Abstract
According to the requirements of tracking measurement and scene acquisition in the landing segment of the returnable spacecraft, based on the requirements of safety and environmental adaptability, a design method and application mode of a portable optical measurement system are proposed. The system has three characteristics: one is the front-end can measure approach the aiming point; the second is virtual and reality interact; the third is controlled by somatosensory remotely. The shortness of the existing fixed station radar and optical equipment in low attitude measurement mission and the defects of the equipment's human-computer interaction mode are analyzed. Then, the research and application status of virtual reality technology and somatosensory control technology at home and abroad are described. Next, the overall design and functional modules division of the system are realized. The system is functionally divided into optical measurement module, communication and image transmission module, somatosensory control module and virtual reality module, and the information flow of the system is described. Finally, the typical application scenarios and application patterns of the system are envisaged. The scheme proposed may provide reference for the design and realization of the novel measurement system with new concept and control mode.
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Li, Dq., Yang, Sn., Mao, Yj., Zhang, Xf., Yuan, Cl. (2023). An Unmanned Photoelectric Measurement System of Recoverable Spacecraft Based on Virtual Reality and Somatosensory Control Technology. In: Fu, W., Gu, M., Niu, Y. (eds) Proceedings of 2022 International Conference on Autonomous Unmanned Systems (ICAUS 2022). ICAUS 2022. Lecture Notes in Electrical Engineering, vol 1010. Springer, Singapore. https://doi.org/10.1007/978-981-99-0479-2_31
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DOI: https://doi.org/10.1007/978-981-99-0479-2_31
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