CN203017681U - Children hand-eye coordination training and testing system based on motion recognition - Google Patents

Abstract

The utility model discloses a children hand-eye coordination training and testing system based on motion recognition, and the children hand-eye coordination training and testing system based on the motion recognition includes a host, a display and a camera, and further includes a placing platform and a hammer, wherein the display is accessed into the host, the camera is arranged at the top of the display, directed at the human body, and accessed into the host, the placing platform is arranged in front of the human body, and the hammer can be held in a hand of the human body. A plurality of cards made of pressure-sensitive materials are fixedly placed on the placing platform, and different numbers are written on the cards. A central processing unit, a signal acquisition circuit and a wireless module are built in the placing platform, wherein the signal acquisition circuit and the wireless module are accessed into the central processing unit. The cards are respectively accessed into the signal acquisition circuit. The central processing unit inside the placing platform is connected with the host through the connected wireless module in a communicated mode; and a central processing unit, an inertial measurement unit and a wireless module are built in the hammer, wherein the inertial measurement unit and the wireless module are accessed into the central processing unit, and the central processing unit built in the hammer is connected with the host in a communicated mode through the connected wireless module. The children hand-eye coordination training and testing system based on the motion recognition can assist training the hand-eye coordination of the children and make a corresponding evaluation, and is strong in practicability.

Description

A kind of training of children's hand eye coordination and evaluating system based on action recognition

Technical field

The utility model relates to training accessory system field, is specially a kind of training of children's hand eye coordination and evaluating system based on action recognition.

Background technology

based on the motion identification device of the video handle by the built-in sensitive device, main frame, display, the formations such as action recognition module, can be by the moving image of the camera collection human body in motion identification device, and by integrated image algorithm chip, moving image is resolved, form the Three-Dimensional Dynamic coordinate of human motion, synthetic and the emulation through the image of main frame, show at last corresponding action in display, therefore the motion identification device based on video can be used as the training of children's hand eye coordination and evaluating system auxiliary equipment, but still there is no the training of children's hand eye coordination and evaluating system based on action recognition in prior art.

The utility model content

The purpose of this utility model is to provide a kind of training of children's hand eye coordination and evaluating system based on action recognition, there is no the problem of the training of children's hand eye coordination and evaluating system to solve prior art.

In order to achieve the above object, the technical scheme that adopts of the utility model is:

a kind of training of children's hand eye coordination and evaluating system based on action recognition, include main frame, the display of access host, be arranged on the camera of display top alignment human body and access host, it is characterized in that: also include the display unit that is placed in human body the place ahead, and the hand hammer that is held in human hands, fixedly be placed with some cards made from the pressure sensitive of different digital on display unit, display unit is built-in with center processing unit, signal acquisition circuit and the wireless module of access center processing unit, described card accesses respectively signal acquisition circuit, center processing unit in display unit is connected with host communication by the wireless module that connects, described hand hammer is built-in with center processing unit, Inertial Measurement Unit and the wireless module of access center processing unit, center processing unit in hand hammer is connected with host communication by the wireless module that connects.

The described a kind of training of children's hand eye coordination and evaluating system based on action recognition, it is characterized in that: described Inertial Measurement Unit comprises three dimension acceleration sensor, three-axis gyroscope, magnetic sensor.

In the utility model, show different numerals in display, children impact in display unit card with different digital according to the different digital in display by hand hammer, the camera collection human motion image, Inertial Measurement Unit is measured human body movement data in hand hammer, when hand hammer impacts card with different digital, produce pressure signal, the situation of hitting is passed to main frame, one take turns end after, main frame shows the rate of hitting on display according to moving image, exercise data and pressure signal.But the utility model supplemental training children's hand eye coordination is also made corresponding evaluation and test, and is practical.

Description of drawings

Fig. 1 is the utility model structural representation.

Fig. 2 is the utility model hand hammer internal structure theory diagram.

The specific embodiment

As shown in Figures 1 and 2.a kind of training of children's hand eye coordination and evaluating system based on action recognition, include main frame 1, the display 2 of access host 1, be arranged on the camera 3 of display 2 top alignment human bodies and access host 1, also include the display unit 4 that is placed in human body the place ahead, and the hand hammer 5 that is held in human hands, fixedly be placed with some cards 6 made from the pressure sensitive of different digital on display unit 4, display unit 4 is built-in with center processing unit 7, signal acquisition circuit 8 and the wireless module 9 of access center processing unit 7, described card 6 accesses respectively signal acquisition circuit, center processing unit in display unit is connected with main frame 1 communication by the wireless module that connects, described hand hammer 5 is built-in with center processing unit, Inertial Measurement Unit and the wireless module of access center processing unit, center processing unit in hand hammer 5 is connected with main frame 1 communication by the wireless module that connects.

Inertial Measurement Unit comprises three dimension acceleration sensor, three-axis gyroscope, magnetic sensor.

Claims (2)

1. the training of children's hand eye coordination and evaluating system based on an action recognition, include main frame, the display of access host, be arranged on the camera of display top alignment human body and access host, it is characterized in that: also include the display unit that is placed in human body the place ahead, and the hand hammer that is held in human hands, fixedly be placed with some cards made from the pressure sensitive of different digital on display unit, display unit is built-in with center processing unit, signal acquisition circuit and the wireless module of access center processing unit, described card accesses respectively signal acquisition circuit, center processing unit in display unit is connected with host communication by the wireless module that connects, described hand hammer is built-in with center processing unit, Inertial Measurement Unit and the wireless module of access center processing unit, center processing unit in hand hammer is connected with host communication by the wireless module that connects.

2. a kind of training of children's hand eye coordination and evaluating system based on action recognition according to claim 1, it is characterized in that: described Inertial Measurement Unit comprises three dimension acceleration sensor, three-axis gyroscope, magnetic sensor.

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