Time-of-flight three-dimensional imaging is an important tool for applications such as object recognition and remote sensing. Conventional time-of-flight three-dimensional imaging systems frequently use a raster scanned laser to measure the range of each pixel in the scene sequentially. Here we show a modified time-of-flight three-dimensional imaging system, which can use compressed sensing techniques to reduce acquisition times, whilst distributing the optical illumination over the full field of view. Our system is based on a single-pixel camera using short-pulsed structured illumination and a high-speed photodiode, and is capable of reconstructing 128 × 128-pixel resolution three-dimensional scenes to an accuracy of ~3 mm at a range of ~5...
"Indirect" time-of-flight is one technique to obtain depth-resolved images through active illuminati...
Capturing depth and reflectivity images at low light levels from active illumination of a scene has ...
Reconstructing a scene’s 3D structure and reflectivity accurately with an active imaging system oper...
The 3D recovery of a scene is a crucial task with many real-life applications such as self-driving v...
We applied compressed ultrafast photography (CUP), a computational imaging technique, to acquire thr...
We demonstrate a compressed sensing, photon counting lidar system based on the single-pixel camera. ...
The availability of compact, low-cost, and high-speed MEMS-based spatial light modulators has genera...
We developed a system for acquiring 3D depth-resolved maps by measuring the Time-of-Flight (TOF) of ...
Compressed ultrafast photography (CUP), a computational imaging technique, is synchronized with shor...
The design and characterization of an imaging system is presented for depth information capture of a...
An avalanche photodiode array uses single-photon counting to perform time-of-flight range-finding on...
Capturing depth and reflectivity images at low light levels from active illumination of a scene has ...
Three-dimensional imaging using Time-of-flight (ToF) sensors is rapidly gaining widespread adoption ...
We present an optical 3-D ranging camera for automotive applications that is able to provide a centi...
Reconstructing a scene's 3D structure and reflectivity accurately with an active imaging system oper...
"Indirect" time-of-flight is one technique to obtain depth-resolved images through active illuminati...
Capturing depth and reflectivity images at low light levels from active illumination of a scene has ...
Reconstructing a scene’s 3D structure and reflectivity accurately with an active imaging system oper...
The 3D recovery of a scene is a crucial task with many real-life applications such as self-driving v...
We applied compressed ultrafast photography (CUP), a computational imaging technique, to acquire thr...
We demonstrate a compressed sensing, photon counting lidar system based on the single-pixel camera. ...
The availability of compact, low-cost, and high-speed MEMS-based spatial light modulators has genera...
We developed a system for acquiring 3D depth-resolved maps by measuring the Time-of-Flight (TOF) of ...
Compressed ultrafast photography (CUP), a computational imaging technique, is synchronized with shor...
The design and characterization of an imaging system is presented for depth information capture of a...
An avalanche photodiode array uses single-photon counting to perform time-of-flight range-finding on...
Capturing depth and reflectivity images at low light levels from active illumination of a scene has ...
Three-dimensional imaging using Time-of-flight (ToF) sensors is rapidly gaining widespread adoption ...
We present an optical 3-D ranging camera for automotive applications that is able to provide a centi...
Reconstructing a scene's 3D structure and reflectivity accurately with an active imaging system oper...
"Indirect" time-of-flight is one technique to obtain depth-resolved images through active illuminati...
Capturing depth and reflectivity images at low light levels from active illumination of a scene has ...
Reconstructing a scene’s 3D structure and reflectivity accurately with an active imaging system oper...