Title :
Bio-Inspired Asynchronous Pixel Event Tricolor Vision Sensor
Author :
Lenero-Bardallo, Juan A. ; Bryn, D.H. ; Hafliger, Philipp
Author_Institution :
Dept. of Inf., Univ. of Oslo, Oslo, Norway
Abstract :
This article investigates the potential of the first ever prototype of a vision sensor that combines tricolor stacked photo diodes with the bio-inspired asynchronous pixel event communication protocol known as Address Event Representation (AER). The stacked photo diodes are implemented in a 22 × 22 pixel array in a standard STM 90 nm CMOS process. Dynamic range is larger than 60 dB and pixels fill factor is 28%. The pixels employ either simple pulse frequency modulation (PFM) or a Time-to-First-Spike (TFS) mode. A heuristic linear combination of the chip´s inherent pseudo colors serves to approximate RGB color representation. Furthermore, the sensor outputs can be processed to represent the radiation in the near infrared (NIR) band without employing external filters, and to color-encode direction of motion due to an asymmetry in the update rates of the different diode layers.
Keywords :
colour vision; image sensors; photodiodes; pulse frequency modulation; AER; Address Event Representation; PFM; Time-to-First-Spike mode; bio-inspired asynchronous pixel event communication protocol; bio-inspired asynchronous pixel event tricolor vision sensor; color-encode direction; dynamic range; heuristic linear combination; inherent pseudo colors; near infrared radiation; pulse frequency modulation; stacked photo diodes; standard STM 90 nm CMOS process; tricolor stacked photodiodes; Anodes; Capacitors; Cathodes; Color; Image color analysis; Neurons; Transistors; Address Event Representation (AER); asynchronous vision sensor; bio-inspired vision sensor; color; octopus retina;
Journal_Title :
Biomedical Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TBCAS.2013.2271382
