Scalable self-attaching/assembling robotic cluster (S2A2RC) system enabled by triboelectric sensors for in-orbit spacecraft application

With the rapid development of aerospace technology, super-large-scale space structures have become the preferred solution for major aerospace countries to carry out in-orbit missions. Therefore, a scalable selfattaching/assembling robotic cluster (S2A2RC) system which can realize the component-level in-orbit assembly task requirements of ultra-large-scale space truss structures is proposed in this paper. On this basis, a monitoring system with self-powered sensor based on the triboelectric nanogenerator (TENG) technology is proposed. The sensory system is used to monitor the crawling state of the robot, the grasping state of the manipulator, and the assembly state of the truss components during the in-orbit assembly process in real time. In conclusion, the S2A2RC system is proposed in this paper, with the noticeable advantages in terms of the multifunctionalities, the cost, the power consumption, the signal reliability, and the minimized data size. Meanwhile, the S2A2RC system shows great potential for many other large-scale spacecrafts.

Automated summary

This paper proposes a scalable self-attaching/assembling robotic cluster (S2A2RC) system for in-orbit assembly tasks of ultra-large-scale space truss structures. A monitoring system with self-powered sensor based on TENG technology is also proposed. The S2A2RC system offers significant advantages in terms of multifunctionalities, cost, power consumption, signal reliability, and minimized data size, and shows great potential for other large-scale spacecrafts.