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A New Method for Continuous Monitoring of Black and Odorous Water Body Using Evaluation Parameters: A Case Study in Baoding.

, , , , , , , и . Remote. Sens., 14 (2): 374 (2022)

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Zhaoqiang Han

Josef Huang

Ying Huang

Haowei Huang

Haishi Huang

 

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Alteration Minerals Mapping Using MTMF and CEM Based on ASTER in Zedang Orefield of Tibet, China., и . IGARSS, стр. 5489-5492. IEEE, (2018)Spatial scale issue in temperature and emissivity separation from thermal hyperspectral imager., , , и . IGARSS, стр. 485-488. IEEE, (2013)Extraction of mineral alteration anomaly zone from aster data in inner Mongolia, China.. IGARSS, стр. 7557-7560. (2012)Inversion Evaluation of Rare Earth Elements in Soil by Visible-Shortwave Infrared Spectroscopy., , , , , , , и . Remote. Sens., 13 (23): 4886 (2021)An interface modeling method applied in observation plan service based on small satellite constellation., , , , и . IGARSS, стр. 3125-3128. IEEE, (2014)A New Method for Continuous Monitoring of Black and Odorous Water Body Using Evaluation Parameters: A Case Study in Baoding., , , , , , , и . Remote. Sens., 14 (2): 374 (2022)Extraction of Black and Odorous Water Based on Aerial Hyperspectral CASI Image., и . IGARSS, стр. 6907-6910. IEEE, (2019)Detection of hydrothermally alteration rocks in the east Gandise, Tibet (China) using aster imagery., , и . IGARSS, стр. 2860-2863. IEEE, (2013)Lithologic anomaly identification of hydrocarbon microseepages in Kelasu fold-and-thrust belt, West China using ASTER imagery., , и . IGARSS, стр. 863-866. IEEE, (2014)Lithological mapping in the Eastern Section of Gangdise, Tibet using ASTER and field spectroscopy data., , и . IGARSS, стр. 2935-2938. IEEE, (2013)