Airborne Multisensor Tracking for Autonomous Collision Avoidance

2006 9th International Conference on Information Fusion Pub Date : 2006-07-10 DOI:10.1109/ICIF.2006.301724

G. Fasano, D. Accardo, A. Moccia, L. Paparone

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引用次数: 13

Abstract

This paper presents the tracking algorithms developed for a multisensor anti-collision system for unmanned aerial vehicles. This system will be developed by the Italian Aerospace Research Center (CIRA) within a research project named TECVOL, funded in the frame of the National Aerospace Research Program (PRO.R.A.) on UAV. The hardware setup is composed by a pulsed radar, two infrared cameras, and two visible cameras used as aiding sensors, thus the adoption of a fusion algorithm was mandatory to obtain the most accurate and reliable tracking estimate of obstacles. The paper describes the different modes and the relevant attainable performances of the developed tracking algorithm. The adopted data fusion technique for tracking is the Kalman filter. In particular, three different algorithms are compared in a typical collision scenario, namely conventional filter in rectangular coordinates, conventional filter in spherical coordinates, and extended filter in rectangular coordinates. Though all the three algorithms exhibited satisfying performances, the extended filter in rectangular coordinates resulted the most adequate for this airborne application

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机载多传感器自动避碰跟踪

提出了一种无人机多传感器防撞系统的跟踪算法。该系统将由意大利航空航天研究中心(CIRA)在一个名为TECVOL的研究项目中开发，该研究项目在国家航空航天研究计划(pro . r.a.)的无人机框架下获得资助。硬件设置由一个脉冲雷达、两个红外摄像机和两个可见光摄像机作为辅助传感器组成，因此必须采用融合算法来获得最准确可靠的障碍物跟踪估计。本文描述了所开发的跟踪算法的不同模式和可实现的相关性能。跟踪采用的数据融合技术是卡尔曼滤波。特别在典型的碰撞场景中比较了三种不同的算法，即直角坐标下的常规滤波、球坐标下的常规滤波和直角坐标下的扩展滤波。虽然这三种算法都表现出令人满意的性能，但在直角坐标下的扩展滤波结果最适合这种机载应用

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2006 9th International Conference on Information Fusion

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