Calibration Method of Spacecraft-Inertial Sensor Center-of-Mass Offset for the Taiji Gravitational Wave Detection Mission under Science Mode. Zhang H, Ye D, Xu P, et al. ACTA PHYSICA SINICA.2025, 74(8):080401

Taiji

Calibration Method of Spacecraft-Inertial Sensor Center-of-Mass Offset for the Taiji Gravitational Wave Detection Mission under Science Mode. Zhang H, Ye D, Xu P, et al. ACTA PHYSICA SINICA.2025, 74(8):080401

by admin - Mar 25, 2026

星载超高精度惯性传感器是空间引力波探测任务的核心载荷之一. 运行环境差异、卫星工质消耗和电子器件老化会导致惯性传感器主要在轨工作参数与地面定标结果不一致, 影响数据产品精度, 进而影响科学数据质量, 需开展惯性传感器工作参数在轨标定工作. 本文针对空间引力波探测太极计划残余加速度噪声优于3×10^–15 m/(s²·Hz^1/2)@3 mHz的超高精度指标要求, 结合太极计划惯性传感器设计布局以及实际噪声模型, 设计了惯性传感器标度因数和质心偏差矢量参数在轨定标方案, 并通过仿真实验验证了方案的可行性. 仿真结果表明, 标度因数的在轨定标相对误差小于0.03%, 质心偏差在轨定标单轴误差 $< 75 μm$ , 满足太极计划惯性传感器工作参数在轨定标精度要求.

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Original Content

Calibration Method of Spacecraft-Inertial Sensor Center-of-Mass Offset for the Taiji Gravitational Wave Detection Mission under Science Mode. Zhang H, Ye D, Xu P, et al. ACTA PHYSICA SINICA.2025, 74(8):080401

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