APPLIED MATH SEMINAR
Time/Date: Tues. Sept. 12th, 4:15 room 200 AKW
Speaker: Prof. Eugenio Culurciello, Yale Electrical Engineering
Title: Address-event image sensors: a future view of the world
Abstract: Although cameras are an information rich sensing modality,
their use in sensor networks is very often prohibited by factors such as
power, computation cost, storage, communication and privacy. In this
talk I will present information selective and privacy preserving address
event imagers for sensor networks. I report on two generations of CMOS
image sensors with digital output.
The imagers embed an ALOHA MAC interface for unfettered self-timed pixel
read-out targeted to energy-aware sensor network applications. The image
sensors present very high dynamic range and ultra-low power operation.
This characteristics allow the sensor to operate in different lighting
conditions and for years on the sensor network node power budget.
Instead of providing full images with a high degree of redundancy, our
efforts in the design of these image sensors specialize on selecting a
handful of features from a scene and
outputting these features in address event representation. I present our
initial results in modeling and evaluating the address-event image
sensors. Using three different platforms that we have developed
we illustrate how to model address-event cameras, how address-event
representation can reduce processing and how these properties can be
exploited further inside the network.
Keywords: Image sensor, CMOS, sensor network, ALOHA, low-power imager,
address-event.
Bio: Eugenio Culurciello (S’97-M’99) received the Ph.D. degree in
Electrical and Computer
Engineering in 2004 from Johns Hopkins University, Baltimore, MD. In
July 2004 he
joined the department of Electrical Engineering at Yale University,
where he is currently
an assistant professor. His research interest is in analog and
mixed-mode integrated
circuits for biomedical applications, sensors and networks, biological
sensors, Silicon on
Insulator design and bio-inspired systems.