Estimation Algorithm of Relative Position and Attitude during Proximity Rendezvous Using Multiple Ultra-Wide-Band Devices

Mikihiro Ikura, S. Ikari, A. Tomiki, R. Funase, S. Nakasuka
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引用次数: 1

Abstract

This research proposes estimation algorithms of relative position and attitude during interplanetary proximity rendezvous and docking by using ultra-wide-band (UWB) devices — which are small, low-power devices to be used for communication between several spacecraft, and are suitable to be mounted on micro- or nano-spacecraft. The device provides high-precision ranging and high-speed communication between two spacecraft during rendezvous and docking, whose information is used for estimating their relative position and attitude. This paper proposes two estimation algorithms using UWB properties. The first one estimates the relative position by using the ranging data of the UWB devices and the relative attitude information, which is shared by the UWB communication and provided by the attitude sensors. In the second algorithm, assuming that the attitude sensor of the chaser cannot be used, the relative attitude is estimated using the multiple ranging data of the UWB devices. This research evaluates the estimation accuracy of the two proposed algorithms using a rendezvous simulator, which reveals the conditions to obtain accurate and stable relative position and attitude estimations. This paper will contribute to autonomous navigation method for the proximity rendezvous and docking phases of micro- and nano-spacecraft, which have strict limitations of size and power for navigation sensors.
多超宽带设备近距离交会相对位置姿态估计算法
本研究提出了利用超宽带(UWB)设备进行星际近距离交会对接过程中相对位置和姿态估计的算法。超宽带设备是一种小型、低功耗的设备,用于多个航天器之间的通信,适合安装在微纳米航天器上。该装置在交会对接过程中为两个航天器提供高精度测距和高速通信,其信息用于估计它们的相对位置和姿态。本文提出了两种利用超宽带特性的估计算法。第一种方法是利用超宽带设备的测距数据和相对姿态信息估计相对位置,这些信息由超宽带通信共享,由姿态传感器提供。在第二种算法中,假设不能使用跟踪器的姿态传感器,利用超宽带设备的多个测距数据估计相对姿态。利用交会模拟器对两种算法的估计精度进行了评估,揭示了获得准确稳定的相对位置和姿态估计的条件。本文将为微纳米航天器近距离交会对接阶段自主导航方法的研究提供参考,该阶段导航传感器的尺寸和功率受到严格限制。
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