The growing interest for fast, compact and cost-effective 3D ranging imagers for automotive applications has prompted to explore many different techniques for 3D imaging and to develop new system for this propose. CMOS imagers that exploit phase-resolved techniques provide accurate 3D ranging with no complex optics and are rugged and costeffective. Phase-resolved techniques indirectly measure the round-trip return of the light emitted by a laser and backscattered from a distant target, computing the phase delay between the modulated light and the detected signal. Singlephoton detectors, with their high sensitivity, allow to actively illuminate the scene with a low power excitation (less than 10W with diffused daylight illumination). W...
We present an optical 3-D ranging camera for automotive applications that is able to provide a centi...
An optical sensor architecture optimized for flying-spot, triangulation-based, three-dimensional (3...
An increasing and heterogeneous number of applications is requiring precise awareness of the environ...
The growing interest for fast, compact and cost-effective 3D ranging imagers for automotive applicat...
The growing interest for fast, compact and cost-effective 3D ranging imagers for automotive applicat...
Three dimensional (3D) image acquisitions is the enabling technology of a great number of applicatio...
Abstract A solid state 3D scanner based on a pulsed laser diode source and narrow time gating of a ...
Three-Dimensional (3D) optical range-imaging is a field experiencing rapid growth, expanding into a ...
We present a 3D-ranging camera based on the optical indirect Time-of-Flight technique, suitable for ...
Among advanced electronic designs, vision systems are perhaps those that have undergone the most dra...
We present two different monolithic imagers in a 0.35 μm cost-effective CMOS technology, based on hi...
This paper reports the achievements so far attained in the development of high-performance CMOS SPAD...
This paper reports the achievements so far attained in the development of high-performance CMOS SPAD...
An avalanche photodiode array uses single-photon counting to perform time-of-flight range-finding on...
We present an optical 3-D ranging camera for automotive applications that is able to provide a centi...
An optical sensor architecture optimized for flying-spot, triangulation-based, three-dimensional (3...
An increasing and heterogeneous number of applications is requiring precise awareness of the environ...
The growing interest for fast, compact and cost-effective 3D ranging imagers for automotive applicat...
The growing interest for fast, compact and cost-effective 3D ranging imagers for automotive applicat...
Three dimensional (3D) image acquisitions is the enabling technology of a great number of applicatio...
Abstract A solid state 3D scanner based on a pulsed laser diode source and narrow time gating of a ...
Three-Dimensional (3D) optical range-imaging is a field experiencing rapid growth, expanding into a ...
We present a 3D-ranging camera based on the optical indirect Time-of-Flight technique, suitable for ...
Among advanced electronic designs, vision systems are perhaps those that have undergone the most dra...
We present two different monolithic imagers in a 0.35 μm cost-effective CMOS technology, based on hi...
This paper reports the achievements so far attained in the development of high-performance CMOS SPAD...
This paper reports the achievements so far attained in the development of high-performance CMOS SPAD...
An avalanche photodiode array uses single-photon counting to perform time-of-flight range-finding on...
We present an optical 3-D ranging camera for automotive applications that is able to provide a centi...
An optical sensor architecture optimized for flying-spot, triangulation-based, three-dimensional (3...
An increasing and heterogeneous number of applications is requiring precise awareness of the environ...