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On May 26, 2021 at 2:45:33 AM UTC, seanh:

Updated description of MODIS daily cloud-free snow cover products over Tibetan Plateau from
Snow cover over Tibetan Plateau plays an important role in regional water andenergy circulation. Snow ablation also affects downstream rivers. Snow parameters and their longterm changes are sensitive factors affecting and responding to regional climate, influencing ecologyand disasters. Moderate-resolution imaging spectrometer (MODIS) is widely used for remotelysensing snow due to its high spatio-temporal resolution. However, snow over Tibetan Plateau isdistributed patchily and changes rapidly with unexpected atmospheric convection and precipitation.Also, because optical remote sensing is influenced severely by clouds, daily snow cover monitoringis a challenge requiring to remove cloud cover instances. Engaged in Tibetan Plateau’s terraincomplexity and snow spatio-temporal characteristics, this paper presents a compound methodby combining different cloud removal algorithms, giving a MODIS daily cloud-free snow coveralgorithm for Tibetan Plateau, as well as MODIS daily cloud-free snow cover products. The accuracy of the snow cover products is then verified against experimental data observedfrom 145 ground stations during two winter periods from October 1, 2009 to April 30, 2011.Results show that, when snow depth exceeds 3 cm, the general classification accuracy is 96.6%and the snow classification accuracy is 89.0%. Accuracy was well controlled in each step, whichprovided a good algorithm for removing clouds from the MODIS snow cover imagery. A multilanguage operational process was developed and the daily, cloud-free climatological snow coverproducts over Tibetan Plateau were released as a free utility online.
to
Snow cover over Tibetan Plateau plays an important role in regional water andenergy circulation. Snow ablation also affects downstream rivers. Snow parameters and their longterm changes are sensitive factors affecting and responding to regional climate, influencing ecologyand disasters. Moderate-resolution imaging spectrometer (MODIS) is widely used for remotelysensing snow due to its high spatio-temporal resolution. However, snow over Tibetan Plateau isdistributed patchily and changes rapidly with unexpected atmospheric convection and precipitation.Also, because optical remote sensing is influenced severely by clouds, daily snow cover monitoringis a challenge requiring to remove cloud cover instances. Engaged in Tibetan Plateau’s terraincomplexity and snow spatio-temporal characteristics, this paper presents a compound methodby combining different cloud removal algorithms, giving a MODIS daily cloud-free snow coveralgorithm for Tibetan Plateau, as well as MODIS daily cloud-free snow cover products. The accuracy of the snow cover products is then verified against experimental data observedfrom 145 ground stations during two winter periods from October 1, 2009 to April 30, 2011.Results show that, when snow depth exceeds 3 cm, the general classification accuracy is 96.6%and the snow classification accuracy is 89.0%. Accuracy was well controlled in each step, whichprovided a good algorithm for removing clouds from the MODIS snow cover imagery. A multilanguage operational process was developed and the daily, cloud-free climatological snow coverproducts over Tibetan Plateau were released as a free utility online.

              
    
          
          
        
        
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            2   "author": "Qiu Yubao,\u00a0Guo Huadong,\u00a0Chu Duo,\u00a0Zhang  2   "author": "Qiu Yubao,\u00a0Guo Huadong,\u00a0Chu Duo,\u00a0Zhang 
            3 Huan,\u00a0Shi Jiancheng,\u00a0Shi Lijuan,\u00a0Zheng  3 Huan,\u00a0Shi Jiancheng,\u00a0Shi Lijuan,\u00a0Zheng 
            4 Zhaojun,\u00a0Laba Zhuoma",  4 Zhaojun,\u00a0Laba Zhuoma", 
            5   "author_email": "qiuyb@aircas.ac.cn",  5   "author_email": "qiuyb@aircas.ac.cn", 
            6   "creator_user_id": "2e9fa41b-0394-4070-98d0-205f79d5738b",  6   "creator_user_id": "2e9fa41b-0394-4070-98d0-205f79d5738b", 
            7   "extras": [ 7   "extras": [
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            18     { 18     {
            19       "description": "CAS-GMELT, the Gla.cial Melt Toolbox for High  19       "description": "CAS-GMELT, the Gla.cial Melt Toolbox for High 
            20 Mountain Asia, are collections of dataset, models, and tools by the  20 Mountain Asia, are collections of dataset, models, and tools by the 
            21 GMELT project funded by Chinese Academy of Sciences. CAS-GMELT  21 GMELT project funded by Chinese Academy of Sciences. CAS-GMELT 
            22 provides an operational publicly open platform for the exchange and  22 provides an operational publicly open platform for the exchange and 
            23 collaboration with NASA's Earth Science\u00a0Division (ESD). The  23 collaboration with NASA's Earth Science\u00a0Division (ESD). The 
            24 CAS-GMELT is aiming to develop newly geophysical parameters based on  24 CAS-GMELT is aiming to develop newly geophysical parameters based on 
            25 space Earth observations.",  25 space Earth observations.", 
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            30       "name": "cas-gmelt",  30       "name": "cas-gmelt", 
            31       "title": "CAS-GMELT" 31       "title": "CAS-GMELT"
            32     },  32     }, 
            33     { 33     {
            34       "description": "Snow Observations over Tibetan Plateau -  34       "description": "Snow Observations over Tibetan Plateau - 
            35 http://115.29.142.79/. \r\n\r\nIt is a project funded by the Special  35 http://115.29.142.79/. \r\n\r\nIt is a project funded by the Special 
            36 Scientific Research Fund of Meteorology in the Public Welfare  36 Scientific Research Fund of Meteorology in the Public Welfare 
            37 Profession of China (Grant No. GYHY201206040) from 2012.01-2015.12.  37 Profession of China (Grant No. GYHY201206040) from 2012.01-2015.12. 
            38 SOTP was operated by Tibet Center for Remote Sensing Applications,  38 SOTP was operated by Tibet Center for Remote Sensing Applications, 
            39 Tibet Meteorological Bureau, China Meteorological Administration  39 Tibet Meteorological Bureau, China Meteorological Administration 
            40 (CMA), Center for Earth Observtion and Digital Earth (CEODE) of CAS,  40 (CMA), Center for Earth Observtion and Digital Earth (CEODE) of CAS, 
            41 and National Satellite Meteorological Centre(NSMC) of China  41 and National Satellite Meteorological Centre(NSMC) of China 
            42 Meteorological Administration (CMA). It has been developing for  42 Meteorological Administration (CMA). It has been developing for 
            43 several years with the continuing efforts by partners, and now  43 several years with the continuing efforts by partners, and now 
            44 providing several valuable datsets openly.",  44 providing several valuable datsets openly.", 
            45       "display_name": "SOTP",  45       "display_name": "SOTP", 
            46       "id": "91c8d68b-e13e-41e3-94de-bbfeb3e5e85f",  46       "id": "91c8d68b-e13e-41e3-94de-bbfeb3e5e85f", 
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            49       "name": "sotp",  49       "name": "sotp", 
            50       "title": "SOTP" 50       "title": "SOTP"
            51     },  51     }, 
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            59       "name": "tibet-key-laboratory-of-atmospheric-environment",  59       "name": "tibet-key-laboratory-of-atmospheric-environment", 
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            64   "id": "65787877-a359-404e-bdfd-d3a388949a46",  64   "id": "65787877-a359-404e-bdfd-d3a388949a46", 
            65   "isopen": true,  65   "isopen": true, 
            66   "license_id": "other-open",  66   "license_id": "other-open", 
            67   "license_title": "Other (Open)",  67   "license_title": "Other (Open)", 
            68   "maintainer": "Yuabo Qiu",  68   "maintainer": "Yuabo Qiu", 
            69   "maintainer_email": "qiuyb@aircas.ac.cn",  69   "maintainer_email": "qiuyb@aircas.ac.cn", 
            70   "metadata_created": "2020-04-30T10:22:51.414267",  70   "metadata_created": "2020-04-30T10:22:51.414267", 
            n 71   "metadata_modified": "2021-05-21T10:48:17.838750",  n 71   "metadata_modified": "2021-05-26T02:45:33.167693", 
            72   "name":  72   "name": 
            73 "modis-daily-cloud-free-snow-cover-products-over-tibetan-plateau",  73 "modis-daily-cloud-free-snow-cover-products-over-tibetan-plateau", 
            74   "notes": "Snow cover over Tibetan Plateau plays an important role in  74   "notes": "Snow cover over Tibetan Plateau plays an important role in 
            75 regional water andenergy circulation. Snow ablation also affects  75 regional water andenergy circulation. Snow ablation also affects 
            76 downstream rivers. Snow parameters and their longterm changes are  76 downstream rivers. Snow parameters and their longterm changes are 
            77 sensitive factors affecting and responding to regional climate,  77 sensitive factors affecting and responding to regional climate, 
            78 influencing ecologyand disasters. Moderate-resolution imaging  78 influencing ecologyand disasters. Moderate-resolution imaging 
            79 spectrometer (MODIS) is widely used for remotelysensing snow due to  79 spectrometer (MODIS) is widely used for remotelysensing snow due to 
            80 its high spatio-temporal resolution. However, snow over Tibetan  80 its high spatio-temporal resolution. However, snow over Tibetan 
            81 Plateau isdistributed patchily and changes rapidly with unexpected  81 Plateau isdistributed patchily and changes rapidly with unexpected 
            82 atmospheric convection and precipitation.Also, because optical remote  82 atmospheric convection and precipitation.Also, because optical remote 
            83 sensing is influenced severely by clouds, daily snow cover  83 sensing is influenced severely by clouds, daily snow cover 
            84 monitoringis a challenge requiring to remove cloud cover instances.  84 monitoringis a challenge requiring to remove cloud cover instances. 
            85 Engaged in Tibetan Plateau\u2019s terraincomplexity and snow  85 Engaged in Tibetan Plateau\u2019s terraincomplexity and snow 
            86 spatio-temporal characteristics, this paper presents a compound  86 spatio-temporal characteristics, this paper presents a compound 
            87 methodby combining different cloud removal algorithms, giving a MODIS  87 methodby combining different cloud removal algorithms, giving a MODIS 
            88 daily cloud-free snow coveralgorithm for Tibetan Plateau, as well as  88 daily cloud-free snow coveralgorithm for Tibetan Plateau, as well as 
            89 MODIS daily cloud-free snow cover products. The accuracy of the snow  89 MODIS daily cloud-free snow cover products. The accuracy of the snow 
            90 cover products is then verified against experimental data observedfrom  90 cover products is then verified against experimental data observedfrom 
            91 145 ground stations during two winter periods from October 1, 2009 to  91 145 ground stations during two winter periods from October 1, 2009 to 
            92 April 30, 2011.Results show that, when snow depth exceeds 3 cm, the  92 April 30, 2011.Results show that, when snow depth exceeds 3 cm, the 
            93 general classification accuracy is 96.6%and the snow classification  93 general classification accuracy is 96.6%and the snow classification 
            94 accuracy is 89.0%. Accuracy was well controlled in each step,  94 accuracy is 89.0%. Accuracy was well controlled in each step, 
            95 whichprovided a good algorithm for removing clouds from the MODIS snow  95 whichprovided a good algorithm for removing clouds from the MODIS snow 
            96 cover imagery. A multilanguage operational process was developed and  96 cover imagery. A multilanguage operational process was developed and 
            97 the daily, cloud-free climatological snow coverproducts over Tibetan  97 the daily, cloud-free climatological snow coverproducts over Tibetan 
            t 98 Plateau were released as a free utility online.",  t 98 Plateau were released as a free utility online. ", 
            99   "num_resources": 1,  99   "num_resources": 1, 
            100   "num_tags": 2,  100   "num_tags": 2, 
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            102     "approval_status": "approved",  102     "approval_status": "approved", 
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            105 under the Chinese Academy of Sciences (CAS) was established in July  105 under the Chinese Academy of Sciences (CAS) was established in July 
            106 2017, following the approval for consolidation of three CAS  106 2017, following the approval for consolidation of three CAS 
            107 institutes: the Institute of Electronics (IECAS), the Institute of  107 institutes: the Institute of Electronics (IECAS), the Institute of 
            108 Remote Sensing and Digital Earth (RADI), and the Academy of  108 Remote Sensing and Digital Earth (RADI), and the Academy of 
            109 Opto-Electronics (AOE) at CAS President Board Meeting. The merger is  109 Opto-Electronics (AOE) at CAS President Board Meeting. The merger is 
            110 the outcome of CAS efforts towards reformation of its R&D system to  110 the outcome of CAS efforts towards reformation of its R&D system to 
            111 meet future R&D challenges and to better meet the national demands.",  111 meet future R&D challenges and to better meet the national demands.", 
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            138       "name": "MODIS daily cloud-free snow cover products over Tibetan  138       "name": "MODIS daily cloud-free snow cover products over Tibetan 
            139 Plateau",  139 Plateau", 
            140       "package_id": "65787877-a359-404e-bdfd-d3a388949a46",  140       "package_id": "65787877-a359-404e-bdfd-d3a388949a46", 
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            151   "tags": [ 151   "tags": [
            152     { 152     {
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            154       "id": "d2730d5d-4a19-476a-8b03-ecbf43c00e86",  154       "id": "d2730d5d-4a19-476a-8b03-ecbf43c00e86", 
            155       "name": "Snow Cover",  155       "name": "Snow Cover", 
            156       "state": "active",  156       "state": "active", 
            157       "vocabulary_id": null 157       "vocabulary_id": null
            158     },  158     }, 
            159     { 159     {
            160       "display_name": "Tibetan Plateau",  160       "display_name": "Tibetan Plateau", 
            161       "id": "7b01fdac-e2ff-4d98-a2a0-23f6b39e7916",  161       "id": "7b01fdac-e2ff-4d98-a2a0-23f6b39e7916", 
            162       "name": "Tibetan Plateau",  162       "name": "Tibetan Plateau", 
            163       "state": "active",  163       "state": "active", 
            164       "vocabulary_id": null 164       "vocabulary_id": null
            165     } 165     }
            166   ],  166   ], 
            167   "title": "MODIS daily cloud-free snow cover products over Tibetan  167   "title": "MODIS daily cloud-free snow cover products over Tibetan 
            168 Plateau",  168 Plateau", 
            169   "type": "dataset",  169   "type": "dataset", 
            170   "url":  170   "url": 
            171 .en.scidb.cn/detail?dataSetId=533223505102110720&dataSetType=journal",  171 .en.scidb.cn/detail?dataSetId=533223505102110720&dataSetType=journal", 
            172   "version": "" 172   "version": ""
            173 } 173 }