Affiliation:
1. School of Automation Science and Engineering, Xi’an Jiaotong University, Xi’an 710049, China
2. School of Electrical Engineering and Automation, Xiamen University of Technology, Xiamen 361024, China
3. Shanghai Satellite Engineering Institute, Shanghai 201109, China
Abstract
High-precision collaborative observation is urgently needed due to the increasing demands of space science missions. Based on a conventional DFP (disturbance-free-payload) configuration, this paper presents a novel DFP that has great potential to deal with collaborative observation missions. The novel DFP system is developed, in which two or more payloads are installed via a non-contact unit and installed parallel configuration. Thus, the novel design is a multibody dynamics system. With the incorporation of the dynamics of the flexible umbilical between the PMs (payload modules) and SM (support module), the six-degrees-of-freedom multibody rigid–flexible dynamics of the whole system are derived. To verify the effectiveness of the novel DFP design in a collaborative observation mission, a multi-loop controller is designed for an inertial Earth collaborative observation mission. Simulation studies are conducted, which indicate that the proposed design can complete collaborative observation and achieve high precision.
Funder
Fujian Provincial Department of Science and Technology under the Natural Science Foundation of Fujian Province, China
Xiamen Municipal Bureau of Science and Technology under the Natural Science Foundation of Xiamen, China
ujian Provincial Department of Education under the Youth Foundation of Fujian Educational Committee, Fujian, China
Xiamen University of Technology under the Startup Fund for Distinguished Scholars, Xiamen University of Technology of China