Structural Fusion(结构融合)研究综述
Structural Fusion 结构融合 - To evaluate the efficacy of discriminating “non-infested”, “green”, and “dead” health statuses at the landscape scale in Alaska, USA, this study conducted spectral and structural fusion of data from: (1) Unoccupied aerial vehicle (UAV) multispectral (6 cm) + structure from motion point clouds (~700 pts m−2); and (2) Goddard Lidar Hyperspectral Thermal (G-LiHT) hyperspectral (400 to 1000 nm, 0. [1] In this work, we explore the evolution of the catalytic activity of clusters formed by the structural fusion of icosahedral Au13 units, namely Au25(SR)18, Au38(SR)24, and Au25(PPh3)10(SC2H4Ph)5Cl2, in the oxidation of pyrrolidine to γ-butyrolactam. [2]为了评估在美国阿拉斯加的景观尺度上区分“未感染”、“绿色”和“死亡”健康状况的有效性,本研究对来自以下数据的光谱和结构进行了融合:(1) 无人飞行器 (UAV) ) 多光谱 (6 cm) + 来自运动点云的结构 (~700 pts m−2); (2) 戈达德激光雷达高光谱热 (G-LiHT) 高光谱(400 至 1000 nm,0。 [1] 在这项工作中,我们探讨了由二十面体 Au13 单元,即 Au25(SR)18、Au38(SR)24 和 Au25(PPh3)10(SC2H4Ph)5Cl2 结构融合形成的簇催化活性的演变。吡咯烷氧化成γ-丁内酰胺。 [2]