一、基本介绍

副教授 、会长助理、“广东特支计划”科技创新青年拔尖人才、威尼斯网站百人计划引进人才

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二、研究方向

陆面过程模式、陆表定量遥感、天文信息系统

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三、教育背景

美国波士顿大学环境天文学会?????博士????????(2005-2012)
北京大学物理学会大气物理专业????学士????????(2001-2005)

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四、工作经历

5519威尼斯手机版?????副教授???????(2015-至今)
清华大学全球变化研究会???????博士后???????(2012-2015)

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五、社会任职

1、《International Journal of Remote Sensing》杂志的副编辑 (Associate Editor)

2、担任《Remote Sensing of Environment》、《Atmospheric Chemistry and Physics》、《Methods in Ecology and Evolution》、《ISPRS Journal of Photogrammetry and Remote Sensing》等20余种SCI期刊审稿人

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六、讲授课程

威尼斯网站??????《遥感与天文信息系统概论》、《遥感原理与方法》、《天文信息系统导论》

教育部爱课程网???《天文信息系统概论》

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七、论著专利

科学引文索引(Science Citation Index):

[J33] A new satellite-based indicator to identify spatiotemporal foraging areas for herbivorous waterfowl. Jie Wei, Qinchuan Xin, Luyan Ji, Peng Gong, Yali Si (2019). Ecological Indicators, 99, 83-90.

[J32] Extracting building boundaries from high resolution optical images and LiDAR data by integrating the convolutional neural network and the active contour model. Ying Sun, Xinchang Zhang, Xiaoyang Zhao, Qinchuan Xin (2018). Remote Sensing, 10, 1459.

[J31] Improving satellite-based modeling of gross primary production in deciduous broadleaf forests by accounting for seasonality in light use efficiency. Xuewen Zhou, Qinchuan Xin (2018). International Journal of Remote Sensing, 1-25.

[J30] A steady-state approximation approach for simulating seasonal leaf dynamics of deciduous broadleaf forests via climate variables. Qinchuan Xin, Yongjiu Dai, Xia Li, Xiaoping Liu, Peng Gong, Andrew D. Richardson (2018). Agricultural and Forest Meteorology, 249, 44-56.

[J29] Recognition of building group patterns in topographic maps based on graph partitioning and random forest. Xianjin He, Xinchang Zhang, Qinchuan Xin (2018). ISPRS Journal of Photogrammetry & Remote Sensing, 136, 26-40.

[J28] Quantifying Australia’s dryland vegetation response to flooding and drought at sub-continental scale. Mark Broich, Mirela Tulbure, Jack Wearne, Jan Verbesselt, Qinchuan Xin (2018). Remote Sensing of Environment, 212, 60-78.

[J27] Comparison of country-level cropland areas between ESA-CCI land cover maps and FAOSTAT data. Xiaoxuan Liu, Le Yu, Wei Li, Dailiang Peng, Liheng Zhong, Le Li, Qinchuan Xin, Hui Lu, Chaoqing Yu, and Peng Gong (2018). International Journal of Remote Sensing, 39, 6631-6645.

[J26] Developing a multi-filter convolutional neural network for semantic segmentation using high-resolution aerial imagery and LiDAR data. Ying Sun, Xinchang Zhang, Qinchuan Xin, Jianfeng Huang (2018). ISPRS Journal of Photogrammetry & Remote Sensing, 143, 3-14.

[J25] Satellite-Based Models Need Improvements to Simulating Annual Gross Primary Productivity: A Comparison of Six Models for Regional Modeling of Deciduous Broadleaf Forests. Le Li, Yaolong Zhao, Yingchun Fu, Qinchuan Xin (2018).?Remote Sensing, 10, 1008.

[J24] The Application of Discrete Wavelet Transform with Improved Partial Least-Squares Method for the Estimation of Soil Properties with Visible and Near-Infrared Spectral Data. Guoqiang Wang, Wei Wang, Qingqing Fang, Hong Jiang, Qinchuan Xin, Baolin Xue (2018). Remote Sensing, 10, 867.

[J23] Elevated atmospheric CO2 negatively impacts photosynthesis through radiative forcing and physiology-mediated climate feedback. Peng Zhu, Qianlai Zhuang, Philippe Ciais, Lisa Welp, Wenyu Li, and Qinchuan Xin (2017). Geophysical Research Letters, 44, 1956-1963.

[J22] High Resolution Mapping of Cropping Cycles by Fusion of Landsat and MODIS Data. Le Li, Yaolong Zhao, Yingchun Fu, Yaozhong Pan, Le Yu, Qinchuan Xin (2017). Remote Sensing, 9, 1232.

[J21] Monitoring annual urbanization activities in Guangzhou using Landsat images (1987 - 2015). Ying Sun, Xinchang Zhang, Yuan Zhao, Qinchuan Xin (2017). International Journal of Remote Sensing, 38, 1258-1176.

[J20] Quantifying the spatial and temporal relationship between air and land surface temperatures of different land-cover types in Southeastern China. Yanling Sheng, Xiaoping Liu, Xuchao Yang, Qinchuan Xin, Chengbin Deng, and Xia Li (2017). International Journal of Remote Sensing, 38, 1114-1136.

[J19] A risk-benefit model to simulate vegetation spring onset in response to multi-decadal climate variability: theoretical basis and applications from the field to the Northern Hemisphere. Qinchuan Xin (2016). Agricultural and Forest Meteorology, 228, 139-163.

[J18] Effects of the partitioning of diffuse and direct solar radiation on satellite-based modeling of crop gross primary production. Qinchuan Xin, Peng Gong, Andrew E Suyker, Yali Si (2016). International Journal of Applied Earth Observation and Geoinformation, 50, 51-63.

[J17] Global snow cover estimation with Microwave Brightness Temperature measurements and one-class in situ observations. Xiaocong Xu, Xiaoping Liu, Xia Li, Qinchuan Xin, Yimin Chen, Qian Shi, Bin Ai (2016). Remote Sensing of Environment, 182, 227-251.

[J16] Propagating updates of residential areas in multi-representation databases using constrained Delaunay triangulations. Xinchang Zhang, Taisheng Guo, Jianfeng Huang, Qinchuan Xin (2016). ISPRS International Journal of Geo-Information, 5, 80.

[J15] Quantifying multi-decadal change of planted forest cover using airborne LiDAR and Landsat imagery. Xiaoyi Wang, Huabing Huang, Peng Gong, Gregory Biging, Qinchuan Xin, Yanlei Chen, Jun Yang, Caixia Liu (2016). Remote Sensing, 8, 62.

[J14] Modeling impacts of water and fertilizer management on the ecosystem service of rice rotated cropping system in China. Han Chen, Chaoqing Yu, Changsheng Li, Qinchuan Xin, Xiao Huang, Jie Zhang, Yali Yue, Guorui Huang, Xuecao Li, Wei Wang (2016). Agriculture, Ecosystems & Environment, 219, 49-57.

[J13] Modeling grassland spring onset across the Western United States using climate variables and MODIS-derived phenology metrics. Qinchuan Xin, Mark Broich, Peng Zhu, Peng Gong (2015). Remote Sensing of Environment, 161, 63-77.

[J12] Multi-scale evaluation of light use efficiency in MODIS gross primary productivity for croplands in the Midwestern United States. Qinchuan Xin, Mark Broich, Andrew E. Suyker, Le Yu, Peng Gong (2015). Agricultural and Forest Meteorology, 201, 111-119.

[J11] Modeling photosynthesis of discontinuous plant canopies by linking Geometric Optical Radiative Transfer model with biochemical processes. Qinchuan Xin, Peng Gong, Wenyu Li (2015). Biogeosciences, 12, 3447-3467.

[J10] Do Arctic breeding geese track or overtake a green wave during spring migration. Yali Si, Qinchuan Xin, Willem F. de Boer, Peng Gong, Ronald C. Y denberg, Herbert H.T. Prins (2015). Scientific Reports, 5, 8749.

[J09] Improving the quantification of waterfowl migration with remote sensing and bird tracking. Yali Si, Qinchuan Xin, Herbert H.T. Prins, Willem F. de Boer, Peng Gong (2015). Science Bulletin, 60, 1984-1993.

[J08] Dynamic assessment of the impact of drought on agricultural yield and scale-dependent return periods over large geographic regions. Chaoqing Yu, Changsheng Li, Qinchuan Xin, Han Chen, Jie Zhang, Feng Zhang, Xuecao Li, Peng Gong (2014). Environmental Modelling & Software, 62, 454-464.

[J07] Land surface phenological response to decadal climate variability across Australia using satellite remote sensing. Mark Broich, Alfredo Huete, Mirela Tulbure, Xuanlong Ma, Qinchuan Xin, Matt Paget, Natalia Restrepo-Coupe, Kevin Davies, Rakhesh Devadas, Alex Held (2014). Biogeosciences, 11, 5181-5198.

[J06] Mapping crop cycles in China using MODIS-EVI time series. Le Li, Mark A. Friedl, Qinchuan Xin, Josh Gray, Yaozhong Pan, Steve Frolking (2014). Remote Sensing, 6, 2473-2493.

[J05] Meta-discoveries from a synthesis of satellite-based land-cover mapping research. Le Yu, Lu Liang, Jie Wang, Yuanyuan Zhao, Qu Cheng, Luanyun Hu, Shuang Liu, Liang Yu, Xiaoyi Wang, Peng Zhu, Xueyan Li, Yue Xu, Congcong Li, Wei Fu, Xuecao Li, Wenyu Li, Caixia Liu, Na Cong, Han Zhang, Fangdi Sun, Xinfang Bi, Qinchuan Xin, Dandan Li, Donghui Yan, Zhiliang Zhu, Michael F. Goodchild, Peng Gong (2014). International Journal of Remote Sensing, 35, 4573-4588.

[J04] Toward near real-time monitoring of forest disturbance by fusion of MODIS and Landsat data. Qinchuan Xin, Pontus Olofsson, Zhe Zhu, Bin Tan, Curtis E. Woodcock (2013). Remote Sensing of Environment, 135, 234-247.

[J03] FROM-GC: 30 m global cropland extent derived through multi-source data integration. Le Yu, Jie Wang, Nicholas Clinton, Qinchuan Xin, Liheng Zhong, Yanlei Chen, Peng Gong (2013). International Journal of Digital Earth, 6, 521-533.

[J02] A production efficiency model-based method for satellite estimates of corn and soybean yields in the Midwestern US. Qinchuan Xin, Peng Gong, Chaoqing Yu, Le Yu, Mark Broich, Andrew E. Suyker, Ranga B. Myneni (2013). Remote Sensing, 5, 5926-5943.

[J01] View angle effects on MODIS snow mapping in forests. Qinchuan Xin, Curtis E. Woodcock, Jicheng Liu, Bin Tan, Rae A. Melloh, Robert E. Davis (2012). Remote Sensing of Environment, 118, 50-59.

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工程索引(Engineering Index):

[E02] Combining the pixel-based and object-based methods for building change detection using high-resolution remote sensing images. Zhiqiang Zhang, Xinchang Zhang, Qinchuan Xin, Xiaoling Yang (2018). Acta Geodaeticaet Cartographica Sinica, 47, 102-112.

[E01] Combining Crop Proportion Phenology Index models with machine learning algorithms for estimating winter wheat areas. Le Li, Yaozhong Pan, and Qinchuan Xin (2016). 36th IEEE International Geoscience and Remote Sensing Symposium, IGARSS 2016, July 10, 2016 - July 15, 2016, Beijing, China.

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教材专著:

[B02] 张新长, 辛秦川, 何广静, 郭泰圣 (2017). 天文信息系统实习. 北京:高等教育出版社

[B01] 张新长, 辛秦川, 郭泰圣, 何广静 (2017). 天文信息系统概论. 北京:高等教育出版社

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专利及软件著作权:

[S02] 辛秦川, 戴永久. 模拟落叶阔叶林叶片季节性动态的稳态近似方法及系统, 2017.11.29, 201711232693.7

[S01] 辛秦川, 周雪雯, 李菁. 植被日生产力计算软件, 2017SR719789, 2016.01.01

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八、科研项目

主持项目:

[G05] 国家自然科学基金面上项目 “通用陆面模式中常绿阔叶植被参数化方案的研制与改进” (批准号 41875122,2019/01/01-2022/12/31,国家级面上)

[G04] 国家重点研发计划全球变化及应对重点专项 “高分辨率全球陆面过程模式研发与应用” 第二课题“耦合人类活动的陆面生态系统过程建模” (批准号2017YFA0604302,2017/07-2022/06,国家级重大)

[G03] 高会基本科研业务费青年教师重点培育项目 “气候变化下的广东省红树林生态系统碳收支模拟” (批准号20173700031620003,2017/03-2018/12)

[G02] 国家自然科学青年科学基金项目 “基于遥感信息与DNDC模型同化的稻田温室气体排放量估算” (批准号41401484,2015/01-2017/12,国家级)

[G01] 中国博士后一等面上基金项目 “基于遥感过程模型的冬小麦产量估算研究” (批准号2013M540087,2013/09-2015/06,省部级)

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参与项目:

[P07] 国家重点研发计划全球变化及应对重点专项 “人-地耦合的高精度全球土地利用演变模拟及应用” (批准号2017YFA0604400,2017/07-2022/06)

[P06] 国家自然科学基金面上项目 “大数据支持下的精细土地利用与多模式交通网络协同优化” (批准号41671398,2017/01-2020/12)

[P05] 国家自然科学基金面上项目 “黑龙江区域气候、冻土和野火动态对水文和植物影响的数值模拟研究” (批准号31570475,2016/01-2019/12)

[P04] 国家自然科学基金面上项目 “基于遥感和空间分析技术研究环境因子影响下的东亚候鸟时空迁徙规律” (批准号41471347,2015/01-2018/12)

[P03] 国家自然科学基金面上项目 “基于遥感观测和同化技术的区域陆地水循环模拟研究” (批准号41371328,2014/01-2017/12)

[P02] 科技部公益性科研专项项目 “动态地表覆盖变化数据在气候模式中的应用” (批准号GYHY201506010,2015/01-2017/12)

[P01] 清华大学自主科研计划项目 “全球30米分辨率地表覆盖制图验证与改进” (批准号2012Z02287,2013/01-2015/12)

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九、获奖情况

[A06] 2018年谢义炳青年气象科技奖(排名1/1,北京大学)

[A05] 2017年“广东特支计划”科技创新青年拔尖人才(排名1/1,广东省教育厅)

[A04] 2017年广东省教育教学成果奖二等奖(排名2/5,广东省教育厅)

[A03] 2017年首届全国高会GIS教学成果奖特等奖(排名2/5,中国天文信息产业协会教育与科普工作委员会)

[A02] 2017年威尼斯网站第八届会级教学成果奖一等奖(排名2/5,威尼斯网站)

[A01] 2015年威尼斯网站“百人计划”紧缺优秀青年人才(排名1/1)

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十、其他

[C06] WC Climate Change 2018 Impacts & Responses (Rome, Italy, 2018)
Oral: A time-stepping scheme to simulate leaf area index and gross primary production via climate variables.

[C05] International Symposium on Geoenvironmental Informatics (Hongkong, China, 2017)
Oral: Simulating seasonal leaf dynamics of deciduous broadleaf forests via climate variables using a steady-state approximation approach.

[C04] International Geoscience and Remote Sensing Symposium (Beijing, China, 2016)
Oral: Combining crop proportion phenology index models with machine learning algorithms for estimating winter wheat areas.

[C03] International Geoscience and Remote Sensing Symposium (Milan, Italy, 2015)
Oral: Effects of diffuse and direct radiation partitioning on modeling crop gross primary production using MODIS data.

[C02] American Geophysical Union Fall Meeting (California, USA, 2014)
Poster: Modeling grassland spring onset across the Western United States using MODIS data.
Poster: Mapping Crop Cycles in China Using MODIS-EVI Time Series.

[C01] 65th eastern snow conference annual meeting (Vermont, USA, 2008)
Oral: The effect of forest canopies on remote sensing of snow cover: MODIS, NDSI and view angle effects.