion sensor and is used for receiving the first sensing data from the first motion sensor;

the server is in communication connection with the first communication device and is used for receiving the first sensing data from the first communication device; and

the portable electronic device is communicatively connected to one of the first communication device and the server,

wherein the server outputs a fitness report corresponding to the login information according to the login information and the first sensing data in response to receiving the login information from one of the portable electronic device and the first communication device.

2. The fitness detection system according to claim 1, further comprising a second motion sensor and a second communication device, wherein:

the second motion sensor is used for acquiring second sensing data; and

the second communication device is communicatively connected to the second motion sensor and the server, and is configured to receive the second sensing data from the second motion sensor and transmit the second sensing data to the server, wherein the portable electronic device is communicatively connected to one of the second communication device and the server,

wherein the server outputs the fitness report according to the login information, the first sensing data, and the second sensing data in response to receiving the login information from one of the portable electronic device and the second communication device.

3. The fitness detection system according to claim 1, wherein the first communication device comprises a radio frequency receiver and the portable electronic device comprises a radio frequency element for transmitting radio frequency signals, wherein:

the first communication device transmits the login information to the server in response to receiving the radio frequency signal through the radio frequency receiver.

4. The fitness detection system according to claim 1, wherein the first communication device comprises a card reader and the portable electronic device comprises an integrated circuit card, wherein:

the first communication device responds to the reading of the integrated circuit card by the card reader and transmits the login information to the server.

5. The fitness detection system according to claim 1, wherein the first communication device comprises a display, and the portable electronic device comprises an image capturing device, wherein:

the first communication device is used for displaying bar codes through the display,

the portable electronic device responds to the scanning of the bar code by the image capturing device and transmits the login information to the server.

6. The system of claim 1, wherein the server stores a mapping relationship between the login information and the user account,

wherein the server queries the user account according to the mapping relationship in response to receiving the login information, and outputs the fitness report corresponding to the user account.

7. The fitness detection system of claim 1, wherein the first communication device comprises a display,

wherein the first communication device displays a prompt message through the display in response to transmitting the login information.

8. The fitness detection system of claim 1, wherein the first communication device comprises a display,

the server instructs the first communication device to display a prompt message through the display in response to receiving the login information from the portable electronic device.

9. The system of claim 1, wherein the system comprises a sensor for detecting the physical fitness of the patient,

the server is communicatively connected to an external database to obtain fitness statistics, and determines a fitness level based on the fitness statistics and the first sensing data to generate the fitness report.

10. The fitness detection system according to claim 1, wherein the first motion sensor comprises at least one of: resistance ruler, flight time sensor, magnetic reed switch, acceleration sensor and image capturing device.