International audienceWe present a new image sensor architecture that manages spatial and temporal redundancies with an arbiterless readout and a pixel Address-Event Representation (AER) reading system. This frameless image sensor only generates few events over time in order to target an efficient power consumption compared to the commercial CMOS image sensors. Indeed, this image sensor does not generate anymore frames but events only when a change appears in the scene. Moreover, the event throughput depends on the luminance variations of the recorded scene. This means that more activity in the scene will generate more events and vice versa. Collecting events over a period of time will define an image. It is noticeable that, at each instant...
A Digital Pixel Sensor (DPS) based CMOS camera configured to record frames and comprising an event d...
International audienceEvent-based image sensors are a new class of sensors developed thanks to non-u...
In this paper, we present an ultra-low-power smart visual sensor architecture. A 10.6-μW low-resolut...
International audienceWe present a new image sensor architecture that manages spatial and temporal r...
International audienceThis paper presents new kinds of image sensors based on TFS (Time to First Spi...
International audienceToday, most of the computer vision applications produce a huge computational l...
International audienceWe present through this paper an event-driven image sensor with a built-in and...
It is generally accepted that Complementary Metal-Oxide Semiconductor (CMOS) image sensors will take...
This paper presents a CMOS vision sensor based on a biologically inspired data representation referr...
In this paper, we propose a scalable low power imager architecture for compound-eye vision sensors. ...
In conventional frame-based image sensors, every pixel records brightness information and sends this...
In order to overcome the challenges associated with the design of high resolution image sensors, we ...
In this paper, we present an efficient event-driven frame capture technique for CMOS image sensors. ...
International audienceIn this paper, we explain and validate the architecture of a fully asynchronou...
International audienceIn this paper, a new readout strategy for CMOS image sensors is presented. It ...
A Digital Pixel Sensor (DPS) based CMOS camera configured to record frames and comprising an event d...
International audienceEvent-based image sensors are a new class of sensors developed thanks to non-u...
In this paper, we present an ultra-low-power smart visual sensor architecture. A 10.6-μW low-resolut...
International audienceWe present a new image sensor architecture that manages spatial and temporal r...
International audienceThis paper presents new kinds of image sensors based on TFS (Time to First Spi...
International audienceToday, most of the computer vision applications produce a huge computational l...
International audienceWe present through this paper an event-driven image sensor with a built-in and...
It is generally accepted that Complementary Metal-Oxide Semiconductor (CMOS) image sensors will take...
This paper presents a CMOS vision sensor based on a biologically inspired data representation referr...
In this paper, we propose a scalable low power imager architecture for compound-eye vision sensors. ...
In conventional frame-based image sensors, every pixel records brightness information and sends this...
In order to overcome the challenges associated with the design of high resolution image sensors, we ...
In this paper, we present an efficient event-driven frame capture technique for CMOS image sensors. ...
International audienceIn this paper, we explain and validate the architecture of a fully asynchronou...
International audienceIn this paper, a new readout strategy for CMOS image sensors is presented. It ...
A Digital Pixel Sensor (DPS) based CMOS camera configured to record frames and comprising an event d...
International audienceEvent-based image sensors are a new class of sensors developed thanks to non-u...
In this paper, we present an ultra-low-power smart visual sensor architecture. A 10.6-μW low-resolut...