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A Novel Particle Filter Formulation with Application to Terrain-Aided Navigation

机译:一种新型颗粒滤镜配方,应用于地形辅助导航

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Terrain-aided navigation (TAN) holds high potential for integration with classical dead-reckoning methods in underwater vehicles that do not have access to the global positioning system (GPS). The TAN approach constitutes an economical solution for long-range oceanographic missions that cannot afford the cost of high-grade inertial navigation systems or the logistics associated to the deployment of long acoustic baselines. Successful implementations of the terrain navigation concept require efficient and robust algorithms for estimation of the vehicle kinematic states. Current implementations of terrain-based navigation rely essentially on a class of nonlinear filters commonly designated particle filters (PF) due to their versatility and robustness. However, there are some typical problems posed by TAN applications that require further investigation since they are not adequately solved by standard PF algorithms. The present paper addresses the problem of efficiency and robustness of particle filters in the context of terrain based navigation. To this effect, we present two new filter versions that are shown to be more robust and to achieve superior performance in terms of position and velocity estimation. When applied to TAN, the new PF formulations mitigate filter divergence problems frequently caused by terrain symmetries and are more robust than other well-known versions when used in scenarios with poor terrain information.
机译:地形辅助导航(TAN)适用于在水下没有进入全球定位系统(GPS)的车辆经典的航位推算方法的集成高电位。的TAN方法构成一个经济的解决方案远距离海洋学任务无法承受高档惯性导航系统的成本或相关联的长声基线的部署物流。地形导航概念的成功实施需要对车辆运动状态的估计有效和强大的算法。基于地形的导航的当前实现基本上依靠一类的非线性滤波器通常被指定颗粒物过滤器(PF)的,由于其多功能性和鲁棒性。不过,也有被需要进一步调查,因为他们没有足够的通过标准PF算法解决TAN应用所带来的一些典型问题。本文件中基于地形导航的上下文中解决效率和颗粒过滤器的耐用性的问题。为此,我们提出其显示出更加强劲,并实现在位置和速度估计方面性能优越的两个新的过滤器版本。当施加到TAN,新PF制剂减轻经常由地形对称性引起的过滤器问题发散并与差的地形信息的情况下使用时比其它公知的版本更加鲁棒。

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