Among advanced electronic designs, vision systems are perhaps those that have undergone the most dramatic technological revolutions of the last decades. Recently, a new family of vision systems has emerged aimed at three-dimensional (3D) imaging. Many applications exist or will soon come to existence that can use 3D image sensors and the image sensor community is responding with conventional and unconventional solutions. This thesis presents a new concept for imaging and, in particular, for 3D imaging, based on single-photon detection. In our approach, single-photon detection is performed by a device known as single-photon avalanche diode (SPAD). Large arrays of SPADs were demonstrated for the first time in this thesis and time resolutions ...
Three dimensional (3D) image acquisitions is the enabling technology of a great number of applicatio...
This paper describes the design and characterization of a 64-pixel array exploiting the high sensiti...
The design and characterization of a CMOS 64×64 single-photon avalanche-diode (SPAD) array with in-p...
The facility to capture the arrival of a single photon, is the fundamental limit to the detection of...
An avalanche photodiode array uses single-photon counting to perform time-of-flight range-finding on...
The design and characterization of an imaging system is presented for depth information capture of a...
Single-photon detection and photon counting are useful tools in many fields, from light detection an...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
We report on the design and characterization of a multipurpose 64 × 32 CMOS single-photon avalanche ...
This paper presents a camera prototype for 2D/3D image capture in low illumination conditions based ...
An increasing and heterogeneous number of applications is requiring precise awareness of the environ...
The growing interest for very sensitive, single-chip, cost-effective imagers with single-photon sens...
We present a CMOS imager consisting of $32times 32$ smart pixels, each one able to detect single pho...
We report on the design and characterization of a multipurpose 64 × 32 CMOS single-photon avalanche ...
Three dimensional (3D) image acquisitions is the enabling technology of a great number of applicatio...
This paper describes the design and characterization of a 64-pixel array exploiting the high sensiti...
The design and characterization of a CMOS 64×64 single-photon avalanche-diode (SPAD) array with in-p...
The facility to capture the arrival of a single photon, is the fundamental limit to the detection of...
An avalanche photodiode array uses single-photon counting to perform time-of-flight range-finding on...
The design and characterization of an imaging system is presented for depth information capture of a...
Single-photon detection and photon counting are useful tools in many fields, from light detection an...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
We report on the design and characterization of a multipurpose 64 × 32 CMOS single-photon avalanche ...
This paper presents a camera prototype for 2D/3D image capture in low illumination conditions based ...
An increasing and heterogeneous number of applications is requiring precise awareness of the environ...
The growing interest for very sensitive, single-chip, cost-effective imagers with single-photon sens...
We present a CMOS imager consisting of $32times 32$ smart pixels, each one able to detect single pho...
We report on the design and characterization of a multipurpose 64 × 32 CMOS single-photon avalanche ...
Three dimensional (3D) image acquisitions is the enabling technology of a great number of applicatio...
This paper describes the design and characterization of a 64-pixel array exploiting the high sensiti...
The design and characterization of a CMOS 64×64 single-photon avalanche-diode (SPAD) array with in-p...