Title :
Location and curvature estimation of spherical targets using multiple sonar time-of-flight measurements
Author_Institution :
Dept. of Electr. Eng., Bilkent Univ., Ankara, Turkey
fDate :
12/1/1999 12:00:00 AM
Abstract :
A novel, flexible, three-dimensional multisensor sonar system is described to localize the center of a generalized spherical target and estimate its radius of curvature. Point, line, and planar targets are included as limiting cases which are important for the characterization of a mobile robot´s environment. Sensitivity analysis of the curvature estimate with respect to measurement errors and some of the system parameters is provided. The analysis is verified experimentally for specularly reflecting cylindrical and planar targets. Typical accuracies in range and azimuth are 0.17 mm and 0.1°, respectively. Accuracy of the curvature estimate depends on the target type and system parameters such as transducer separation and operating range
Keywords :
distance measurement; intelligent sensors; mobile robots; parameter estimation; robot vision; sensitivity analysis; sensor fusion; sonar target recognition; sonar tracking; azimuth accuracy; curvature estimation; cylindrical targets; distance measurement; flexible 3D multisensor sonar system; intelligent sensors; measurement errors; mobile robot environment; multiple sonar time-of-flight measurement; operating range; planar targets; radius of curvature; range accuracy; robot sensing systems; sensitivity analysis; specularly reflecting targets; spherical target; target location; transducer separation; underwater robots; Acoustic transducers; Azimuth; Intelligent sensors; Measurement errors; Mobile robots; Position measurement; Robot sensing systems; Sensitivity analysis; Sonar measurements; Target recognition;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
