| [1] | Zanuttigh P, Marin G, Dal Mutto C, et al. Time-of-flight and Structured Light Depth Cameras[M]. Heidelberg:Springer, 2016. |
| [2] | Wasenmller O, Ansari M D, Stricker D. DNA-SLAM:dense noise aware SLAM for TOF RGB-D cameras[C]//Asian Conference on Computer Vision, 2016:613-629. |
| [3] | Hewitt R A, Marshall J A. Towards intensity-augmented SLAM with LiDAR and TOF sensors[C]//International Conference on Intelligent Robots and Systems, 2015:1956-1961. |
| [4] | Gupta M, Agrawal A, Veeraraghavan A, et al. A practical approach to 3D scanning in the presence of interreflections, subsurface scattering and defocus[J]. International Journal of Computer Vision, 2013, 102(1-3):33-55. |
| [5] | Kim W, Yibing W, Ovsiannikov I, et al. A 1.5 Mpixel RGBZ CMOS image sensor for simultaneous color and range image capture[C]//Solid-State Circuits Conference Digest of Technical Papers (ISSCC), 2012 IEEE International, 2012:392-394. |
| [6] | Payne A, Daniel A, Mehta A, et al. 7.6 a 512424 CMOS 3D time-of-flight image sensor with multi-frequency photo-demodulation up to 130 MHz and 2GS/s ADC[C]//Solid-State Circuits Conference Digest of Technical Papers (ISSCC), 2014 IEEE International, 2014:134-135. |
| [7] | TI ToF sensor. Time-of-flight (TOF) sensors[EB/OL].[2016-04-15]. https://www.ti.com/sensing-products/optical-sensors/3d-time-of-flight/overview.html. |
| [8] | Payne A D, Dorrington A A, Cree M J. Illumination waveform optimization for time-of-flight range imaging cameras[C]//Videometrics, Range Imaging, and Applications XI. International Society for Optics and Photonics, 2011, 8085:80850D. |
| [9] | Stephan M, Rahul N, Daniel K. Simulation of time-of-flight sensors using global illumination[C]//Vision, Modeling Visualization, 2013:33-40. |
| [10] | Mutny M, Nair R, Gottfried J M. Learning the correction for multi-path deviations in time-of-flight cameras[J]. Computer Science, 2015, 1512:04077. |