2020
DOI: 10.1364/optica.390099
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High-speed 3D sensing via hybrid-mode imaging and guided upsampling

Abstract: Imaging systems with temporal resolution play a vital role in a diverse range of scientific, industrial, and consumer applications, e.g., fluorescent lifetime imaging in microscopy and time-of-flight (ToF) depth sensing in autonomous vehicles. In recent years, single-photon avalanche diode (SPAD) arrays with picosecond timing capabilities have emerged as a key technology driving these systems forward. Here we report a high-speed 3D imaging system enabled by a state-of-the-art SPAD sensor used in a hybrid imagi… Show more

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Cited by 74 publications
(55 citation statements)
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“…The 2019 Hutchings [ 46 ] SPAD array can work either in photon counting (with full 256 × 256 resolution) or in photon timing mode, connecting groups of 4 × 4 SPADs to the same processing unit (with reduced 64 × 64 resolution). The detector is able to fast switch between the two modalities, so to perform hybrid intensity high-resolution images and 3D maps [ 69 ]. In timing mode, the detector can either work in single-hit high temporal resolution mode (38 ps resolution) or in multi-event histogramming mode (560 ps resolution).…”
Section: Spad and Sipm Detectors For Pulsed-lidarmentioning
confidence: 99%
See 1 more Smart Citation
“…The 2019 Hutchings [ 46 ] SPAD array can work either in photon counting (with full 256 × 256 resolution) or in photon timing mode, connecting groups of 4 × 4 SPADs to the same processing unit (with reduced 64 × 64 resolution). The detector is able to fast switch between the two modalities, so to perform hybrid intensity high-resolution images and 3D maps [ 69 ]. In timing mode, the detector can either work in single-hit high temporal resolution mode (38 ps resolution) or in multi-event histogramming mode (560 ps resolution).…”
Section: Spad and Sipm Detectors For Pulsed-lidarmentioning
confidence: 99%
“…In Hutchings’ study [ 46 ], the image resolution has been improved by combining 2D high resolution imaging (each of the 256 × 256 SPADs works independently) with 3D lower resolution maps (SPADs are combined in macropixels, with 4 × 4 detectors each). Since 2D and 3D information cannot be simultaneously acquired (because some hardware resources are shared by the two modalities), the detector is used in a hybrid mode with interleaved 2D and 3D frames, as shown in [ 69 ]. Data-fusion proposed in [ 70 ], further allows to improve image resolution, by combining information from a time-resolved 240 × 320 pixels SPAD array with a co-registered high-resolution red-green-blue (RGB) digital camera.…”
Section: Spad and Sipm Detectors For Pulsed-lidarmentioning
confidence: 99%
“…In general, these approaches only register the first photon in the frame therefore multiple laser cycles are required to build an accurate timing statistic before traversing to a new point in the scene. In high ambient conditions, a significant pile-up effect can occur due to the dead-time of the single SPAD [26]. This problem can be alleviated by using multiple SPADs in parallel resulting in multi-event time-stamp collection [26].…”
Section: A Photon Counting Lidar Acquisitionmentioning
confidence: 99%
“…Traditionally realized as single-point detectors (requiring optical scanning to cover a field of view), with separate timing modules, recent developments have resulted in array format SPAD sensors with integrated photon timing and processing electronics [23]. These advances are now supporting advanced ToF imaging, including underwater [24] and at high speeds [25].…”
Section: Background and Introductionmentioning
confidence: 99%