"Indirect" time-of-flight is one technique to obtain depth-resolved images through active illumination that is becoming more popular in the recent years. Several methods and light timing patterns are used nowadays, aimed at improving measurement precision with smarter algorithms, while using less and less light power. Purpose of this work is to present an indirect time-of-flight imaging camera based on pulsed-light active illumination and a 32 × 32 single-photon avalanche diode array with an improved illumination timing pattern, able to increase depth resolution and to reach single-photon level sensitivity
The design and characterization of an imaging system is presented for depth information capture of a...
In many time-domain single-photon measurements, wide dynamic range (more than 5 orders of magnitude)...
Time-of-flight three-dimensional imaging is an important tool for applications such as object recogn...
"Indirect" time-of-flight is one technique to obtain depth-resolved images through active illuminati...
We developed a system for acquiring 3D depth-resolved maps by measuring the Time-of-Flight (TOF) of ...
By using time-of-flight information encoded in multiply scattered light, it is possible to reconstr...
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...
We present a scanning light detection and ranging (LIDAR) system incorporating an individual Ge-on-S...
Systems for 3D image acquisition are the enabling technology for a number of applications such as ar...
The design and characterization of an imaging system is presented for depth information capture of a...
In many time-domain single-photon measurements, wide dynamic range (more than 5 orders of magnitude)...
Time-of-flight three-dimensional imaging is an important tool for applications such as object recogn...
"Indirect" time-of-flight is one technique to obtain depth-resolved images through active illuminati...
We developed a system for acquiring 3D depth-resolved maps by measuring the Time-of-Flight (TOF) of ...
By using time-of-flight information encoded in multiply scattered light, it is possible to reconstr...
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...
We present a scanning light detection and ranging (LIDAR) system incorporating an individual Ge-on-S...
Systems for 3D image acquisition are the enabling technology for a number of applications such as ar...
The design and characterization of an imaging system is presented for depth information capture of a...
In many time-domain single-photon measurements, wide dynamic range (more than 5 orders of magnitude)...
Time-of-flight three-dimensional imaging is an important tool for applications such as object recogn...