期刊
JOURNAL OF SPACECRAFT AND ROCKETS
卷 58, 期 1, 页码 200-209出版社
AMER INST AERONAUTICS ASTRONAUTICS
DOI: 10.2514/1.A34684
关键词
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资金
- NASA Harriett Jenkins Graduate Fellowship
The study explores the potential of using CSACs to provide CubeSat missions with precision timekeeping capabilities, reducing dependency on ground support. It presents methods for simulating and estimating CSAC signatures and temperature-induced frequency variations, analyzing navigation and clock estimation performance under different scenarios. The models and methods have the potential to be applied to other orbital regimes and CubeSat applications requiring precise onboard timing.
Chip scale atomic clocks (CSACs) have the potential to provide CubeSat missions with precision timekeeping capabilities to support onboard radiometric tracking, reducing dependence on ground support. This work considers a baseline orbit determination (OD) scenario for a low-Earth-orbit CubeSat, with one-way radiometric measurements made onboard using a CSAC as the timing reference. Methods for simulating and estimating a stochastic CSAC signature and a temperature-induced frequency variation are presented. Navigation and clock estimation performance are analyzed for both stochastic-only and thermally influenced CSAC signature cases. The models and methods can be extended to other orbital regimes and CubeSat applications requiring precise onboard timing.
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