A Nearly Interference-Free and Depth-Resolution-Configurable Time-of-Flight System Based on a Mega-Pixel Vertical Avalanche Photodiodes CMOS Image Sensor

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Shota Yamada 0004, Motonori Ishii, Shigetaka Kasuga, Masato Takemoto, Hiromu Kitajima, Toru Okino, Yusuke Sakata, Manabu Usuda, Yugo Nose, Hiroshi Koshida, Masaki Tamaru, Akito Inoue, Yuki Sugiura, Shigeru Saito, Taiki Kunikyo, Yusuke Yuasa, Kentaro Nakanishi, Naoki Torazawa, Takashi Shirono, Tatsuya Kabe, Shinzo Koyama, Mitsuyoshi Mori, Yutaka Hirose, Masayuki Sawada, Akihiro Odagawa, Tsuyoshi Tanaka. A Nearly Interference-Free and Depth-Resolution-Configurable Time-of-Flight System Based on a Mega-Pixel Vertical Avalanche Photodiodes CMOS Image Sensor. IEEE Open J. Circuits Syst., 3:324-335, 2022. [doi]

@article{YamadaIKTKOSUNK22,
  title = {A Nearly Interference-Free and Depth-Resolution-Configurable Time-of-Flight System Based on a Mega-Pixel Vertical Avalanche Photodiodes CMOS Image Sensor},
  author = {Shota Yamada 0004 and Motonori Ishii and Shigetaka Kasuga and Masato Takemoto and Hiromu Kitajima and Toru Okino and Yusuke Sakata and Manabu Usuda and Yugo Nose and Hiroshi Koshida and Masaki Tamaru and Akito Inoue and Yuki Sugiura and Shigeru Saito and Taiki Kunikyo and Yusuke Yuasa and Kentaro Nakanishi and Naoki Torazawa and Takashi Shirono and Tatsuya Kabe and Shinzo Koyama and Mitsuyoshi Mori and Yutaka Hirose and Masayuki Sawada and Akihiro Odagawa and Tsuyoshi Tanaka},
  year = {2022},
  doi = {10.1109/OJCAS.2022.3216928},
  url = {https://doi.org/10.1109/OJCAS.2022.3216928},
  researchr = {https://researchr.org/publication/YamadaIKTKOSUNK22},
  cites = {0},
  citedby = {0},
  journal = {IEEE Open J. Circuits Syst.},
  volume = {3},
  pages = {324-335},
}

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A Nearly Interference-Free and Depth-Resolution-Configurable Time-of-Flight System Based on a Mega-Pixel Vertical Avalanche Photodiodes CMOS Image Sensor