Title :
Parallel algorithms for automatic target recognition using Co2 laser radar images
Author :
Sullivan, Daniel J. ; Forman, Arthur V., Jr.
Author_Institution :
Martin Marietta Electron. Syst., Orlando, FL, USA
Abstract :
A parallel implementation of algorithms to achieve viewpoint invariant target recognition from laser radar images is described. The active/passive CO2 laser radar sensor used provides pixel-registered thermal, visual, relative range and artifacts and detects edges. Viewpoint invariance obtained using the translation invariant property of the Fourier transform transforms 2-D rotations and scale changes into translations. This scene representation provides 2-D viewpoint invariance and is used as input to a neural network that has been trained to recognize representative views of the targets of interest. The system is implemented on the Geometric Arithmetic Parallel Processor (GAPP), a massively parallel single-instruction-multiple-data (SIMD) computer that contains a 216×384 array of processing elements. Results obtained by processing real lasers radar images are presented
Keywords :
carbon compounds; optical radar; parallel algorithms; CO2; Fourier transform; Geometric Arithmetic Parallel Processor; SIMD computer; active sensor; automatic target recognition; laser radar images; laser radar sensor; massively parallel computer; neural network; parallel algorithms; passive sensor; processing elements; viewpoint invariant target recognition; Fourier transforms; Gas detectors; Image edge detection; Laser radar; Parallel algorithms; Passive radar; Radar detection; Radar imaging; Target recognition; Thermal sensors;
Conference_Titel :
Multidimensional Signal Processing Workshop, 1989., Sixth
Conference_Location :
Pacific Grove, CA
DOI :
10.1109/MDSP.1989.97026
