Abstract
Tactility is an essential perception for intelligent equipment to acquire external information. It can improve safety and performance during human-machine interactions. Based on the uniqueness theorem of the electrostatic field, a novel flexible film tactile sensor that can detect contact position and be made into any plane shape is proposed in this paper. The tactile sensor included an indium tin oxide (ITO) film, which was uniformly coated on the polyethylene terephthalate (PET) substrate. A specially designed strong conductive line was arranged along the edge of the flexible ITO film, which has weak conductivity. A bias excitation was applied to both ends of the strong conductive line. Through the control of the shape of the strong conductive line, a uniform electric field can be constructed in the whole weak conductive plane. According to the linear relationship between position and potential in the uniform electric field, the coordinate of the contact position can be determined by obtaining the potential of the contact point in the weak conducting plane. The sensor uses a three-layer structure, including an upper conductive layer, an intermediate isolation layer, and a lower conductive layer. A tactile sensor sample was fabricated. The experiment results showed that the principle of the tactile sensor used for the contact position detection is feasible and has certain precision of position detection. The sensor has good flexibility, and can be made into any plane shape, and has only four wires. It is capable of covering large areas of robot arms, and provides safety solutions for most robots.
Highlights
With the rapid development of robot technology, intelligent robots are gradually entering the human world [1,2]
A flexible irregular pentagon sensor sample was fabricated based on the construction method of the conductive plane proposed in this paper
(3) Lower layer L3: This was similar to the upper layer L1 and was composed of the indium tin oxide (ITO)-polyethylene terephthalate (PET)
Summary
With the rapid development of robot technology, intelligent robots are gradually entering the human world [1,2]. As the “electronic skin” of robots, usually require flexibility to be able to cover large areas of the robot surface, and can detect the contact force. The non-array sensor should be flexibly attached to any irregular surface of the object. Pan et al [18] proposed a flexible tactile sensor fabricated with conductive fabric that could detect contact position. The sensor was a multi-layered structure and could be used to detect the contact position in a large area. They applied electrical impedance tomography (EIT) to detect the surface contact position of 3D objects It had a complex algorithm, the hardware system requirements were high, and the spatial resolution was limited. A new non-array tactile sensor that can be used for continuous contact position detection and made into any plane shape was proposed. The sensor was flexible and could be used for full-body robot clothing
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
