代表性論文(共發(fā)表論文100余篇����,代表性論文如下)
1、英文論文
[1] Liu Jun, Xiong Junnan,Chen Yangbo,Sun Huaizhang,etc .An integrated model chain for future flood risk prediction under land-use changes[J],JOURNAL OF ENVIRONMENTAL MANAGEMENT 2023,(SCI 1區(qū))
[2] SunTao,YangYan-mei,WangZe-gen,YongZhi-wei,XiongJun-nan*,etc. Spatiotemporal variation of ecological environment quality and extreme climate drivers on the Qinghai-Tibetan Plateau[J], JOURNAL OF MOUNTAIN SCIENCE,2023,(SCI 3區(qū))
[3] Yong Zhiwei,Wang Zegen,Xiong Junnan*,Ye Chongchong,etc.Variability in temperature extremes across the Tibetan Plateau and its non-uniform responses to different ENSO types[J],CLIMATIC CHANGE,2023,(SCI 2區(qū))
[4] Wang Jiyan,Chen Guo,Yuan Yirong,Fei Yi,Xiong Junnan,Yang Jiawei,etc.Spatiotemporal changes of ecological environment quality and climate drivers in Zoige Plateau[J],ENVIRONMENTAL MONITORING AND ASSESSMENT,2023,(SCI 3區(qū))
[5] Wang Nan��,Cheng Weiming���,Zhang Hongyan,Xiong Junnan�,Liu Changjun,etc.Impact-based probabilistic modeling of hydro-morphological processes in China (1985-2015)[J],JOURNAL OF ENVIRONMENTAL MANAGEMENT,2023,( 1區(qū))
[6] Yong, Zhiwei, Wang, Zegen,Xiong Junnan,Tian Jie.Tropical volcanic eruptions reduce vegetation net carbon uptake on the Qinghai-Tibet Plateau under background climate conditions[J],FRONTIERS IN PLANT SCIENCE,2023(SCI 2區(qū))
[7] Wang Lei�,Zhou Yushan,Shen Gaoyun���,Xiong, Junnan����,Shi Hongtao. Forest Height Inversion Based on Time-Frequency RVoG Model Using Single-Baseline L-Band Sublook-InSAR Data[J],REMOTE SENSING��,2023.(SCI 2區(qū))
[8] Jun Liu, Junnan Xiong , Yangbo Chen , Huaizhang Sun , Xueqiang Zhao, Fengmiao Tu ����,Yu Gu.A new avenue to improve the performance of integrated modeling for flash flood susceptibility assessment: Applying cluster algorithms [J],Ecological Indicators,2022,(SCI 2區(qū))
[9] Ziyu Wang , Zegen Wang *, Junnan Xiong , Wen He , Zhiwei Yong , Xin Wang. Responses of the Remote Sensing Drought Index with Soil Information to Meteorological and Agricultural Droughts in Southeastern Tibet[J]. Remote Sensing.2022.(SCI 2區(qū))
[10] Xin Wang , Jiawei Yang *, Junnan Xiong, Gaoyun Shen , Zhiwei Yong , Huaizhang Sun , Wen He,Siyuan Luo and Xingjie Cui. Investigating the Impact of the Spatiotemporal Bias Correction of Precipitation in CMIP6 Climate Models on Drought Assessments[J]. Remote Sensing,2022. (SCI 2區(qū))
[11] Wang Zegen���,Du Xuemei��, Jiang Dan�����,Yong, Zhiwei�,Xiong, Junnan. Influence of topology based on change domain[J]�����,Geocarto International,2022. (SCI 2區(qū))
[12] Wang Nan���,Cheng Weiming����,Marconcini Mattia,Bachofer Felix���,Liu Changjun�����,Xiong Junnan��,Lombardo Luigi. Space-time susceptibility modeling of hydro-morphological processes at the Chinese national scale[J], ENGINEERING GEOLOGY,2022.(一區(qū))
[13] He Yufeng, Xiong Junnan*, Cheng Weiming; Yang Jiawei; He Wen; Yong Zhiwei; Duan Yu; Liu Jun; Yang Gang; Wang Nan. Assessing the risk posed by flash floods to the transportation network in southwestern China[J], Geocarto International,2022. (SCI 2區(qū))
[14] Yu Duan, Junnan Xiong* , Weiming Cheng , Yi Li , Nan Wang , Gaoyun Shen and Jiawei Yang.Increasing Global Flood Risk in 2005-2020 from a Multi-Scale Perspective.Remote Sensing.2022, 14, 5551.(SCI 2區(qū))
[15] Xinjie Cui,Junnan Xiong*,Weiming Cheng,Yanmei Yang,Jun Liu,etc.Refined assessment of flash flood vulnerability in Linzhi based on spatialization and GIS.Geocarto International,2022.(SCI 2區(qū))
[16] Yuchuan He, Jian Sun* , Junnan Xiong* , Hua Shang and Xin Wang. Patterns, Dynamics, and Drivers of Soil Available Nitrogen and Phosphorus in Alpine Grasslands across the QingZang Plateau.Remote Sensing,2022,14:4929-4946.( 2區(qū)).
[17] Yu Duan,Junnan Xiong*,Weiming Cheng,Nan Wang,Wen He,Yufeng He,Jun Liu,Gang Yang,Jiyan Wang,Jiawei Yang.Assessment and spatiotemporal analysis of global flood vulnerability in 2005–2020,International Journal of Disaster Risk Reduction,2022. (SCI 2區(qū))
[18] Luo Siyuan, Xiong Junnan*, Liu Shuang, Hu Kaihen, Cheng Weiming, Liu Jun,etc.New Insights into Ice Avalanche-Induced Debris Flows in Southeastern Tibet Using SAR Technology�,Remote Sensing���,2022,14(11): 2603-2623.(SCI 2區(qū))
[19] Sun, Huaizhang, Chen, Yangbo, Xiong, junnan, Ye chong chong,etc. Relationships between climate change, phenology, edaphic factors, and net primary productivity across the Tibetan Plateau, INTERNATIONAL JOURNAL OF APPLIED EARTH OBSERVATION AND GEOINFORMATION, 2022.(SCI 1區(qū))
[20] Zhiwei Yong , Kun Li , Junnan Xiong *, Weiming Cheng , Zegen Wang , Huaizhang Sun and Chongchong Ye,Integrating DMSP-OLS and NPP-VIIRS Nighttime Light Data to Evaluate Poverty in Southwestern China,Remote Sensing���,2022.(SCI 2區(qū))
[21] Jun Liu,JiyanWang,Xiong Junnan*, weimingCheng,Yi Li,Yifan Cao,Yufeng He,Yu Duan,Wen He,Gang Yang.Assessment of flood susceptibility mapping using support vector machine logistic regression and their ensemble techniques in the Belt and Road region�,Geocarto International,2022.(SCI 2區(qū))
[22] Jun Liu,JiyanWang,JunnanXiong*,Weiming Cheng, Huaizhang Sun, Zhiwei Yong, Nan Wang,Novel hybrid models incorporating bivariate statistics and machine Learning methods for flash flood susceptibility assessment based on remote sensing datasets�����,Remote Sensing��,2021.(SCI 2區(qū))
[23] Jun Liu , Jiyan Wang , Junnan Xiong *, Weiming Cheng,etc. Dynamic Assessment of the Flood Risk at Basin Scale under Simulation of Land-Use Scenarios and Spatialization Technology of Factor,Water, 2021, 13, 3239.
[24] Wang Nan,Lombardo uigi,Gariano Stefano Luigi,Cheng Weiming,Liu Changjun, Xiong Junnan,Wang Ruibo. Using satellite rainfall products to assess the triggering conditions for hydro-morphological processes in different geomorphological settings in China,INTERNATIONAL JOURNAL OF APPLIED EARTH OBSERVATION AND GEOINFORMATION,2021.(SCI 1區(qū)Top)
[25] HE Yuchuan, XIONG Junnan, ABUDUMANAN·Ahemaitihali,*etc.Spatiotemporal Pattern and Driving Force Analysis of Vegetation Variation in Altay Prefecture based on Google Earth Engine,Journal of Resources and Ecology,2021,12(6): 729-742.(EI)
[26] TIAN Jie, XIONG Junnan, ZHANG Yichi,*etc.Quantitative Assessment of the Effects of Climate Change and Human Activities on Grassland NPP in Altay Prefecture,Journal of Resources and Ecology ,2021 12(6): 743-756.(EI)
[27] Gang Yang, Jiyan Wang *, Junnan Xiong, Zhiwei Yong, Chongchong Ye, Huaizhang Sun, Jun Liu, Yu Duan, Yufeng He, Wen He. An algorithm for the retrieval of high temporal-spatial resolution shortwave albedo from Landsat-8 surface reflectance and MODIS BRDF, Remote Sensing,2021.(SCI 2區(qū))
[28] Jiawei Yang, Xin Wang, Jiyan Wang, Chongchong Ye,a and Junnan Xiong*,Water extraction of hyperspectral imagery based on a fast and effective decision tree water index,Journal of Applied Remote Sensing,2021.(SCI 4區(qū))
[29] Nan Wang, Luigi Lombardo, Marj Tonini, Weiming Cheng, Liang Guo, and Junnan Xiong. Spatiotemporal clustering of flash floods in a changing climate (China, 1950–2015).Natural Hazards and Earth System Sciences,2021.21,2109–2124.( 3區(qū))
[30] Duan Yu,Xiong Junnan*,Cheng Weiming,Wang Nan,Li Yi,He Yufeng,He Wen,Yang Gang.Flood vulnerability assessment using the triangular fuzzy number-based analytic hierarchy process and support vector machine model for the Belt and Road region,Natural Hazards,2021,7.(SCI 3區(qū))
[31] Jiyan Wang , Huaizhang Sun , Junnan Xiong *, Dong He , Weiming Cheng , Chongchong Ye , Zhiwei Yong and Xianglin Huang. Dynamics and Drivers of Vegetation Phenology in Three-River Headwaters Region Based on the Google Earth Engine,Remote Sensing,2021,13.(SCI 2區(qū))
[32] Yufeng He, Deying Ma, Junnan Xiong*, Weiming Cheng, Hongliang Jia, Nan Wang, Liang Guo, Yu Duan, Jun Liu & Gang Yang.Flash flood vulnerability assessment of roads in China based on support vector machine�,Geocarto International,2021,5.(2區(qū))
[33] Wang Nan,Cheng Weiming*, Lombardo, L, Xiongjunnan, Guo Liang.Statistical spatiotemporal analysis of hydro-morphological processes in China during 1950-2015,Stochastic Environmental Research And Risk Assessment,2021. ( 3區(qū))
[34] Zhiwei Yong,Junnan Xiong* ,Zegen Wang , Weiming Cheng, Jiawei Yang , Quan Pang. Relationship of extreme precipitation, surface air temperature, and dew point temperature across the Tibetan Plateau, Climatic Change,2021.(SCI 2區(qū))
[35] Huaizhang Sun , Jiyan Wang,Junnan Xiong* , Jinhu Bian, Huaan Jin,Weiming Cheng, and Ainong Li. Vegetation Change and Its Response to Climate Change in Yunnan Province, China, Advances in Meteorology,2021.(SCI 3區(qū))
[36] Junnan Xiong , Quan Pang , Weiming Cheng* , Nan Wang & Zhiwei Yong. Reservoir Risk Modelling Using a Hybrid ApproachBased on the Feature Selection Technique and Ensemble Methods, Geocarto International,2020.(SCI 2區(qū))
[37] Yifan Cao , Hongliang Jia , Junnan Xiong *, Weiming Cheng, Kun Li , Quan Pang and Zhiwei Yong.Flash Flood Susceptibility Assessment Based on Geodetector, Certainty Factor, and Logistic Regression Analyses in Fujian Province, China. ISPRS International Journal of Geo-Information, 2020, 9(12), 748. (SCI 3區(qū))
[38] Wen He, Chongchong Ye, Jian Sun*, Junnan Xiong*, JinniuWang and Tiancai Zhou. Dynamics and Drivers of the Alpine Timberline on Gongga Mountain of Tibetan Plateau-Adopted from the Otsu Method on Google Earth Engine, Remote Sensing, 2020, 12(15), 2651-2671.(SCI 2區(qū))
[39] Chongchong Ye, Jian Sun*, Miao Liu, Junnan Xiong*, Ning Zong, Jian Hu,etc.Concurrent and Lagged Effects of Extreme Drought Induce Net Reduction in Vegetation Carbon Uptake on Tibetan Plateau, Remote Sensing, 2020, 12(15), 2347-2364.(SCI 2區(qū))
[40] Junnan Xiong*, Quan Pang , Chunkun Fan , Weiming Cheng, Chongchong Ye, Yunliang Zhao, Yuanrong He, Yifan Cao . Spatiotemporal Characteristics and Driving Force Analysis of Flash Floods in Fujian Province, ISPRS International Journal of Geo-Information, 2020, 9(2), 133.(SCI 3區(qū))
[41] Junnan Xiong*,Kun Li, Weiming Cheng, Chongchong Ye,Hao Zhang. A Method of Population Spatialization Considering Parametric Spatial Stationarity: Case Study of the Southwestern Area of China. ISPRS International Journal of Geo-Information, 2019, 8, 495.(SCI 3區(qū))
[42] Junnan Xiong*,Jin Li, Hao Zhang,Min Sun,and Weiming Cheng.Quantitative Hazard Assessment of Landslides Using the Levenburg–Marquardt Back Propagation Neural Network Method in a Pipeline Area.Geosciences.2019,9,449. (SCI 4區(qū))
[43] Junnan Xiong*,Wei Li , Hao Zhang ,Weiming Cheng,etc. Selected Environmental Assessment Model and Spatial Analysis Method to Explain Correlations in Environmental and Socio-Economic Data with Possible Application for Explaining the State of the Ecosystem. Sustainability. 2019, 11, 4781.(SCI 3區(qū))
[44] Junnan Xiong,Chongchong Ye*,Tiancai Zhou, Weiming Cheng. Health Risk and Resilience Assessment with Respect to the Main Air Pollutants in Sichuan. International Journal of Environmental Research and Public Health,2019,16,2796.(SCI 3區(qū))
[45] Junnan Xiong, Jin Li, Weiming Cheng *, Nan Wang, Liang Guo. A GIS-Based Support Vector Machine Model for Flash Flood Vulnerability Assessment and Mapping in China. ISPRS International Journal of Geo-Information,2019, 8.(3區(qū))
[46] Junnan Xiong, Zhiwei Yong *, Zegen Wang *, Weiming Cheng, Yi Li, Hao Zhang, Chongchong Ye, Yanmei Yang. Spatial and Temporal Variation of the Extreme Precipitation across the Tibetan Plateau (1986–2015). Water,2019,11,1453.(SCI 4區(qū))
[47] Junnan Xiong , Chongchong Ye, Weiming Cheng*, Liang Guo, Chenghu Zhou and Xiaolei Zhang. The Spatiotemporal Distribution of Flash Floods and Analysis of Partition Driving Forces in Yunnan Province. Sustainability. 2019, 11, 2926.(3區(qū))
[48] Junnan Xiong*, Ming Sun, Hao Zhang*, Weiming Cheng, Yinghui Yang, Mingyuan Sun, Yifan Cao, and JiyanWang. Application of the Levenburg–Marquardt back propagation neural network approach for landslide risk assessments. Natural Hazards and earth system Science, 2019,19, 629–653.(SCI 3區(qū))
[49] Peng Li,Deng Wei,Zhang Hao,Sun Jian, Xiong Junnan. Focus on economy or ecology? A three-dimensional trade-off based on ecological carrying capacity in southwest China. Natural Resource Modeling,2019,,32(2): 629-643. (SCI 3區(qū))
[50] Hao Zhang, Jian Sun*, Junnan Xiong* .Spatial–temporal patterns and controls of evapotranspiration across the Tibetan Plateau (2000–2012)���,Advances in Meteorology,2017.7. 1-12.(SCI 3區(qū))
[51] Xiong Junnan,Liushan�,Yang Yanmei,Jia Hongliang,Wang Zegen. Quantitative analysis the influence of MS8.0Wenchuan earthquake to the Microrelief Based on RS, Disaster Advances,2013,(6) (S2):65-72.
[52] Xiong Junnan,Wei Fangqiang,Jiang Yuhong, et al. Classification simulating Population Distribution and Disaster Emergency Management considering the Disparity between City and Rural Area —Taking SiChuan as an example[J], Disaster Advances 2012,5(4):1718-1723.
[53] Xiong Junnan, Liu Shan,Wang Zegen, et al. Research on the Key Technology of Traffic Guidance System for Disaster Emergency Rescue based on GIS[J], Disaster Advances ,2012,5(4):1414-1419.
2���、中文論文
[1] 唐浩然, 熊俊楠* ,雍志瑋 ,等.多源數(shù)據(jù)融合的燃?xì)夤艿栏吆蠊麉^(qū)識(shí)別與分級(jí)方法[J],油氣儲(chǔ)運(yùn),2024(8):1-11
[2] 馬姍姍,楊嘉葳,王繼燕,熊俊楠*.基于光譜特征的城市水體提取[J].測(cè)繪通報(bào)�,2024(6):71-76
[3] 王啟盛,熊俊楠*,程維明,等.耦合統(tǒng)計(jì)方法���、機(jī)器學(xué)習(xí)模型和聚類(lèi)算法的滑坡易發(fā)性評(píng)價(jià)方法[J].地球信息科學(xué)學(xué)報(bào),2024,26(3):620-637.
[4] 袁藝溶,王繼燕,楊嘉葳,熊俊楠*.基于植被指數(shù)的若爾蓋高原濕地光合有效輻射吸收比例估算研究[J]�����,遙感技術(shù)與應(yīng)用, 2022 ,37 (05):1267-1276.
[5] 張瓊藝,李昆,雍志瑋,熊俊楠,程維明,肖坤洪,劉東麗.基于夜光遙感數(shù)據(jù)的西南地區(qū)多維貧困測(cè)度及時(shí)空演變分析[J],自然資源遙感���,2022,34( 4) : 286-298
[6] 孫義林,崔興潔,熊俊楠,歐海沨,王啟盛,廖虹怡.基于遙感技術(shù)的成都市PM2.5濃度反演與分析�,測(cè)繪地理信息,2021,46(S1):75-81.
[7] 熊俊楠 ,曹依帆,孫銘,王迎兵,雍志瑋.基于GIS和熵權(quán)法的滑坡作用下的長(zhǎng)輸油氣管道易損性評(píng)價(jià),山地學(xué)報(bào),2020,38(5):717-725.
[8] 熊俊楠,李進(jìn),朱吉龍,程維明,郭良,王楠,張曉蕾. 重慶市山洪災(zāi)害時(shí)空格局及影響因素研究,地球信息科學(xué)學(xué)報(bào),2019,21(10): 1550-1564.
[9] 熊俊楠,曹依凡,程維明,郭良,楊瑩輝.福建省山洪災(zāi)害危險(xiǎn)性評(píng)價(jià),山地學(xué)報(bào),2019,37(4):538-550.
[10] 熊俊楠,李偉,劉志奇,程維明,范春捆,等.基于GWR 模型的青藏高原地區(qū)TRMM 數(shù)據(jù)降尺度研究,國(guó)土資源遙感,2019,31(4):1-11.
[11] 熊俊楠,李進(jìn),程維明,周成虎,郭良,等.西南地區(qū)山洪災(zāi)害時(shí)空分布特征及其影響因素,地理學(xué)報(bào),2019,74(7):1377-1394.
[12] 熊俊楠,劉志奇,蘇鵬程,龔穎,葉沖沖,朱吉龍.基于GF-1衛(wèi)星影像的金川縣泥石流溝空間分布特征研究���,自然災(zāi)害學(xué)報(bào),2019,28(2):160-167.
[13] 熊俊楠�����,李偉��,程維明�����,范春捆�,李進(jìn)�����,趙云亮.高原地區(qū)地表溫度空間分異特征及影響因素研究--以桑珠孜區(qū)為例, 國(guó)土資源遙感,2019,31(2):164-171.
[14] 熊俊楠��,龔穎���,劉志奇���,范春捆��,朱吉龍. 基于灰色理論的西藏暴雨洪澇預(yù)測(cè)�����,冰川凍土,2019,41(2):457-469.
[15] 熊俊楠,孫明遠(yuǎn),孫銘.基于 GIS 及耦合協(xié)調(diào)原理的長(zhǎng)輸管道山洪泥石流風(fēng)險(xiǎn)性評(píng)價(jià)���,天然氣工業(yè),2019,39(3):116-124.
[16] 熊俊楠,朱吉龍,蘇鵬程,李進(jìn),李偉等.基于GIS與信息量模型的溪洛渡庫(kù)區(qū)滑坡危險(xiǎn)性評(píng)價(jià)�����,長(zhǎng)江流域資源與環(huán)境��,2019,28(3):700-710.
[17] 熊俊楠,李偉,劉志奇,程維明,范春捆, 張昊.基于多源數(shù)據(jù)的西藏東南部歷史干旱監(jiān)測(cè)與分析����,干旱區(qū)地理���,2019(5):21-29.
[18] 熊俊楠,劉志奇,劉敦龍,范春捆,冷小鵬. 西藏自治區(qū)農(nóng)業(yè)氣象災(zāi)害WebGIS平臺(tái)的設(shè)計(jì)與實(shí)現(xiàn)���,測(cè)繪與空間地理信息,2019,42(5):14-17.
[19] 熊俊楠,龔穎,程維明,范春捆,王楠.西藏自治區(qū)近30年山洪災(zāi)害時(shí)空分布特征,山地學(xué)報(bào)�,2018,36(4): 557-570.
[20] 熊俊楠,趙云亮,程維明, 郭良,王楠,李偉等.四川省山洪災(zāi)害時(shí)空分布規(guī)律及其影響因素研究.地球信息科學(xué)學(xué)報(bào),2018,20(10):1443-1456.
[21] 熊俊楠,張昊,彭超,范春捆,朱吉龍,龔穎.汶川地震災(zāi)區(qū)植被覆蓋度變化與地形因子關(guān)系研究�����,水土保持通報(bào)�����,2018,38(3):24-31.
[22] 熊俊楠,彭超,程維明,李偉,劉志奇,范春捆,孫懷張����?����;?/span>MODIS-NDVI的云南省植被覆蓋度變化分析����,地球信息科學(xué)學(xué)報(bào),2018,20(12):1830-1840.
[23] 熊俊楠��,彭超��,范春捆�����,孫銘,劉志奇. 基于MODIS時(shí)序數(shù)據(jù)的汶川地震災(zāi)區(qū)植被覆蓋變化監(jiān)測(cè)���,應(yīng)用基礎(chǔ)與工程科學(xué)學(xué)報(bào)�����,2018,26(1):60-69.
[24] 熊俊楠,龔穎,程維明*,范春捆,王楠.西藏自治區(qū)近30年山洪災(zāi)害時(shí)空分布特征,山地學(xué)報(bào),2018,36(4): 557-570.
[25] 熊俊楠,劉志奇, 范春捆, 龔穎,張昊�,彭超等,西藏自治區(qū)近30年氣象災(zāi)害時(shí)空分布特征與變化趨勢(shì)�,冰川凍土,2017,39(6):1221-1231.
[26] 熊俊楠,韋方強(qiáng),劉志奇. 四川省小流域泥石流危險(xiǎn)性評(píng)價(jià),地球信息科學(xué)學(xué)報(bào), 2017, 19(12):1603-1611 .
[27] 葉超凡,張一馳,熊俊楠,秦建新.湖南省山丘區(qū)小流域山洪災(zāi)害危險(xiǎn)性評(píng)價(jià).地球信息科學(xué)學(xué)報(bào),2017,19(12):1593-1603.
[28] 孫銘,熊俊楠,李江,彭超,劉姍,徐芳.基于網(wǎng)絡(luò)RTK的長(zhǎng)輸油氣管道測(cè)量方法研究與實(shí)踐����,礦山測(cè)量,2016,44(6):6-9,27.
[29] 姬斌,張盛,熊俊楠,劉志奇.基于三維激光掃描的球罐三維重建及變形監(jiān)測(cè).煤氣與熱力,2016,36(8):38-42.
[30] 熊俊楠,孫銘, 彭超,等.基于地質(zhì)雷達(dá)的城鎮(zhèn)燃?xì)?/span>PE管道探測(cè)方法研究�����,物探與化探��,2015,35(9):1079-1084.
[31] 熊俊楠,韋方強(qiáng),江玉紅,蘇鵬程. 基于多源數(shù)據(jù)的四川GDP公里格網(wǎng)化研究���,應(yīng)用基礎(chǔ)與工程科學(xué)學(xué)報(bào),2013,21(2): 317-327.
[32] 熊俊楠,韋方強(qiáng),江玉紅,蘇鵬程���?�;谧V間特征與多種指數(shù)分析的居民地信息提取方法,測(cè)繪科學(xué), 2013,38(2):146-149.
[33] 熊俊楠,關(guān)惠平.雞鳴埡隧道洞口段圍巖三維變形監(jiān)測(cè)與分析���,路基工程,2011(2): 129-131.
[34] 熊俊楠,王澤根,徐忠印�����,劉巖���,楊艷梅.高層建筑物變形監(jiān)測(cè)數(shù)據(jù)處理方法研究及工程應(yīng)用���,測(cè)繪科學(xué),2010,(4):69-71.
[35] 熊俊楠,馬洪濱. 礦產(chǎn)資源儲(chǔ)量估算信息系統(tǒng)的設(shè)計(jì)與開(kāi)發(fā),金屬礦山,2009,(1):94-96.
[36] 馬洪濱,熊俊楠. 基于地質(zhì)統(tǒng)計(jì)學(xué)的儲(chǔ)量估算系統(tǒng)�,煤炭學(xué)報(bào),32(3):267-271.
3、專(zhuān)利
[1] 熊俊楠��,唐浩然��,雍志瑋等.一種多源數(shù)據(jù)和知識(shí)驅(qū)動(dòng)下的燃?xì)夤艿栏吆蠊麉^(qū)識(shí)別方法���,ZL 2023 10708781.X
[2] 熊俊楠��,劉傲儒���,王繼燕�����,付林�����,等. 一種基于GIS的城市復(fù)雜多源管網(wǎng)爆管分析方法及系統(tǒng),發(fā)明專(zhuān)利�����,ZL2023 11025479.X
[3] 熊俊楠,劉志奇,范春捆,劉姍��,龔穎�����,朱吉龍. 一種適宜于高海拔地區(qū)的干旱遙感監(jiān)測(cè)方法��,發(fā)明專(zhuān)利.ZL201810301163.1
[4] 熊俊楠,孫銘���,曹依凡�����,孫明遠(yuǎn)����,劉姍.一種滑坡作用下長(zhǎng)輸油氣管道易損性評(píng)價(jià)方法,發(fā)明專(zhuān)利, ZL201811208911.8.
[5] 熊俊楠��,何雨楓�,劉姍,劉俊�����,段鈺�,崔興杰。一種基于GIS與機(jī)器學(xué)習(xí)的道路山洪易損性評(píng)價(jià)方法��,發(fā)明專(zhuān)利����,ZL202110274765.4
[6] 熊俊楠,賀文,葉沖沖��,劉姍�,段鈺,劉俊��,何雨楓��,何豫川�����,一種基于GEE的Otsu和邊緣檢測(cè)算法的高山林線(xiàn)提取方法��,發(fā)明專(zhuān)利���,ZL 2021 10353359.7
[7] 熊俊楠,龔穎. 一種基于不規(guī)則三角網(wǎng)的山體滑坡監(jiān)測(cè)系統(tǒng), 實(shí)用新型專(zhuān)利,201820436734.8.
4���、軟件著作權(quán)
[1] 熊俊楠��,范春捆���,劉敦龍,冷小鵬�����,劉志奇,龔穎.西藏農(nóng)業(yè)氣象災(zāi)害地理信息系統(tǒng)軟件��,2017SR385791.
[2] 熊俊楠���,劉姍�,龔穎����,劉志奇. 礦產(chǎn)資源儲(chǔ)量估算信息系統(tǒng)軟件,2017SR385803.
[3] 蘇鵬程��,熊俊楠��,劉敦龍�,孫銘.川滇地區(qū)潛勢(shì)泥石流判識(shí)系統(tǒng)軟件,2017SR084660.
[4] 熊俊楠��,劉姍. 校園地理信息空間分析系統(tǒng)軟件�����,2017SR433617.
[5] 范春捆,高利云�����,張永鵬����,熊俊楠,彭超�����,西藏農(nóng)業(yè)氣象災(zāi)害數(shù)據(jù)庫(kù)系統(tǒng)軟件��, 2018SR467925.
[6] 雍志偉�,熊俊楠,王澤根.青藏高原東南緣強(qiáng)降水誘發(fā)泥石流判識(shí)軟件���,2021SR0375937.
[7] 雍志偉�,熊俊楠�����,王澤根.青藏高原強(qiáng)降水時(shí)空分析系統(tǒng)軟件��,2021SR0375939.
[8] 熊俊楠�����,唐浩然.基于RBI的天然氣配氣站風(fēng)險(xiǎn)評(píng)價(jià)平臺(tái),2023SR0930985.
[9] 熊俊楠,劉傲儒,王繼燕,等.燃?xì)夤艿朗幹孟到y(tǒng),2023SR0918541.
[10] 熊俊楠�,唐浩然.燃?xì)夤艿栏吆蠊麉^(qū)信息管理平臺(tái),2023SR0879331.
[11] 熊俊楠,岑康,王兵,付林,劉傲儒.2024SR0415393.
[12] 岑康,熊俊楠,王兵,魏源,李強(qiáng).燃?xì)夤茌斚到y(tǒng)事故應(yīng)急處置軟件,2024SR0412621.
[13] 王兵,岑康,熊俊楠,魏源,李強(qiáng).燃?xì)夤茌斚到y(tǒng)事故后果分析軟件,2024SR0413989.
5)專(zhuān)著、教材
[1] 《地下管線(xiàn)監(jiān)測(cè)與城市發(fā)展適應(yīng)性分析》, 科學(xué)出版社,2017,排名5���。
[2] 《地下管線(xiàn)信息數(shù)據(jù)獲取與應(yīng)用》��,科學(xué)出版社�����,2022�����,排名第3���。
[3] 《中國(guó)山洪災(zāi)害圖集》,中國(guó)地圖出版社,2022��,參與���。
[4]《綠水青山生態(tài)文明建設(shè)與綠色發(fā)展新范式——阿勒泰山水林田湖草系統(tǒng)建設(shè)實(shí)踐》����,中國(guó)環(huán)境出版集團(tuán),2022����。
