A novel approach to maneuvering target tracking based on random motion model using random Kalman filtering

International Conference on Signal Processing and Communication Security Pub Date : 2022-11-02 DOI:10.1117/12.2655289

Jin Zhong, Yingting Luo, Y. Zhang, Shimeng Yao, Yunmin Zhu

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Abstract

Traditional maneuvering target tracking algorithms assume that the target motion model is one fixed or a limited number of them. For high-speed and strong maneuvering targets, when the model set cannot cover the maneuvering mode or the deviation is large, the performance of the tracker will drop rapidly. Therefore, this paper proposes a new maneuvering target tracking method – a random motion model based on Random Kalman Filtering (RKF). This algorithm uses a random model to describe the target maneuver, which is more widely used than traditional algorithms and is more stable when the target maneuver is not covered by the model set. Compared with the traditional single model, the classic related algorithm is Kalman Filtering (KF), the new method significantly improves the tracking effect when the target is maneuvering. At the same time, when the model set of the Interacting Multiple Model algorithm (IMM) does not match the real maneuvering state, the tracking error of the new method is smaller than IMM and there is no divergence trend.

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一种基于随机运动模型的机动目标跟踪新方法

传统的机动目标跟踪算法将目标运动模型假设为一个固定的或有限的运动模型。对于高速强机动目标，当模型集不能覆盖机动模式或偏差较大时，跟踪器的性能会迅速下降。为此，本文提出了一种新的机动目标跟踪方法——基于随机卡尔曼滤波的随机运动模型。该算法采用随机模型来描述目标机动，比传统算法应用更广泛，且在目标机动未被模型集覆盖时更稳定。与传统的单一模型相比，经典的相关算法是卡尔曼滤波(KF)，新方法显著提高了目标机动时的跟踪效果。同时，当交互多模型算法(IMM)的模型集与实际机动状态不匹配时，新方法的跟踪误差小于IMM，且不存在发散趋势。

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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International Conference on Signal Processing and Communication Security

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