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精密离心机上加速度计安装姿态误差和主轴姿态误差对测试的影响 总被引:4,自引:0,他引:4
在精密离心机上进行加速度计测试和标定时 ,加速度计的安装姿态误差和精密离心机主轴姿态误差是影响加速度计测试和标定准确度的重要因素。给出这些姿态误差对加速度计测试的影响量 ,指出当这些姿态误差超过一定限度时要考虑这些姿态误差的影响 ,这对提高精密离心机上加速度计的测试和标定准确度将有非常重要的意义和实际应用价值 相似文献
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Benjamin Lenoir Agnès Lévy Bernard Foulon Brahim Lamine Bruno Christophe Serge Reynaud 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2011
Radio tracking of interplanetary probes is an important tool for navigation purposes as well as for testing the laws of physics or exploring planetary environments. The addition of an accelerometer on board a spacecraft provides orbit determination specialists and physicists with an additional observable of great interest: it measures the value of the non-gravitational acceleration acting on the spacecraft, i.e. the departure of the probe from geodesic motion. 相似文献
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Hang Guo Min Yu Chengwu Zou Wenwen Huang 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2010
This paper investigated the data processing method for a GPS/IMU/magnetometer integrated system with Kalman filtering (KF). As a result of GPS/IMU/magnetometer land vehicle system, dead-reckoning of magnetometer and accelerometer integrated subsystem bridged very well the GPS signal outage due to the trees on the two sides of the road. Both differential GPS data processing method and the carrier-phase method with magnetometers’ outputs for predicting the car position, velocity, and acceleration (PVA) are presented. The results from DGPS with Kinematical Positioning (KINPOS) software shown that the averages of the north, east, and down direction standard deviation (short for “std”) are 0.014, 0.010, and 0.018 m, respectively. The std of velocities and accelerations derived by the position and velocity differentiation are 10, 7, 13 mm/s, 7, 5, 9 mm/s2, respectively. This method for getting velocities and accelerations requires higher accurate position coordinates. But the position accuracy has frequently been degraded in this case when the car drove under the trees or other similar kinematical environments. That caused the larger velocity and acceleration errors. While the results from the carrier-phase method are std of the velocities = 2.1 mm/s, 1.3 mm/s, 3.7 mm/s in north, east, down, and std of the accelerations = 1.5 mm/s2, 0.9 mm/s2, 2.3 mm/s2 for the static test period; as compared with KINPOS software results, std of the velocity difference between the carrier-phase method and the DGPS method = 7 mm/s, 6.9 mm/s, 9.7 mm/s in north, east, down direction, and std of acceleration difference = 5.0 mm/s2, 4.5 mm/s2, 7.5 mm/s2 in north, east, down direction for the kinematical test period. Obviously, errors come from both the carrier-phase method and DGPS velocity and acceleration results derived directly by the position differentiation. In addition, better accuracy of positions than that before KF has been got by means of velocities and accelerations derived by the carrier-phase method after KF. 相似文献
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九加速度计NGMIMU实用设计方案 总被引:5,自引:1,他引:5
无陀螺微惯性测量单元(NGMIMU)的九加速度计配置方案是该系统所有方案中运算量最小、最适合实时运算的。该方案要求若干加速度计安放在同一点上,但加速度计本身有体积,而且相对于实用载体而言其体积是巨大的,故导致巨大的系统误差。本文根据NGMIMU算法和加速度计特性提出一种全新的实用算法。该算法在要求加速度计安装满足一定条件的基础上,将多个加速度计进行分组计算,在没有增加任何计算量的情况下,从原理上消除了由于加速度计体积带来的误差。九加速度计NGMIMU实验结果显示,应用该算法测量误差小于8%,证明了该算法的正确性。 相似文献
16.
Florian Wöske Takahiro Kato Benny Rievers Meike List 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2019,63(3):1318-1335
The precise modeling and knowledge of non-gravitational forces acting on satellites is of big interest to many scientific tasks and missions. Since 2002, the twin GRACE satellites have measured these forces in a low Earth orbit with highly precise accelerometers, for about 15?years. Besides the significance for the GRACE mission, these measurement data allow the evaluation of modeling approaches and the improvement of force models. Unfortunately, before any scientific usage, the accelerometer measurements need to be calibrated, namely scale factor and bias have to be regularly estimated.In this study we demonstrate an accelerometer calibration approach, solely based on high precision non-gravitational force modeling without any use of empirically or stochastically estimated parameters, using our in-house developed satellite simulation tool XHPS. The aim of this work is twofold, first we use the accelerometer data and the residuals resulting from the calibration to quantitatively analyze and validate different non-gravitational force model approaches. In a second step, we compare the calibration results to three different calibration methods from different authors, based on gravity field recovery, GPS-based precise orbit determination, and based on modeled accelerations.We consider atmospheric drag forces and winds, as well as radiation forces due to solar radiation pressure, albedo, Earth infrared and thermal radiation (TRP) of the satellite itself. For TRP, we investigate different transient temperature calculation approaches for the satellite surfaces with absorbed power from the aforementioned radiation sources. A detailed finite element model of the satellite is utilized for every force, considering orientation, material properties and shadowing conditions for each element.For cross-track and radial direction, which are mainly affected by the radiative forces, our calibration residuals are quite small when drag is not super dominant (1–3? for total accelerations around 50?). For these directions the calibration seems to perform better than the other compared methods, where some bigger differences were found. For the drag dominated along-track direction it is vice versa, here our method is not sensitive enough because the difference between modeled and measured drag is bigger (e.g. residuals around 10? for total accelerations around 70? for low solar activity). In along-track direction the orbit determination based methods are more sensitive and produce more reliable results. Results for the complete GRACE mission time span from 2003 to 2017 are shown, covering different seasonal environmental conditions. 相似文献
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激光捷联惯性/卫星组合导航系统是国外飞机上普遍采用的一种导航设备,但在国内飞机上的应用则刚刚起步。本文简要介绍了激光捷联惯性/卫星组合导航系统的基本原理及应用情况。 相似文献
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对比研究了用于加速度表标定的重力场,离心机与电模拟的三种方法,给出了在国内目前没有大g值精密离心机条件下,如何解决大量程加速度表的系数标定问题。 相似文献