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International Journal of Remote Sensing Volume 34, 2013 - Issue 19
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Original Articles

An enhanced dust index for Asian dust detection with MODIS images

Lijian Han State Key Laboratory of Urban and Regional Ecology, Research Centre for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing, 100085, China; Arid Land Research Centre, Tottori University, Tottori, 680-0001, Japan
,
Atsushi Tsunekawa Arid Land Research Centre, Tottori University, Tottori, 680-0001, Japan
,
Mitsuru Tsubo Arid Land Research Centre, Tottori University, Tottori, 680-0001, Japan
&
Weiqi Zhou State Key Laboratory of Urban and Regional Ecology, Research Centre for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing, 100085, ChinaCorrespondence[email protected]
Pages 6484-6495 | Received 26 Sep 2012, Accepted 18 Feb 2013, Published online: 14 Jun 2013

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Wei Wang, Alim Samat, Jilili Abuduwaili, Yongxiao Ge, Philippe De Maeyer & Tim Van de Voorde. (2022) A novel hybrid sand and dust storm detection method using MODIS data on GEE platform. European Journal of Remote Sensing 55:1, pages 420-428.
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Abdullah Bin Abdulwahed, Jadunandan Dash & Gareth Roberts. (2019) An evaluation of satellite dust-detection algorithms in the Middle East region. International Journal of Remote Sensing 40:4, pages 1331-1356.
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Kalpoma Kazi A, Izumi Nagatani, Koichi Kawano & Jun-Ichi Kudoh. (2019) Development of a new dust index NDLI for Asian dust extraction system based on Aqua MODIS data and monitoring of trans-boundary Asian dust events in Japan. International Journal of Remote Sensing 40:3, pages 1030-1047.
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Reza Jafari & Mansoureh Malekian. (2015) Comparison and evaluation of dust detection algorithms using MODIS Aqua/Terra Level 1B data and MODIS/OMI dust products in the Middle East. International Journal of Remote Sensing 36:2, pages 597-617.
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Zhirong Zhao. (2023) Enhancing Dust Removal Efficiency in Electrostatic Precipitators with Homogeneous Flow. Academic Journal of Science and Technology 7:3, pages 84-88.
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Lu Yang, Lu She, Yahui Che, Xingwei He, Chen Yang & Zixian Feng. (2023) Analysis of Dust Detection Algorithms Based on FY-4A Satellite Data. Applied Sciences 13:3, pages 1365.
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Naixian Wang, Qinyuan Zhang, Shuxia Sun, Hui Wang, Maoxia He, Peiming Zheng & Renqing Wang. (2022) A sandstorm extreme event from the Yellow River Basin in March 2021: Accurate identification and driving cause. Science of The Total Environment 846, pages 157424.
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Sajad Alimahmoodi Sarab, Alireza Rashki, Mohammad Hadi Moayeri & Shaban Shataee Jouibari. (2022) Investigating the impact of drought and dust on oak trees decline in the West of Iran. Arabian Journal of Geosciences 15:19.
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Wei Wang, Alim Samat, Jilili Abuduwaili, Yongxiao Ge, Philippe De Maeyer & Tim Van de Voorde. (2022) Temporal characterization of sand and dust storm activity and its climatic and terrestrial drivers in the Aral Sea region. Atmospheric Research 275, pages 106242.
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Arezoo Soleimany, Eisa Solgi, Khosro Ashrafi, Reza Jafari & Raimondas Grubliauskas. (2022) Investigating the performance of dust detection indices using MODIS data and products (Case study: Khuzestan province of Iran). Meteorology and Atmospheric Physics 134:4.
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Hong Jiang, Qing He, Jie Zhang, Ye Tang, Chunyan Chen, Xinsheng Lv, Yunhui Zhang & Zonghui Liu. (2022) Dust storm detection of a convolutional neural network and a physical algorithm based on FY-4A satellite data. Advances in Space Research 69:12, pages 4288-4306.
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Sourita Saha, Som Sharma, Abha Chhabra, Kondapalli Niranjan Kumar, Prashant Kumar, Dharmendra Kamat & Shyam Lal. (2022) Impact of dust storm on the atmospheric boundary layer: a case study from western India. Natural Hazards.
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Wei Wang, Alim Samat, Jilili Abuduwaili, Chen Wang, Philippe De Maeyer & Tim Van De Voorde. (2022) Automatic Identification of Sand and Dust Storm Sources Based on Wind Vector and Google Earth Engine. IEEE Geoscience and Remote Sensing Letters 19, pages 1-5.
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Pei Feng Tong, Song Xi Chen & Cheng Yong Tang. (2021) Detecting and Evaluating Dust‐Events in North China With Ground Air Quality Data. Earth and Space Science 9:1.
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C. Xu, Q. Guan, J. Lin, H. Luo, L. Yang & Q. Wang. (2020) Identification and quantitative analysis of dust trajectories in the Hexi Corridor. Agricultural and Forest Meteorology 291, pages 107987.
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Lu She, Yong Xue, Xihua Yang, Jie Guang, Ying Li, Yahui Che, Cheng Fan & Yanqing Xie. (2018) Dust Detection and Intensity Estimation Using Himawari-8/AHI Observation. Remote Sensing 10:4, pages 490.
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Anzhelika AntipovaAnzhelika Antipova. 2018. Urban Environment, Travel Behavior, Health, and Resident Satisfaction. Urban Environment, Travel Behavior, Health, and Resident Satisfaction 267 334 .
Yikun Yang, Lin Sun, Jinshan Zhu, Jing Wei, Qinghua Su, Wenxiao Sun, Fangwei Liu & Meiyan Shu. (2017) A simplified Suomi NPP VIIRS dust detection algorithm. Journal of Atmospheric and Solar-Terrestrial Physics 164, pages 314-323.
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Huanbi Yue, Chunyang He, Yuanyuan Zhao, Qun Ma & Qiaofeng Zhang. (2017) The brightness temperature adjusted dust index: An improved approach to detect dust storms using MODIS imagery. International Journal of Applied Earth Observation and Geoinformation 57, pages 166-176.
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Baolin Zhang, Chunzhu Guan, Junling Zhao & Jiannan Li. (2017) Variations in dust contributions to air quality impairment in a temperate grassland of Inner Mongolia, China. IOP Conference Series: Earth and Environmental Science 52, pages 012049.
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Xing Yan, Wenzhong Shi, Nana Luo & Wenji Zhao. (2016) A new method of satellite-based haze aerosol monitoring over the North China Plain and a comparison with MODIS Collection 6 aerosol products. Atmospheric Research 171, pages 31-40.
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Baolin Zhang, Atsushi Tsunekawa & Mitsuru Tsubo. (2015) Identification of Dust Hot Spots from Multi-Resolution Remotely Sensed Data in Eastern China and Mongolia. Water, Air, & Soil Pollution 226:4.
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Yan Yan, Youbin Sun, Long Ma & Xin Long. (2015) A multidisciplinary approach to trace Asian dust storms from source to sink. Atmospheric Environment 105, pages 43-52.
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Lijian Han, Weiqi Zhou, Weifeng Li & Li Li. (2014) Impact of urbanization level on urban air quality: A case of fine particles (PM 2.5 ) in Chinese cities. Environmental Pollution 194, pages 163-170.
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