The smart glove was made by soft force sensor with the multi-walled carbon nanotube cast in the mesh structurecombined with an interdigitated electrode together, then used AC/DC conversionspace calculation to establish the interactive virtual reality(VR) somatosensory system under the wireless. The recipient can achieve the same feedback as the demonstrator＇s behaviorskills in VR.

The virtual reality (VR) training system is a multi-walled carbon nanotube (MWCNT) cast in a mesh structurecombined with the interdigitated electrode together to produce the soft piezoresistive sensor which is generated the difference of resistance by intertwined MWCNT. The sensor was embedded in the glove to wireless transmit hand powerposture to the VR to achieve the demonstrator.

The smart glove in the virtual reality(VR) training system with an innovative sensor is low-cost, flexibilityhigh sensitivity. The wireless transmission was integrated VRforce feedback to let the trainees get the data of the demonstrators to improve the effectiveness of the trainingproviding an innovative development direction for the domestic educationtraining industry.