Post-flight trajectory reconstruction of suborbital free-flyers using GPS raw data

IF 0.9 Q4 REMOTE SENSING

Journal of Geodetic Science Pub Date : 2017-08-28 DOI:10.1515/jogs-2017-0011

N. Ivchenko, Y. Yuan, E. Lindén

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引用次数: 1

Abstract

Abstract This paper describes the reconstruction of postflight trajectories of suborbital free flying units by using logged GPS raw data. We took the reconstruction as a global least squares optimization problem, using both the pseudo-range and Doppler observables, and solved it by using the trust-region-reflective algorithm, which enabled navigational solutions of high accuracy. The code tracking was implemented with a large number of correlators and least squares curve fitting, in order to improve the precision of the code start times, while a more conventional phased lock loop was used for Doppler tracking. We proposed a weighting scheme to account for fast signal strength variation due to free-flier fast rotation, and a penalty for jerk to achieve a smooth solution. We applied these methods to flight data of two suborbital free flying units launched on REXUS 12 sounding rocket, reconstructing the trajectory, receiver clock error and wind up rates. The trajectory exhibits a parabola with the apogee around 80 km, and the velocity profile shows the details of payloadwobbling. The wind up rates obtained match the measurements from onboard angular rate sensors.

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利用GPS原始数据重建亚轨道自由飞行者的飞行后轨迹

摘要本文介绍了利用GPS原始数据重建亚轨道自由飞行单元的飞行后轨迹。我们将重建作为一个同时使用伪距离和多普勒观测值的全局最小二乘优化问题，并采用信任区域反射算法进行求解，从而实现了高精度的导航解。为了提高码启动时间的精度，采用了大量相关器和最小二乘曲线拟合来实现码跟踪，而多普勒跟踪则采用了更为传统的锁相环。我们提出了一种加权方案来考虑由于自由飞体快速旋转而导致的快速信号强度变化，并提出了对抽搐的惩罚以实现平滑解决方案。将这些方法应用于REXUS 12探空火箭发射的两个亚轨道自由飞行单元的飞行数据，重建了轨道、接收机时钟误差和上弦率。轨道呈抛物线，远地点在80公里左右，速度剖面显示了有效载荷摆动的细节。所获得的上风速率与机载角速率传感器的测量值相匹配。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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