Concurrent focal‐plane generation of compressed samples from time‐encoded pixel values
M. Trevisi1,a, H. C. Bandala2, J. Fernández‐Berni1, R. Carmona‐Galán 1 and Á. Rodríguez‐Vázquez1
1Instituto de Microelectrónica de Sevilla (IMSE‐CNM), CSIC‐Universidad de Sevilla, Spain
a trevisi@imse-cnm.csic.es
2Instituto Nacional de Astrofísica, Óptica y Electrónica (INAOE), Puebla, Mexico
ABSTRACT
Compressive sampling allows wrapping the relevant content of an image in a reduced set of data. It exploits the sparsity of natural images. This principle can be employed to deliver images over a network under a restricted data rate and still receive enough meaningful information. An efficient implementation of this principle lies in the generation of the compressed samples right at the imager. Otherwise, i. e. digitizing the complete image and then composing the compressed samples in the digital plane, the required memory and processing resources can seriously compromise the budget of an autonomous camera node. In this paper we present the design of a pixel architecture that encodes light intensity into time, followed by a global strategy to pseudo‐randomly combine pixel values and generate, on‐chip and on‐line, the compressed samples.
Keywords: Compressive sampling, Cellular automaton, Timeencoded pixels.
