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论文
[1]Ming Zaiyang,Zhang Jianqiang*, He Haiqing et al. Addressing Accuracy Challenges in Machine Learning for Debris Flow Susceptibility: Insights from the Yalong River Basin. JOURNAL OF MOUNTAIN SCIENCE, 2025
[2]Zhang Lili,Zhang Jianqiang*, Ming Zaiyang et al. Effects of changing spatial scale on debris-flow hazard assessment: A case study in the Dadu River basin, China[J]. SCIENCE OF THE TOTAL ENVIRONMENT, 2024, 954: 176482. DOI: 10.1016/j.scitotenv.2024.176482.
[3]Huang Yu,Zhang Jianqiang*, He Haiqing et al. MAST: An Earthquake-Triggered Landslides Extraction Method Combining Morphological Analysis Edge Recognition With Swin-Transformer Deep Learning Model[J]. IEEE JOURNAL OF SELECTED TOPICS IN APPLIED EARTH OBSERVATIONS AND REMOTE SENSING, 2024, 17: 2586 – 2595. DOI: 10.1109/JSTARS.2023.3342989.
[4]Zhang Jianqiang, Yang Zongji, Meng Qingkai,et al. Distribution patterns of landslides triggered by the 2022 Ms 6.8 Luding earthquake, Sichuan, China[J]. JOURNAL OF MOUNTAIN SCIENCE, 2023, 20: 607–623.
[5]Huang Yu,Zhang Jianqiang*, Zhang Lili, et al. How Spatial Resolution of Remote Sensing Image Affects Earthquake Triggered Landslide Detection: An Example from 2022 Luding Earthquake, Sichuan, China[J]. LAND, 2023; 12(3):681.
[6]Zhang Jianqiang, Ge Yonggang,Li Yong,et al. Zonation-based landslide hazard assessment using artificial neural networks in the China-Pakistan Economic Corridor[J]. FRONTIERS IN EARTH SCIENCE, 2022, 10:15.
[7]Zhang Jianqiang,Cees J. van Westen, Hakan Tanyas,et al. How size and trigger matter: analyzing rainfall- and earthquake-triggered landslide inventories and their causal relation in the Koshi River basin, central Himalaya[J]. NATURAL HAZARDS AND EARTH SYSTEM SCIENCES, 2019,19(8):1789-1805.
[8]Zhang Jianqiang, Liu Rongkun, Deng Wei,et al. Characteristics of landslide in Koshi River Basin, Central Himalaya[J]. JOURNAL OF MOUNTAIN SCIENCE, 2016,13(10):1711-1722.
[9]Zhang Jianqiang, Deo Raj Gurung, Liu Rongkun,et al. Abe Barek landslide and landslide susceptibility assessment in Badakhshan Province, Afghanistan[J]. LANDSLIDES, 2015, 12(3):597-609.
[10]Zhang Jianqiang, Su Fenghuan. The Characteristics of Landslides Induced by the Wenchuan Earthquake Based on High Spatial Resolution Remote Sensing Images[C],2013:331-339.
[11]Zhang Jianqiang, Cui Peng, Ge Yonggang,et al. Susceptibility and risk assessment of earthquake-induced landslides based on Landslide Response Units in the Subao River basin, China[J]. ENVIRONMENTAL EARTH SCIENCES, 2012, 65(4):1037-1047.
[12]张建强,黄宇,陈容,孔博.基于地学信息图谱的科西河流域滑坡空间分异研究.地理科学, 2024, 44(6): 1111-1122.
[13]张建强,邹强,苏凤环,等.动态窗口邻域统计的高差计算方法[J].测绘科学, 2017,42(6):36-40.
[14]张建强,苏凤环,范建容. “4·20”芦山地震崩塌滑坡与公路危险性评价——以宝兴县省道S210沿线为例[J].山地学报,2013,31(5):616-623.
[15]张建强,范建容,胡凯衡.汶川地震前后崩塌和滑坡分布特征与敏感性对比分析[J].水土保持通报,2012,32(3):208-210,276.
[16]张建强,崔鹏,向灵芝,等.基于子流域的地震诱发崩塌敏感性评价[J].四川大学学报(工程科学版),2010,42(z1):43-49.
[17]张建强,崔鹏,葛永刚,等.基于合成孔径雷达的城市建筑地震受损分析[J].灾害学,2010,25(S1):282-285.
[18]张建强,范建容,严冬,等.地震诱发崩塌滑坡敏感性评价——以北川县为例[J].四川大学学报(工程科学版),2009,41(3):140-145.
专著
[1]田宏岭,张建强, 樊晓一, 聂勇,杨宗佶,林家元.贫困地区山地灾害风险与监测预警技术研究,科学出版社, 2016
[2]崔鹏,范建容,张建强,邹强,陈昱等.长江上游山地灾害与水土流失地图集.北京,科学出版社. 2015.
[3]Zhang Jianqiang, Amar Deep Regmi, Rongkun Liu,et al. Landslides inventory and trans-boundary risk management in Koshi river basin, Himalaya. Land Cover Change and Its Eco-environmental Responses in Nepal. Singapore:Springer Singapore,2017:XVI, 417.
专利
[1]张建强;贾洋;张莉莉;葛永刚;黄宇;明仔洋;基于遥感影像的泥石流灾害识别及频率计算方法, 2022-11-1,中国, ZL202211187713.4
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