学术论文
期刊同行评议论文
(#)第一作者;(*)通讯作者
2023年
[1]Wen Song(#), Shisong Cao(*), Mingyi Du, et al. Distinctive roles of land-use efficiency in SDGs: an investigation of trade-offs and synergies in China, Journal of Cleaner Production, 382: 134889, 2023. (IF: 11.072)
[2]Yang Meizi(#), Shisong Cao, Hengrui Zhang, et al. Using Point of Interest Data and Satellite Observation for Urban Functional Zone Mapping, Sensors and Materials, 35(1): 269-284, 2023 (IF: 0.879).
[3]Yang Meizi(#), Shisong Cao, Dayu Zhang, et al. Spatially Explicit Modeling of Anthropogenic Heat Intensity in Beijing Center Area: An Investigation of Driving Factors with Urban Spatial Forms, Sensors, 23, 7608, 2023 (IF: 3.847).
[4]Liang Ying(#), Shisong Cao(*), and Mingyi Du, et al. Local climate zone mapping using remote sensing: a synergetic use of daytime multi-view Ziyuan-3 stereo imageries and Luojia-1 nighttime light data, International Journal of Digital Earth, 16(1):3456-3488, 2023 (IF: 5.1).
[5]Ziyu Wang(#), Shisong Cao(*), and Mingyi Du et al., Local climate zone classification by seasonal and diurnal satellite observations: an integration of daytime thermal infrared multispectral imageries and high-resolution nighttime light data, Remote Sensing, 15(10), 2599, 2023 (IF: 5.349).
[6]Ying Liang(#), Wen Song, Shisong Cao(*), and Mingyi Du. Local Climate Zone Classification Using Daytime Zhuhai-1 Hyperspectral Imagery and Nighttime Light Data, Remote Sensing, 15(13), 3351, 2023 (IF: 5.349).
[7]Qiang Chen(#), Rui Liu(*), Qianhao Cheng, Yunhao Chen, Shisong Cao, Mingyi Du, and Kangning Li, Evaluating the impact of sky view factor and building shadow ratio on air temperature in different residential and commercial building scenarios: A case study of Beijing, China, Urban Climate, 2023, 49: 101509 (IF: 6.663).
[8]Yongjuan Guan(#),Jinling Quan(*),Ting Ma, Shisong Cao, et al., Identifying Major Diurnal Patterns and Drivers of Surface Urban Heat Island Intensities across Local Climate Zones, Remote Sensing, 15(20):5061, 2023 (IF: 5.349)
[9] 陈强(#), 黄易萧, 刘锐, 王镕焘, 陈云浩, 曹诗颂(*),李媛媛. 城市住宅建筑布局对热环境影响的模拟分析, 测绘科学, 48(10): 250-258, 2023.
2022年
[10]Shisong Cao(#), Qihao Weng(#), and Linlin Lu. Distinctive roles of two- and three-dimensional urban structures in surface urban heat islands over the conterminous United States, Urban Climate, 2022, 44: 101230. (IF: 6.663)
[11]Shisong Cao(#), Yile Cai, Mingyi Du, Qihao Weng(*), and Linlin Lu. Seasonal surface urban heat islands in China: an investigation of driving factors with three-dimensional urban morphological parameters. GIScience & Remote Sensing, 2022, 59: 1121-1142. (IF: 6.397)
[12]Wen Song(#), Shisong Cao(*), Mingyi Du, You Mo, and Suju Li. Investigation of Compound Drought Risk and Driving Factors in Nepal, Natural Hazards, 2022. (IF: 3.158)
[13]Ziqiang Peng(#), Shisong Cao(*), Mingyi Du(*), Linlin Lu, et al. Spatiotemporal patterns and driving factors of urban particulate matter islands: new evidence from 240 cities in China, Sustainability, 2022, 14(10): 6117. (IF: 3.889)
[14]Siyan Gao(#), Yang Liu(*), Shisong Cao, et al. IUNet-IF: identification of construction waste using unmanned aerial vehicle remote sensing and multi-layer deep learning methods, International Journal of Remote Sensing, 2022, 43(19-24):7181-7212. (IF: 3.531)
[15]Xue Zhao(#), Yang Yang, Fuzhou Duan(*), Miao Zhang, Guofu Jiang, Xing Yan, Shisong Cao and Wenji Zhao. Identification of construction and demolition waste based on change detection and deep learning. International Journal of Remote Sensing, 43(6): 2012-2028, 2022. (IF: 3.531)
[16]彭自强(#), 曹诗颂(*), 杜明义. 中美城市群颗粒物岛现象与健康暴露风险对比. 地理信息世界, 29(2): 8-15, 2022.
2021年
[17]Wen He(#), Shisong Cao(*), Mingyi Du, et al., How do two- and three-dimensional urban structures impact seasonal land surface temperatures at various spatial scales? a case study for the northern part of Brooklyn, New York, USA. Remote Sensing, 2021, 13, 3283. (IF: 5.349)
[18]Siji Sanlang(#), Shisong Cao(*), Mingyi Du, et al., Integrating Aerial LiDAR and Very-High-Resolution Images for Urban Functional Zone Mapping. Remote Sensing, 2021, 13, 2573. (IF: 5.349)
[19]Qiang Chen(#), Qianhao Cheng(*), Yunhao Chen, Kangning Li, Danan Wang, Shisong Cao. The Influence of Sky View Factor on Daytime and Nighttime Urban Land Surface Temperature in Different Spatial-Temporal Scales: A Case Study of Beijing. Remote Sensing, 2021, 13, 4117. (IF: 5.349)
[20]Meilin Zhou(#), Linlin Lu(*), Huadong Guo, Qihao Weng, Shisong Cao, et al., Urban Sprawl and Changes in Land-Use Efficiency in the Beijing–Tianjin–Hebei Region, China from 2000 to 2020: A Spatiotemporal Analysis Using Earth Observation Data. Remote Sensing, 2021, 13, 2850. (IF: 5.349)
[21]You Mo(#), Ruofei Zhong(*), Shisong Cao. Orbita hyperspectral satellite image for land cover classification using random forest classifier. Journal of Applied Remote Sensing, 15(1): 014519, 2021. (IF: 1.568)
[22]Shuqi Wu(#), Zhuowei Hu, Zhiheng Wang, Shisong Cao, Yang Yang, Xinyuan Qu, and Wenji Zhao(*). Spatiotemporal variations in extreme precipitation on the middle and lower reaches of the Yangtze River Basin (1970–2018). Quaternary International, 2021. (IF: 2.454)
[23]蔡一乐(#), 曹诗颂(*), 杜明义, 等. 中国地级市人为热总量的估算及驱动因素分析, 地球信息科学学报, 23(3): 1-14, 2021.
[24]胡德勇(#,*), 张亚妮, 刘曼晴,于琛, 曹诗颂, 狄宇飞. 顾及城区形态特征的太阳辐射传输模型及其遥感应用初探, 遥感学报, 25(10), 2116–2126, 2021.
2020年
[25]龚克(#), 梁晓峰, 冯录召, 吴思竹, 刘闯(*), 伊赫亚, 许哲平, 曹诗颂. 中国抗击COVID-19科研进展视频报告(第3期):病毒抗体[J/DB/OL]. 全球变化数据仓储电子杂志(中英文), 2020. https://doi.org/10.3974/geodb.2020.03.21.V1.
[26]Shisong Cao(#), Mingyi Du(*), Wenji Zhao, et al. Multi-level monitoring of three-dimensional building changes for megacities: trajectory, morphology, and landscape. ISPRS Journal of Photogrammetry and Remote Sensing, 167: 54-70, 2020. (IF: 11.774)
[27]Shisong Cao(#), Qihao Weng(*), Mingyi Du(*), et al. Multi-scale three-dimensional monitoring of building information for urban areas using aerial LiDAR data, GIScience and Remote Sensing, 2020. (IF: 6.397)
[28]Shisong Cao(#), Deyong Hu, Wenji Zhao, Mingyi Du(*), et al. Integrating multi-view optical point clouds and multispectral images from ZY-3 satellite remote sensing data to generate an urban digital surface model. Journal of Applied Remote Sensing, 14(1), 014505, 2020. (IF: 1.568)
[29]Peng Li(#), Zhengwei He(*), Dong He, Dongjian Xue, Ying Wang, & Shisong Cao. Fractional vegetation coverage response to climatic factors based on grey relational analysis during the 2000-2017 growing season in Sichuan province, China. International Journal of Remote Sensing, 41 (3): 1170-1190, 2020. (IF: 3.531)
[30]吴舒祺, 赵文吉, 王志恒, 曹诗颂, 等. 基于GIS的洪涝灾害风险评估及区划——以浙江省为例. 中国农村水利水电, 卷(6): 51-57, 2020.
[31]刘宇昕, 王斌, 曹诗颂, 等. 武汉地区环境卫星气溶胶光学厚度反演, 遥感信息, 卷(2): 30-37, 2020.
[32]于琛, 胡德勇, 张亚妮, 曹诗颂, 王莎莎. DEM空间分块的洪水动态演进算法研究与应用. 测绘科学, 45(10):9, 2020.
2019年
[33]Shisong Cao(#), Deyong Hu(*), Wenji Zhao, et al. Monitoring changes in impervious surface of different urban functional zones from multisource remote sensing data: a case study of Tianjin, China. GIScience and Remote Sensing, 56 (7): 967-987, 2019. (IF: 6.397)
[34]Shuqi Wu(#), Shisong Cao(*), Zhiheng Wang, et al. Spatiotemporal variations in agricultural flooding in middle and lower reaches of Yangtze River from 1970 to 2018, Sustainability, 11, 6613, 2019. (IF: 3.889)
[35]Shanshan Chen(#), Deyong Hu(*), Man Sing Song, Huazhong Ren, Shisong Cao, Chen Yu, et al. Characterizing spatiotemporal dynamics of anthropogenic heat fluxes: A 20-year case study in Beijing–Tianjin–Hebei region in China. Environmental Pollution, 249, 923-931, 2019. (IF: 9.988)
[36]You Mo(#), Ruofei Zhong(*), Haili Sun, Qiong Wu, Liming Du, Yuxin Geng, & Shisong Cao. Integrated Airborne LiDAR Data and Imagery for Suburban Land Cover Classification Using Machine Learning Methods. Sensors, 19, 1996, 2019. (IF: 3.847)
[37]于琛(#), 胡德勇(*), 曹诗颂, 等. 近30年北京市ISP-LST空间特征及其变化. 地理研究, 38(9): 2346-2356, 2019.
[38]于琛(#), 胡德勇(*), 张旸, 曹诗颂, 段欣, & 张亚妮. 近20年京津唐主体城区地表热场空间特征变化分析. 地理科学, 39(6): 1016-1024, 2019.
[39]于琛, 胡德勇, 段欣, 张亚妮, 曹诗颂, 张旸. 基于降水-流量关联与水力模型的暴雨洪涝灾害预警[J]. 水电能源科学, 37(10):4, 2019.
[40]段欣, 胡德勇, 曹诗颂, 等. 城区复杂下垫面天空视域因子参数化方法——以北京鸟巢周边地区为例. 国土资源遥感, 31(3): 29-35, 2019.
[41]姜栋, 赵文吉, 万碧玉, 杨振宇, 曹诗颂. 高分辨率星载SAR影像在岛礁测图中的应用研究, 测绘科学与技术, 7(2) : 52-59, 2019.
2018年及以前
[42]Shisong Cao(#), Wenji Zhao(*), Hongliang Guan(*), et al. Comparison of remotely sensed PM2.5 concentrations between developed and developing countries: results from the US, Europe, China, and India. Journal of Cleaner Production, 182, 672-681, 2018. (IF: 11.072)
[43]Shisong Cao(#), Deyong Hu, Zhuowei Hu(*), et al. An integrated soft and hard classification approach for evaluating urban expansion from multisource remote-sensing data: a case study of the Beijing-Tianjin-Tangshan metropolitan region, China. International Journal of Remote Sensing, 39 (11), 3556-357, 2018. (IF: 3.531)
[44]Shisong Cao(#), Deyong Hu, Zhuowei Hu(*), et al. Comparison of spatial structures of urban agglomerations between the Beijing-Tianjin-Hebei and Boswash based on the subpixel-level impervious surface coverage product. Journal of Geographical Sciences, 28(3): 306-322, 2018. (IF: 4.012)
[45]Shisong Cao(#), Deyong Hu(*), Wenji Zhao, et al. Monitoring Spatial Patterns and Changes of Ecology, Production, and Living Land in Chinese Urban Agglomerations: 35 Years after Reform and Opening Up, Where, How and Why? Sustainability, 766, 2017. (IF: 3.889)
[46]Deyong Hu(#,*), Shisong Cao, Shanshan Chen, et al. Monitoring spatial patterns and changes of surface net radiation in urban and suburban areas using satellite remote-sensing data. International Journal of Remote Sensing, 38(4): 1043-1061, 2017. (IF: 3.531)
[47]Deyong Hu(#), Shanshan Chen(*), Kun Qiao, and Shisong Cao. Integrating the CART algorithm and multi-source remote sensing data to estimate sub-pixel impervious surface coverage: a case study from Beijing Municipality, China. Chinese Geographical Science, 27: 614-625, 2017. (IF: 3.101)
[48]Kun Qiao(#), Wenquan Zhu, Deyong Hu(*), Ming Hao, Shanshan Chen, & Shisong Cao. Examining the distribution and dynamics of impervious surface in different function zones in Beijing, Journal of Geographical Sciences, 28(5): 669-684, 2018. (IF: 4.012)
[49]齐梦溪(#), 鲁晗, 曹诗颂, 等. 基于引力模型的经济空间结构时空演变分析——以河南省为例. 地理研究, 37(05):39-53, 2018.
[50]张旸, 胡德勇, 曹诗颂, 等. 京津冀城市群热岛强度遥感监测及其城市规模效应分析[J]. 首都师范大学学报(自然科学版), 39(05):75-83, 2018.
[51]曹诗颂(#), 胡德勇(*), 赵文吉, 陈姗姗, 程庆文. 不透水地表盖度视角下中美城市群空间结构对比——以“京津冀”与“波士华”为例. 地理学报, 72 (6): 1017- 1031, 2017.
[52]曹诗颂(#), 王艳慧(*), 段福洲,等. 中国贫困地区生态环境脆弱性与经济贫困的耦合关系——基于连片特困区 714 个贫困县的实证分析. 应用生态学报, 27(8):2614-2622, 2016.
[53]乔琨(#), 朱文泉, 胡德勇(*), 郝明, 陈姗姗, 曹诗颂. 北京市不同功能区不透水地表时空变化差异. 地理学报, 2017, 72(11):14.
[54]于琛(#), 胡德勇(*), 曹诗颂, 等. 2005-2016 年北京中心城区热岛时空格局及影响因子多元建模. 地球信息科学学报, 19(11): 1485-1494, 2017.
[55]孟宇(#), 胡卓玮(*), 赵文吉, 曹诗颂. 贫困地区信息服务及发布平台的设计与实现. 工程勘察, 44(9):42-48, 2016.
[56]曹诗颂(#), 赵文吉(*), 段福洲. 秦巴特困连片区生态资产与经济贫困的耦合关系. 地理研究, 34(7): 1295-1309, 2015.
数据集共享
[57]杜明义, 蒋捷, 曹诗颂, 蔡一乐, 任远航. 北京市提供新冠病毒核酸检测服务的医疗卫生机构空间分布数据集(2020)[J/DB/OL]. 全球变化数据仓储电子杂志(中英文), 2021. https://doi.org/10.3974/geodb.2021.03.10.V1. (URL: http://www.geodoi.ac.cn/WebCn/doi.aspx?Id=1763)
[58]申艳, 马超, 刘闯, 曹诗颂, 蒋捷. 新型冠状病毒肺炎疫苗试验中国注册及候选疫苗研发机构空间分布数据集[J/DB/OL]. 全球变化数据仓储电子杂志(中英文), 2020. https://doi.org/10.3974/geodb.2020.03.27.V1. (URL: http://www.geodoi.ac.cn/WebCn/doi.aspx?Id=1498)
[59]许哲平, 吴思竹, 刘闯, 曹诗颂, 蒋捷, 申艳. 中国研究新型冠状病毒抗体机构空间分布数据集[J/DB/OL]. 全球变化数据仓储电子杂志(中英文), 2020. https://doi.org/10.3974/geodb.2020.03.28.V1. (URL: http://www.geodoi.ac.cn/WebCn/doi.aspx?Id=1499)
会议论文
[60]曹诗颂,中国测绘学会摄影测量与遥感工作委员会学术年会,学术报告《城区太阳辐射传输建模与遥感应用》,2019年;
[61]Deyong Hu, Shisong Cao, Shanshan Chen, et al. Mapping aerodynamic roughness length with multi-source remote sensing data. Conference: 2016 4th International Workshop on Earth Observation and Remote Sensing Applications (EORSA);
[62]Xi Wang, Miaole Hou, Shisong Cao, Bolun Li., 2021. Spatial pattern evolution and driving factors of PM2.5 concentrations in the Grand Canal Region from 2000 to 2018. Int. Arch. Photogramm., Remote Sens. Spat. Inf. Sci. - ISPRS Arch. 28th CIPA Symposium on Great Learning and Digital Emotion, CIPA 2021.