为解决传统航天器设计模式所面临挑战,本文分析了当前航天器设计的技术现状和体系结构不能满足在轨服务要求等突出问题。以“凤凰重生”的设想为代表,提出了面向在轨装配任务的可重构细胞卫星技术,分析了细胞卫星的内涵和结构及接口设计理念。针对面向空间装配的在轨服务所面临的挑战,提出了可重构细胞星的关键技术,包括构型优化、信息融合、多细胞结构的控制和针对精细装配的空间遥操作等。最后针对我国的技术现状,提出了我国开展细胞卫星研究所需解决的问题和未来发展建议。 In order to solve the challenges of the traditional spacecraft design pattern, this paper analyzes the current technical status of the spacecraft design and architecture can not meet the on-orbit service requirements and other outstanding issues. Based on the idea of ​​“Phoenix Rebirth”, this paper proposes reconfigurable cellular satellite technology for on-orbit assembly tasks and analyzes the connotation, structure and interface design concept of cellular satellite. In order to meet the challenge of in-orbit service for space assembly, key technologies of reconfigurable cell star are proposed, including configuration optimization, information fusion, control of multi-cell structure and space teleoperation for fine assembly. Finally, according to the current situation of our country’s technology, this paper puts forward the problems to be solved and the suggestions for future development in our country.