A 3D imager is presented capable of capturing the depth map of an arbitrary scene. Depth is measured by computing the time-of-flight of a ray of light as it leaves the source and is reflected by the objects in the scene. The round-trip time is converted to digital code independently for each pixel using a CMOS time-to-digital converter. To reach millimetric accuracies an array of 32×32 highly sensitive, ultra-low jitter CMOS detectors capable of detecting a single photon is used. The scene is illuminated using a cone of low power pulsed laser light, thus no mechanical scanning devices or expensive optical equipment are required
The design and characterization of an imaging system is presented for depth information capture of a...
This paper describes a CMOS-based time-of-flight depth sensor and presents some experimental data wh...
The growing interest for fast, compact and cost-effective 3D ranging imagers for automotive applicat...
In this thesis, a 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully t...
A 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully tested. It uses a...
An avalanche photodiode array uses single-photon counting to perform time-of-flight range-finding on...
A 3D image sensor is presented employing a time multiplexed concept for color and depth image acquis...
The interest in high performance three-dimensional (3D) imaging has grown in recent years due to imm...
In this thesis, a 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully t...
A 4 x 64 pixel 3-D CMOS imager based on time-of-flight (TOF) has been developed and successfully tes...
Design and measurement results of a CMOS 128 x 96 pixel sensor are presented, which can be used for ...
A pixel architecture for providing not only normal 2-D images but also depth information by using a ...
3DJAM is a novel 3D image sensor, implemented with a 3.3V, 0.35μm CMOS technology, that combines the...
3D measurement is concerned with extracting the three dimensional visual information of an object us...
Among advanced electronic designs, vision systems are perhaps those that have undergone the most dra...
The design and characterization of an imaging system is presented for depth information capture of a...
This paper describes a CMOS-based time-of-flight depth sensor and presents some experimental data wh...
The growing interest for fast, compact and cost-effective 3D ranging imagers for automotive applicat...
In this thesis, a 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully t...
A 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully tested. It uses a...
An avalanche photodiode array uses single-photon counting to perform time-of-flight range-finding on...
A 3D image sensor is presented employing a time multiplexed concept for color and depth image acquis...
The interest in high performance three-dimensional (3D) imaging has grown in recent years due to imm...
In this thesis, a 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully t...
A 4 x 64 pixel 3-D CMOS imager based on time-of-flight (TOF) has been developed and successfully tes...
Design and measurement results of a CMOS 128 x 96 pixel sensor are presented, which can be used for ...
A pixel architecture for providing not only normal 2-D images but also depth information by using a ...
3DJAM is a novel 3D image sensor, implemented with a 3.3V, 0.35μm CMOS technology, that combines the...
3D measurement is concerned with extracting the three dimensional visual information of an object us...
Among advanced electronic designs, vision systems are perhaps those that have undergone the most dra...
The design and characterization of an imaging system is presented for depth information capture of a...
This paper describes a CMOS-based time-of-flight depth sensor and presents some experimental data wh...
The growing interest for fast, compact and cost-effective 3D ranging imagers for automotive applicat...