▎ 摘　　要

NOVELTY - Printing a three dimensional multi-dimensional graphene elastomer wearable motion sensor comprises using a elastic sensor for preparing a graphene three-dimensionally assembled porous micro-structure and a millimeter-accurate micropattern using a printing process. USE - The wearable motion sensor is useful for sports shoes, control gloves, wristbands and other sports monitoring, micro-motion control, and equipment. ADVANTAGE - The motion sensor has different porosity, pore size, dense layer and interstitial structure, and prints arbitrary two-dimensional patterns according to device and ergonomic requirements or three-dimensional configuration, device integration of motion monitoring sensors, achieves multi-dimensional recognition and monitoring of human motion; has micro-pattern of millimeter precision; has high performance of differential resistance signal change for different elastic deformation; is multi-channel electrical signal acquisition and multi-variable analysis to achieve multi-discrimination analysis. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are also included for: (1) three-dimensional graphene elastomer material having good conductivity of the reduction-oxidation graphene elastic material; and (2) use of elastic material in sports shoes and control gloves capable of recognizing and detecting complex movements and manipulation actions of the human body, wearable devices, namely motion monitoring and jog control i.e. wristbands.