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引用次数: 1
摘要
在被探测区域内完成工作的移动机器人不知道周围环境的位置信息。传统的SLAM (simultaneous localization and mapping)算法解决的是被探测区域的定位和映射问题。在各种SLAM算法中,基于扩展卡尔曼滤波(EKF)的SLAM是应用最广泛的算法。EKF是一种长期使用的最优传感器融合方法。由编码器引起的里程误差可以通过EKF来补偿,EKF融合了不同类型的传感器数据,其权重与每个传感器的不确定度成正比。在许多情况下,基于EKF的SLAM需要人为安装特性,这在实际实现中造成了困难。此外,EKF中涉及的计算复杂度随着特征数量的增加而增加。而SLAM是手术时间长的弱点。为此,本文提出了一种基于对称模型的SLAM算法(M-SLAM)。
Symmetrical model based SLAM [M-SLAM] for a quick map-search
The mobile robot which accomplishes a work in explored region does not know location information of surroundings. Traditionally, simultaneous localization and mapping(SLAM) algorithms solve the localization and mapping problem in explored regions. Among the several SLAM algorithms, the EKF (Extended Kalman Filter) based SLAM is the scheme most widely used. The EKF is the optimal sensor fusion method which has been used for a long time. The odometric error caused by an encoder can be compensated by an EKF, which fuses different types of sensor data with weights proportional to the uncertainty of each sensor. In many cases the EKF based SLAM requires artificially installed features, which causes difficulty in actual implementation. Moreover, the computational complexity involved in an EKF increases as the number of features increases. And SLAM is a weak point of long operation time. Therefore, this paper presents a symmetrical model based SLAM algorithm (called M-SLAM).
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