Title :
Analog velocity sensing circuits based on bio-inspired correlation neural networks
Author :
Ohtani, Masahiro ; Asai, Tetsuya ; Yonezu, Hiroo ; Ohshima, Naoki
Author_Institution :
Dept. of Electr. & Electron. Eng., Toyohashi Univ. of Technol., Japan
Abstract :
We propose simple analog MOS circuits producing one-dimensional optical flows aiming at the realization of compact motion-sensing circuits. In the proposed circuit, the optical flow is computed by a number of local motion sensors, as in biological motion-sensing systems. Mimicking the structure of biological motion detectors made the circuit structure quite simple, compared with conventional velocity sensing circuits. Extensive simulation results using SPICE and experimental results indicated that the proposed circuits could compute local velocities of a moving light spot and showed direction selectivity for the moving spot, which implies that a high-resolution motion-sensing chip can be realized using standard analog very large-scale integration technology
Keywords :
CMOS analogue integrated circuits; CMOS image sensors; VLSI; analogue processing circuits; correlation methods; image processing equipment; image sequences; neural chips; real-time systems; 1 micron; SPICE simulation; analog MOS circuits; analog VLSI technology; analog velocity sensing circuits; compact motion-sensing circuits; correlation neural networks; direction selectivity; high-resolution motion-sensing chip; local motion sensors; one-dimensional optical flows; very large-scale integration; vision chip; Biology computing; Biomedical optical imaging; Biosensors; Circuits; Detectors; Image motion analysis; Motion detection; Optical computing; Optical sensors; Sensor systems;
Conference_Titel :
Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on
Conference_Location :
Granada
Print_ISBN :
0-7695-0043-9
DOI :
10.1109/MN.1999.758888
