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Application of Accelerometer Data to Mars Odyssey Aerobraking and Atmospheric Modeling

机译：加速度计数据在火星奥德赛空中制动和大气模拟中的应用

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摘要

Aerobraking was an enabling technology for the Mars Odyssey mission even though it involved risk due primarily to the variability of the Mars upper atmosphere. Consequently, numerous analyses based on various data types were performed during operations to reduce these risk and among these data were measurements from spacecraft accelerometers. This paper reports on the use of accelerometer data for determining atmospheric density during Odyssey aerobraking operations. Acceleration was measured along three orthogonal axes, although only data from the component along the axis nominally into the flow was used during operations. For a one second count time, the RMS noise level varied from 0.07 to 0.5 mm/s2 permitting density recovery to between 0.15 and 1.1 kg per cu km or about 2% of the mean density at periapsis during aerobraking. Accelerometer data were analyzed in near real time to provide estimates of density at periapsis, maximum density, density scale height, latitudinal gradient, longitudinal wave variations and location of the polar vortex. Summaries are given of the aerobraking phase of the mission, the accelerometer data analysis methods and operational procedures, some applications to determining thermospheric properties, and some remaining issues on interpretation of the data. Pre-flight estimates of natural variability based on Mars Global Surveyor accelerometer measurements proved reliable in the mid-latitudes, but overestimated the variability inside the polar vortex.

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Tolson, R. H. ; Keating, G. M. ; George, B. E. ; Escalera, P. E. ; Werner, M. R.;
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年度 2002
页码 1-14
总页数 14
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Meetings; Accelerometers; 2001 mars odyssey; Aerobraking; Atmospheric models; Mars atmosphere; Atmospheric density; Radio tracking; Numerical analysis; Trajectory analysis; Mission planning; Mars missions; Risk; Real time operation; Density measurement; Acceleration measurement; Orbit determination; Trajectory planning; Performance prediction;

机译：会议;加速度计; 2001年火星奥德赛;航空制动;大气模型;火星大气层;大气密度;无线电跟踪;数值分析;轨迹分析;任务规划;火星任务;风险;实时操作;密度测量;加速度测量;轨道确定;轨迹规划;绩效预测;

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1. Application of Accelerometer Data to Mars Odyssey Aerobraking and Atmospheric Modeling [J] . R. H. Tolson, A. M. Dwyer, J. L. Hanna, Journal of Spacecraft and Rockets . 2005,第3期

机译：加速度计数据在火星奥德赛航空制动和大气建模中的应用
2. Application of Accelerometer Data to Atmospheric Modeling During Mars Aerobraking Operations [J] . R. H. Tolson, G. M. Keating, R. W. Zurek, Journal of Spacecraft and Rockets . 2007,第6期

机译：加速度计数据在火星航空制动操作中的大气建模中的应用
3. A method of estimating the Martian neutral atmospheric density at 130 km, and comparison of its results with Mars Global Surveyor and Mars Odyssey aerobraking observations based on the Mars Climate Database outputs [J] . JunFeng Qin, Hong Zou, YuGuang Ye, 地球与行星物理（英文） . 2020,第004期

机译：一种估算130公里火星中性大气密度的方法，并将其结果与火星全球测量师和火星奥德赛航空制动观测结果进行比较，并基于火星气候数据库的输出结果
4. Application of Accelerometer Data to Mars Odyssey Aerobraking and Atmospheric Modeling [C] . R. Tolson, G. Keating, B. George, AIAA Guidance, Navigation, and Control Conference and Exhibit . 2002

机译：加速度计数据在火星奥德赛航空制动和大气建模中的应用
5. Methods for Atmospheric Density Prediction During Mars Aerobraking Operations [D] . Margulies, Jake. 2020

机译：火星气球运动过程中大气密度预测方法
6. Extracting Objective Estimates of Sedentary Behavior from Accelerometer Data: Measurement Considerations for Surveillance and Research Applications [O] . Youngdeok Kim, Gregory J. Welk, Saori I. Braun, -1

机译：从加速度计数据中提取久坐行为的客观估计：监视和研究应用的测量注意事项
7. Application of Accelerometer Data to Mars Odyssey Aerobraking and Atmospheric Modeling [O] . Werner M. R., Tolson R. H., Escalera P. E., 2002

机译：加速度计数据在火星奥德赛航空制动和大气建模中的应用

Application of Accelerometer Data to Mars Odyssey Aerobraking and Atmospheric Modeling

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