Hideki Saito
Kyoto University
41 Papers
212 Citations
Hideki Saito is an academic researcher from Kyoto University. The author has contributed to research in topics: Lidar & Land cover. The author has an hindex of 12, co-authored 37 publications. Previous affiliations of Hideki Saito include Forest Research Institute.
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Papers
Aboveground Biomass Estimation Using Structure from Motion Approach with Aerial Photographs in a Seasonal Tropical Forest
Tetsuji Ota,Miyuki Ogawa,Katsuto Shimizu,Tsuyoshi Kajisa,Nobuya Mizoue,Shigejiro Yoshida,Gen Takao,Yasumasa Hirata,Naoyuki Furuya,Takio Sano,Heng Sokh,Vuthy Ma,Eriko Ito,Jumpei Toriyama,Yukako Monda,Hideki Saito,Yoshiyuki Kiyono,Sophal Chann,Nang Ket +18 more
TL;DR: In this paper, a 3D point cloud was generated from aerial photographs using the Structure from Motion (SfM) approach to estimate aboveground biomass (AGB) in a tropical forest.
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Estimating above-ground biomass of tropical rainforest of different degradation levels in Northern Borneo using airborne LiDAR
Keiko Ioki,Satoshi Tsuyuki,Yasumasa Hirata,Mui How Phua,Wilson Wong,Wilson Wong,Zia-Yiing Ling,Hideki Saito,Gen Takao +8 more
TL;DR: In this article, a model to estimate AGB in the tropical montane forests of northern Borneo with different disturbance histories using airborne LiDAR data was proposed, where the level of forest degradation was determined from species composition and field-observed AGB.
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Integrating terrestrial laser scanning and unmanned aerial vehicle photogrammetry to estimate individual tree attributes in managed coniferous forests in Japan
TL;DR: In this paper , the authors investigated the applicability of integrating Terrestrial Laser Scanning (TLS) and UAV photogrammetry to estimate individual tree attributes in managed coniferous forests of Japan.
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Binary Black Hole Accretion Flows From a Misaligned Circumbinary Disk
TL;DR: In this paper, the authors studied the properties of accretion flows onto binary supermassive black holes, including cases in which a circumbinary disk is misaligned with the binary orbital plane, by means of 3D smoothed particle hydrodynamics simulations.
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