Search

CN-122006201-A - Intelligent training pad and motion data processing method, system and medium

CN122006201ACN 122006201 ACN122006201 ACN 122006201ACN-122006201-A

Abstract

The application discloses an intelligent training pad, a motion data processing method, a system and a medium, which are applied to the technical field of training pads. The jump area is internally provided with a pressure sensing unit for collecting pressure signals, the flat plate support area is internally provided with a membrane switch unit for collecting switch state signals, and the control module is electrically connected with the pressure sensing unit, the membrane switch unit and the display module and used for counting based on the pressure signals and displaying counting results through the display module or timing based on the switch state signals and displaying timing results through the display module. In addition, the counting result or the timing result is displayed through the display module, so that a user can conveniently grasp the training progress in real time, the training can reach the training target more easily, and the user experience can be improved.

Inventors

  • WANG GUODONG
  • WANG JIAN
  • SHI JIANWEI
  • CHEN QIANG

Assignees

  • 温州港源智能科技有限公司

Dates

Publication Date
20260512
Application Date
20260127

Claims (20)

  1. 1. The intelligent training pad is characterized by comprising a training pad main body, a multi-mode sensor module and a control module which are arranged in the training pad main body, and a display module which is arranged on the training pad main body; the training pad main body is divided into a jumping area and a plane supporting area; the multi-mode sensor module comprises a pressure sensing unit arranged in the jumping region and a membrane switch unit arranged in the flat plate supporting region, wherein the pressure sensing unit is used for collecting pressure signals of the jumping region and transmitting the pressure signals to the control module; The control module is electrically connected with the multi-mode sensor module and the display module, and is used for counting jumping motions based on the pressure signals through a three-dimensional jumping state model and displaying counting results through the display module, or timing the flat plate supporting motions based on the switch state signals through a three-dimensional flat plate supporting state model and displaying timing results through the display module.
  2. 2. The intelligent training pad of claim 1, wherein the pressure sensing unit comprises a plurality of pressure sensors, the plurality of pressure sensors being distributed in an array within the jump zone.
  3. 3. The intelligent exercise mat of claim 1, wherein the flat support area comprises two elbow positioning areas, and wherein the membrane switch unit comprises two membrane switch sensors disposed within the two elbow positioning areas, respectively.
  4. 4. The intelligent training pad of claim 1, wherein the display module is disposed at an edge location of the training pad body.
  5. 5. The intelligent training pad of claim 1, wherein a jump zone identifier corresponding to the jump zone and a flat support zone identifier corresponding to the flat support zone are provided on the surface of the training pad body.
  6. 6. The intelligent training pad of claim 1, wherein the jumping region and the planar support region comprise a yoga region, and wherein the jumping region, the planar support region, and the yoga region comprise a multifunctional region.
  7. 7. The intelligent training pad of claim 1 wherein the control module is further configured to provide a normalized alert of the jumping motion based on the pressure signal or to provide a normalized alert of the flat panel support motion based on a switch status signal.
  8. 8. The intelligent training pad of any one of claims 1-7 further comprising a memory module and a communication module disposed within the training pad body; the storage module is electrically connected with the control module and is used for storing the pressure signal and the counting result, the switch state signal and the timing result which are written in by the control module; The communication module is electrically connected with the control module and the storage module, and is used for uploading the pressure signal and the counting result, the switch state signal and the timing result stored by the storage module to user equipment under the control of the control module.
  9. 9. The intelligent training pad of claim 8, wherein the multi-modal sensor module, the control module, the display module, the memory module, and the communication module are all integrated on a flexible circuit board.
  10. 10. A method of motion data processing applied to an intelligent training pad as claimed in any one of claims 1 to 9, comprising: If pressure signals acquired by pressure sensors in a jumping region of the intelligent training pad are received, determining that the current motion type is jumping motion and switching to a counting mode, in the counting mode, recognizing a preparation state, a vacation state and a landing state of the jumping motion based on the pressure signals through a three-dimensional jumping state model, and counting the jumping motion based on the preparation state, the vacation state and the landing state; and if a switch state signal acquired by a membrane switch sensor positioned in a flat plate supporting area of the intelligent training pad is received, determining that the current motion type is flat plate supporting motion and switching to a timing mode, and in the timing mode, identifying a starting state, a supporting state and an ending state of the flat plate supporting motion based on the switch state signal through a three-dimensional flat plate supporting state model and timing the flat plate supporting motion based on the starting state, the supporting state and the ending state.
  11. 11. The motion data processing method of claim 10, wherein identifying the readiness, vacation, and landing states of the jumping motion based on the pressure signal by a three-dimensional jumping state model comprises: Determining that the user is currently in a preparation state when the pressure signal is detected to be continuously in a first time period exceeding a first pressure threshold value through the three-dimensional jump state model, and detecting that the pressure signal is reduced to be lower than a second pressure threshold value in a second time period, and judging that the user is in a emptying state currently, and judging that the user is in a landing state currently when the pressure signal is detected to exceed the first pressure threshold again in a third time period.
  12. 12. A method of motion data processing according to claim 10, wherein counting the jump motions based on the ready state, the vacated state, and the landed state comprises: When the preparation state, the empty state, and the landing state are continuously detected, it is determined that one effective jumping motion is performed, and the count result is incremented by 1.
  13. 13. The motion data processing method of claim 10, wherein identifying a start state, a support state, and an end state of the plate support motion based on the switch state signal by a three-dimensional plate support state model comprises: And when the switch state signal is detected to be changed from the on signal to the off signal, and the duration of the switch state signal is continuously increased, the user is judged to be in a current ending state.
  14. 14. The motion data processing method of claim 10, wherein timing the plate support motion based on the start state, the support state, and the end state comprises: Starting timing by taking the judging time of the starting state as the starting time, accumulating the duration time of the supporting state, and stopping timing by taking the judging time of the ending state as the ending time.
  15. 15. The method of motion data processing as set forth in claim 10, further comprising: Taking the pressure signal as first dimension data, taking the jump motion state as second dimension data, and taking the time as third dimension data to construct the three-dimensional jump state model; And respectively storing the first dimension data, the second dimension data and the third dimension data into different buffer areas corresponding to the three-dimensional jump state model.
  16. 16. A method of processing athletic data as in claims 10-15, further comprising: the method comprises the steps of taking a switch state signal as first dimension data, taking a flat support motion state as second dimension data, and taking time as third dimension data to construct the three-dimensional flat support state model; And respectively storing the first dimension data, the second dimension data and the third dimension data into different buffer areas corresponding to the three-dimensional flat-plate support state model.
  17. 17. A sports data processing system comprising the intelligent training pad of any one of claims 1-9, a user terminal device, and a cloud device; the intelligent training pad is used for generating user motion data based on pressure signals acquired by the pressure sensing unit or on-off state signals acquired by the membrane switch unit and transmitting the user motion data to the user terminal equipment, wherein the user motion data at least comprises pressure signals and counting results or on-off state signals and timing results; The user terminal equipment is in communication connection with the cloud terminal equipment; the user terminal device is used for uploading the user movement data to the cloud terminal device, displaying movement data statistics reports of different time periods issued by the cloud terminal device aiming at the user movement data; the cloud device is used for generating motion data statistics reports of different time periods based on the user motion data and sending the motion data statistics reports to the user side device.
  18. 18. The athletic data processing system of claim 17, wherein the cloud device is further configured to generate an athletic policy suggestion report based on the athletic data statistics report for the different time periods and to issue the athletic policy suggestion report to the client device; the user side device is further configured to display the athletic strategy suggestion report.
  19. 19. The athletic data processing system of claim 17, wherein the user side device is further configured to obtain a user selected athletic type and transmit the athletic type to the intelligent training pad in response to an athletic type selection operation; The intelligent training pad is further used for taking the motion type selected by the user as a current motion type when the motion type selected by the user is received, switching to a counting mode when the current motion type is jumping motion, counting the jumping motion based on the pressure signal through a three-dimensional jumping state model in the counting mode, switching to a timing mode when the current motion type is flat plate supporting motion, and timing the flat plate supporting motion based on the switch state signal through a three-dimensional flat plate supporting state model in the timing mode.
  20. 20. The athletic data processing system of claim 17, wherein the user side device is further configured to obtain and store each home user identification and a user specific spelling sequence of the user configuration in response to a home specific spelling mode configuration operation, associate the user athletic data with a corresponding home user identification according to the user specific spelling sequence every time user athletic data transmitted by the intelligent training pad is received, upload user athletic data corresponding to each home user identification to the cloud device, and display a home specific spelling result issued by the cloud device; the cloud end device is further used for carrying out family comparison statistics on the user motion data corresponding to each family user identifier uploaded by the user end device, and sending a family comparison result to the user end device.

Description

Intelligent training pad and motion data processing method, system and medium Technical Field The application relates to the technical field of training pads, in particular to an intelligent training pad, and a method, a system and a medium for processing motion data. Background At present, the training pad is a common auxiliary tool for daily exercise or sports of people, and most of the training pads in the prior art are pure structure products, have single functions and only have the functions of the pad. During exercise or exercise, manual counting or timing is often required and historical exercise or exercise conditions cannot be traced back, resulting in an insufficient level of intellectualization of the existing exercise mat. Disclosure of Invention The application provides an intelligent training pad, a method, a system and a medium for processing motion data, which are used for solving the problem of insufficient intelligent degree of the training pad in the prior art, and the technical scheme provided by the application is as follows: in one aspect, the application provides an intelligent training pad, comprising a training pad body, a multi-mode sensor module and a control module which are arranged in the training pad body, and a display module which is arranged on the training pad body; the training pad main body is divided into a jumping area and a plane supporting area; The multi-mode sensor module comprises a pressure sensing unit arranged in the jumping region and a membrane switch unit arranged in the flat plate supporting region, wherein the pressure sensing unit is used for collecting pressure signals of the jumping region and transmitting the pressure signals to the control module; The control module is electrically connected with the multi-mode sensor module and the display module and is used for counting jumping motions based on pressure signals through the three-dimensional jumping state model and displaying counting results through the display module, or timing the flat plate supporting motions based on the switch state signals through the three-dimensional flat plate supporting state model and displaying timing results through the display module. Optionally, the pressure sensing unit includes a plurality of pressure sensors, and the plurality of pressure sensors are distributed in an array in the jump area. Optionally, the flat support region comprises two elbow positioning regions, the membrane switch unit comprises two membrane switch sensors, and the two membrane switch sensors are respectively arranged in the two elbow positioning regions. Optionally, the display module is disposed at an edge position of the training pad body. Optionally, a jump area identifier corresponding to the jump area and a flat support area identifier corresponding to the flat support area are arranged on the surface of the training pad main body. Optionally, the jumping region, the flat supporting region and the yoga region form a multifunctional region. Optionally, the control module is further used for carrying out normalized reminding on jumping movement based on the pressure signal or carrying out normalized reminding on flat plate supporting movement based on the switch state signal. Optionally, the intelligent training pad provided by the application further comprises a storage module and a communication module which are arranged in the training pad main body; The storage module is electrically connected with the control module and is used for storing the pressure signal and the counting result written by the control module, and the switch state signal and the timing result; The communication module is electrically connected with the control module and the storage module and is used for uploading the pressure signal and the counting result, the switch state signal and the timing result stored by the storage module to the user terminal equipment under the control of the control module. Optionally, the multi-modal sensor module, the control module, the display module, the storage module, and the communication module are all integrated on a flexible circuit board. On the other hand, the application provides a motion data processing method, which is applied to the intelligent training pad and comprises the following steps: If pressure signals collected by pressure sensors in a jumping area of the intelligent training pad are received, determining that the current motion type is jumping motion and switching to a counting mode, in the counting mode, recognizing a preparation state, a vacation state and a landing state of the jumping motion based on the pressure signals through a three-dimensional jumping state model, and counting the jumping motion based on the preparation state, the vacation state and the landing state; And if the switch state signals acquired by the membrane switch sensor positioned in the flat plate supporting area of the intelligent training pad are received, determining that the