Title :
A dual operation mode bio-inspired vision sensor
Author :
Lenero-Bardallo, Juan A. ; Hafliger, Philipp
Author_Institution :
Dept. of Inf., Univ. of Oslo, Oslo, Norway
fDate :
Oct. 31 2013-Nov. 2 2013
Abstract :
We present a bio-inspired frame-free vision sensor with two different operation modes: spatial contrast computation and intensity mode. Cross-pixel communication for contrast computation uses spike signals. Two read-out methods, Pulse Density Modulation (PDM) or Time-to-first spike (TFS), are available. Both use address event representation (AER) for off-chip communication. The user can toggle any time between different operation and read-out modes with two digital control signals that set automatically the bias settings. The sensor is aimed for applications where speed and low output data flow are preferred, i.g. surveillance and industrial processes, offering the possibility of providing detailed intensity images if necessary. The sensor does not need calibration.
Keywords :
bio-inspired materials; biomedical electronics; biomedical measurement; image sensors; neurophysiology; vision; AER; PDM; Pulse Density Modulation; TFS; Time-to-first spike; address event representation; bias settings; bio-inspired frame-free vision sensor; cross-pixel communication; detailed intensity images; digital control signals; dual operation mode bio-inspired vision sensor; industrial processes; intensity mode; low output data flow; off-chip communication; read-out methods; read-out modes; spatial contrast computation; spike signals; surveillance processes; Capacitors; Photoconductivity; Retina; Sensitivity; Threshold voltage; Topology; Transistors;
Conference_Titel :
Biomedical Circuits and Systems Conference (BioCAS), 2013 IEEE
Conference_Location :
Rotterdam
DOI :
10.1109/BioCAS.2013.6679701
