2015
DOI: 10.1364/oe.23.005614
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A bio-inspired analog silicon retina with Michaelis-Menten auto-adaptive pixels sensitive to small and large changes in light

Abstract: In this paper, we present: (i) a novel analog silicon retina featuring auto-adaptive pixels that obey the Michaelis-Menten law, i.e. V=V(m) I(n)/I(n)+σ(n); (ii) a method of characterizing silicon retinas, which makes it possible to accurately assess the pixels' response to transient luminous changes in a ±3-decade range, as well as changes in the initial steady-state intensity in a 7-decade range. The novel pixel, called M(2)APix, which stands for Michaelis-Menten Auto-Adaptive Pixel, can auto-adapt in a 7-dec… Show more

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Cited by 21 publications
(42 citation statements)
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“…Phototransduction: a logarithmic amplifier was originally used (five decades of lighting) [60,61], a linear amplifier was used (three decades of lighting) [64], or more recently autoadaptive photodetectors were designed as artificial retinas [58,65], which consisted of a logarithmic amplifier associated with a high-gain negative feedback loop (seven decades of lighting). Results with auto-adaptive pixels are reminiscent of analogous experiments carried out on single vertebrate [66] and invertebrate [67] photodetectors.…”
Section: Taking Inspiration From Biological Signal Processingmentioning
confidence: 99%
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“…Phototransduction: a logarithmic amplifier was originally used (five decades of lighting) [60,61], a linear amplifier was used (three decades of lighting) [64], or more recently autoadaptive photodetectors were designed as artificial retinas [58,65], which consisted of a logarithmic amplifier associated with a high-gain negative feedback loop (seven decades of lighting). Results with auto-adaptive pixels are reminiscent of analogous experiments carried out on single vertebrate [66] and invertebrate [67] photodetectors.…”
Section: Taking Inspiration From Biological Signal Processingmentioning
confidence: 99%
“…This functional prototype with its 630 pixels (forming 630 artificial ommatidia) offered a wide view field (180 Â 60 ) over a significant range of lighting conditions and weights~2 g [58] (see twin CurvACE version in Figure 8a). APix stands for Michaelis-Menten auto-adaptive pixel [65]) can auto-adapt in a 7 decade of lighting range and responds appropriately to step changes up to AE3 decades [82]. The pixels do not saturate thanks to the normalization process performed by the very large-scale integration (VLSI) transistors [65]; this is due to the intrinsic properties of the Michaelis-Menten equation [66].…”
Section: Local Motion Sensors and Artificial Retinasmentioning
confidence: 99%
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“…1). Two 10-gram servo motors mounted in serial stabilize the 8 OF sensors (based on M 2 APix sensor [9], [14]) in pitch and roll ( Fig. 1) to avoid any perturbation coming from attitude disturbances.…”
Section: Quasi-panoramic Bio-inspired Eyementioning
confidence: 99%
“…In the present paper, a quasi-panoramic bio-inspired eye built with 8 custom-made OF sensors (based on M 2 APix sensor [9], [14]) is presented for local visual heading measurement purposes : it should allow a future micro flying robot devoid of a magnetic compass to stabilize its heading in an unpredictable indoor environment while visually following local flat surfaces. In section II, the eye design will be described.…”
Section: Introductionmentioning
confidence: 99%