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Motion state monitoring and feedback device and motion state monitoring and feedback method

A motion state and feedback device technology, applied in special data processing applications, instruments, electrical digital data processing, etc., can solve the problems of not providing user motion suggestions, unable to real-time users, and unable to exercise incentives

Inactive Publication Date: 2014-03-05
HANGZHOU GINSHELL TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Smart wearable devices currently on the market can only monitor the user's activity status, but cannot communicate with the user in real time, and encourage the user to maintain an appropriate activity status for a period of time
Therefore, most of these smart wearable devices inform the user of what the user has done in the past, but cannot motivate the user to exercise at an appropriate exercise intensity through real-time interaction, so fragmented exercise incentives cannot be truly realized
The main problem of existing wearable devices is that they only provide activity monitoring functions, and there is no solution that can give users exercise suggestions and motivate users in real time on the wristband

Method used

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  • Motion state monitoring and feedback device and motion state monitoring and feedback method

Examples

Experimental program
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Embodiment 1

[0034] Example 1: see figure 1 and 2 , the present embodiment includes: a three-axis accelerometer 1, used for real-time acquisition of acceleration values ​​in three directions during motion; processor 2, by calculating data and judging time to monitor whether to enter the motion state; feedback device 3, when entering the motion state The state is then fed back to the user; the power module 4 is used to supply power to the entire device;

[0035] First, the accelerations in three directions x, y, and z are obtained by the triaxial accelerometer 1, and the integrated value AMP is calculated by the processor 2. The calculation formula of AMP is as follows:

[0036] Formula 1

[0037] where x is the lateral acceleration, y is the longitudinal acceleration perpendicular to x, and z is the vertical acceleration perpendicular to both x and y. Then, according to T 1 to T 2 The formula for calculating the area E of the curve formed by AMP and time by the proce...

Embodiment 2

[0045] Example 2: see figure 1 and 2 , a motion state monitoring and feedback method, the steps are as follows:

[0046] Through the three-axis accelerometer 1, the steps of real-time acquisition of acceleration values ​​in three directions during motion;

[0047] The step of monitoring whether to enter the motion state by calculating the data and judging the time by the processor 2;

[0048] The steps of feeding back the state to the user after entering the exercise state;

[0049] First, the accelerations in three directions x, y, and z are obtained by the triaxial accelerometer 1, and the integrated value AMP is calculated by the processor 2. The calculation formula of AMP is as follows:

[0050] Formula 1

[0051] where x is the lateral acceleration, y is the longitudinal acceleration perpendicular to x, and z is the vertical acceleration perpendicular to both x and y. Then, according to T 1 to T 2 The formula for calculating the area E of the curve for...

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Abstract

The invention relates to a motion state monitoring and feedback device and a motion state monitoring and feedback method, in particular to a motion state monitoring and feedback device and a motion state monitoring and feedback method both capable of being applied to intelligent wearable devices. The motion state monitoring and feedback device is characterized by comprising a triaxial accelerograph, a processor, a feedback device and a power source module, the triaxial accelerograph is used for collecting acceleration values in three directions during motion in real time, the processor monitors whether a user enters a motion state or not according to calculation data and judgment time, the feedback device feeds the motion state back to the user after the user enters the motion state, and the power source module is used for powering the whole device. By the motion state monitoring and feedback device, the defects that the device prompts entering of the motion state by mistakes due to operations such as hand washing, quilt folding and hand waving can be effectively avoided; meanwhile, the motion state monitoring and feedback device has a feedback function for stimulating the user to keep the motion state.

Description

technical field [0001] The invention relates to an exercise state monitoring and feedback device and a method thereof, in particular to an exercise state monitoring and feedback device and a method applicable to smart wearable devices. Background technique [0002] The smart wearable devices currently on the market can only monitor the user's activity status, but cannot communicate with the user in real time and encourage the user to maintain an appropriate activity status for a period of time. Therefore, most of these smart wearable devices tell the user what the user has done in the past, but cannot motivate the user to exercise at an appropriate exercise intensity through real-time interaction, so fragmented exercise incentives cannot be truly realized. The main problem of existing wearable devices is that they only provide an activity monitoring function, and do not provide a solution that can give users exercise suggestions and motivate users in real time on the wristba...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F19/00
Inventor 顾大宇许皓玥孙大鹏
Owner HANGZHOU GINSHELL TECH CO LTD
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