论文信息 - Ultrasound/DR integrated localization and pose tracking for an Indoor Mobile Robot

Ultrasound/DR integrated localization and pose tracking for an Indoor Mobile Robot

This paper brings forward a structure and signal processing algorithms for localization and pose tracking of an Indoor Mobile Robot (IMR) by integrating ultrasonic and Dead-Reckoning (DR) measurements. The localization system consists of two ultrasonic transmitter nodes, two ultrasonic receiver nodes, one magnetic compass and two encoders, four ultrasonic time-of-flight (TOF) measurements together with the DR information (compass and encoder measurements) are used to estimate the IMR's location and pose. A novel Adaptive Square-Root Kalman Filter (ASRKF) is applied to improve the estimation accuracy. A computer simulation based on Matlab and experiment prototype were built to verify the method. The results confirm that the proposed localization methodology has high accuracy and interference immunity for IMRs.

Juzhong Zhang | Kui Pan

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