Title :
An entropic framework for sensor modelling
Author :
Singh, Hanumant ; Stewart, W.K.
Author_Institution :
Dept. of Appl. Ocean Phys. & Eng., Woods Hole Oceanogr. Instn., MA, USA
Abstract :
The authors examine the general task of active sensing by defining an entropic measure of sensor efficiency for optimizing the rate of flow of information from a sensor. In particular the authors focus on data acquired using a 675 kHz pencil-beam sonar mounted on the Jason ROV while working in a challenging shallow water environment. In the authors´ case the entropic measure is defined based on a probabilistic three dimensional occupancy grid model of the underlying physics of the acoustic sensing modality. They demonstrate the utility of their entropic measure for examining the rate of information flowing from the sensor. This allows them to look at the rate of convergence and the stability of their mapping efforts in the face of typical uncertainties such as those associated with navigation and attitude. Their formulation is seen to be in very good agreement with independently obtained ground-truth data
Keywords :
bathymetry; entropy; geophysical techniques; measurement theory; oceanographic techniques; seafloor phenomena; sonar imaging; 675 kHz; acoustic sensing modality; active sensing; entropic framework; entropy; geophysical measurement technique; information flow; mapping; measurement theory; ocean; pencil-beam sonar; probabilistic three dimensional occupancy grid model; seafloor imaging; sensor efficiency; sensor modelling; sonar; Acoustic measurements; Acoustic sensors; Convergence; Fluid flow measurement; Navigation; Physics; Remotely operated vehicles; Sonar measurements; Stability; Underwater acoustics;
Conference_Titel :
OCEANS '96. MTS/IEEE. Prospects for the 21st Century. Conference Proceedings
Conference_Location :
Fort Lauderdale, FL
Print_ISBN :
0-7803-3519-8
DOI :
10.1109/OCEANS.1996.572604
