Title :
VLSI architecture for video-assisted global positioning
Author :
Utgikar, Anant ; Seetharaman, Guna ; Le, Ha
Author_Institution :
Center for Adv. Comput. Studies, Univ. of Louisiana, Lafayette, LA
Abstract :
We design and implement an efficient architecture for geometric computation of the global position of an airborne video camera from images of known landmarks. A solution based on this analysis, a robust Hough transform-like method facilitated by a class of CORDIC-structured computations is implemented within the framework of terrain navigation. It empowers aerial surveillance systems to navigate effectively when the global position and inertial navigation sensors are out of order. This is particularly useful when the GPS functionality is disrupted by jamming and other techniques. Our architecture exploits parallelism among independent operations and uses pipelining of critical components for superior performance. Double precision division being computationally expensive is performed minimally. Correlation between data is tapped to reduce complexity of flash ADCs, at the cost of few clock cycles once to initialize Hough voting
Keywords :
Global Positioning System; Hough transforms; VLSI; aircraft navigation; image processing; inertial navigation; surveillance; terrain mapping; CORDIC-structured computation; Hough voting; VLSI architecture; aerial surveillance system; airborne video camera; flash ADC; geometric computation; inertial navigation sensor; jamming technique; landmark images; robust Hough transform-like method; terrain navigation; video-assisted global positioning; Cameras; Computer architecture; Global Positioning System; Inertial navigation; Jamming; Out of order; Robustness; Sensor systems; Surveillance; Very large scale integration;
Conference_Titel :
Computer Architectures for Machine Perception, 2003 IEEE International Workshop on
Conference_Location :
New Orleans, LA
Print_ISBN :
0-7803-7970-5
DOI :
10.1109/CAMP.2003.1598170
