[1] et alTemporal change detection of land use/land cover using GIS and remote sensing techniques in South Ghor Regions, Al-Karak, Jordan[J]. Journal of Fundamental and Applied Sciences, 10, 95-111(2018).

[2] et alMining transition rules of cellular automata for simulating urban expansion by using the deep learning techniques[J]. International Journal of Geographical Information Science, 32, 2076-2097(2018).

[3] 宋晓阳, 黄耀欢, 董东林, 等. 融合数字表面模型的无人机遥感影像城市土地利用分类[J]. 地球信息科学学报, 2018,20(5):703-711. [ Song XY, Huang YH, Dong DL, et al. Urban land use classification from UAV remote sensing images based on digital surface model[J]. Journal of Geo-information Science, 2018,20(5):703-711. ] [ Song X Y, Huang Y H, Dong D L, et al. Urban land use classification from UAV remote sensing images based on digital surface model[J]. Journal of Geo-information Science, 2018,20(5):703-711. ]

[4] et alSpatio-temporal patterns of land use change along the Bohai Rim in China during 1985-2005[J]. Journal of Geographical Sciences, 19, 568-576(2009).

[5] 戴尔阜, 马良. 土地变化模型方法综述[J]. 地理科学进展, 2018,37(1):152-162. [ Dai EF, MaL. Review on land change modeling approaches[J]. Progress in Geography, 2018,37(1):152-162. ] [ Dai E F, Ma L. Review on land change modeling approaches[J]. Progress in Geography, 2018,37(1):152-162. ]

[6] 李寅超, 李建松. 基于过程对象的地表覆盖变化时空过程表达模型[J]. 吉林大学学报(地球科学版), 2017,47(3):916-924. [ Li YC, Li JS. A Spatio-Temporal temporal process expression model for land cover based on process object[J]. Journal of Jilin University (Earth Science Edition), 2017,47(3):916-924. ] [ Li Y C, Li J S. A Spatio-Temporal temporal process expression model for land cover based on process object[J]. Journal of Jilin University (Earth Science Edition), 2017,47(3):916-924. ]

[7] A land use/land cover change geospatial cyberinfrastructure to integrate big data and temporal topology[J]. International Journal of Geographical Information Science, 30, 573-593(2016).

[8] 刘淑燕, 余新晓, 李庆云, 等. 基于CA-Markov模型的黄土丘陵区土地利用变化[J]. 农业工程学报, 2010,26(11):297-303. [ Liu SY, Yu XX, Li QY, et al. Land use change in loess hilly region based on CA-Markov model[J]. Transactions of the CSAE, 2010,26(11):297-303. ] [ Liu S Y, Yu X X, Li Q Y, et al. Land use change in loess hilly region based on CA-Markov model[J]. Transactions of the CSAE, 2010,26(11):297-303. ]

[9] 李少英, 刘小平, 黎夏, 等. 土地利用变化模拟模型及应用研究进展[J]. 遥感学报, 2017,21(3):329-340. [ Li SY, Liu XP, LiX, et al. Simulation model of land use dynamics and application: Progress and prospects[J]. Journal of Remote Sensing, 2017,21(3):329-340. ] [ Li S Y, Liu X P, Li X, et al. Simulation model of land use dynamics and application: Progress and prospects[J]. Journal of Remote Sensing, 2017,21(3):329-340. ]

[10] Spatial big data analytics: Classification techniques for earth observation imagery[J]. Minnesota: University of Minnesota(2016).

[11] et alModelling feedbacks between human and natural processes in the land system[J]. Earth System Dynamics (Online), 9, 895-914(2018).

[12] Massively parallel spatial point pattern analysis: Ripley's K function accelerated using graphics processing units[J]. International Journal of Geographical Information Science, 29, 412-439(2015).

[13] Spatial and temporal patterns of commercial citrus trees affected by Phyllosticta citricarpa in Florida[J]. Scientific Reports, 7, 1641-1652(2017).

[14] A pattern growth-based approach for mining spatiotemporal co-occurrence patterns[C]. IEEE(2016).

[15] 徐枫, 陈袁芳, 蔡建南, 等. 基于点过程模拟的时空级联模式统计挖掘方法[J]. 中南大学学报(自然科学版), 2017,48(10):2717-2724. [ XuF, Chen YF, Cai JN, et al. A statistical approach for discovering spatio-temporal cascading patterns based on point process simulation[J]. Journal of Central South University (Science and Technology), 2017,48(10):2717-2724. ] [ Xu F, Chen Y F, Cai J N, et al. A statistical approach for discovering spatio-temporal cascading patterns based on point process simulation[J]. Journal of Central South University (Science and Technology), 2017,48(10):2717-2724. ]

[16] Maximum linkage space-time permutation scan statistics for disease outbreak detection[J]. International Journal of Health Geographics, 13, 20-34(2014).

[17] Analyzing hotspots of crime using a bayesian spatiotemporal modeling approach: A case study of violent crime in the greater toronto area[J]. Geographical Analysis, 47, 1-19(2015).

[18] An eigenvector-based hotspot detection[report]. Angra do Heroísmo: Proceedings of the 16th Portuguese Conference on Artificial Intelligence(EPIA 2013), 251-260(2013).

[19] et alUsing the SaTScan method to detect local malaria clusters for guiding malaria control programmes[J]. Malaria Journal, 8, 68-74(2009).

[20] et alSpatial and temporal dynamics of malaria in Madagascar[J]. Malaria Journal, 17, 58-71(2018).

[21] 孙云华, 郭涛, 崔希民, 等. 基于行为聚类算法的土地利用聚类适宜性分析研究[J]. 地球信息科学学报, 2016,18(3):396-405.

[22] et alA spatiotemporal calculus for reasoning about land-use trajectories[J]. International Journal of Geographical Information Science, 33, 176-192(2019).

[23] 周成虎, 李婷, 裴韬. 时空点过程:一种新的地学数据模型、分析方法和观察视角[J]. 地球信息科学学报, 2013,15(6):793-800. [ Zhou CH, LiT, PeiT. Spatiotemporal Point Process: A New Data Model, Analysis Methodology and Viewpoint for Geoscientific Problem[J]. Journal of Geo-information Science, 2013,15(6):793-800. ] [ Zhou C H, Li T, Pei T. Spatiotemporal Point Process: A New Data Model, Analysis Methodology and Viewpoint for Geoscientific Problem[J]. Journal of Geo-information Science, 2013,15(6):793-800. ]

[24] 王国杰, 廖善刚. 土地利用强度变化的空间异质性研究[J]. 应用生态学报, 2006,17(4):611-614. [ Wang GJ, Liao SG. Spatial heterogeneity of land use intensity[J]. Chinese Journal of Applied Ecology, 2006,17(4):611-614. ] [ Wang G J, Liao S G. Spatial heterogeneity of land use intensity[J]. Chinese Journal of Applied Ecology, 2006,17(4):611-614. ]

[25] From polygons and timestamps to dynamic geographic features: Grounding a spatio-temporal geo-ontology[C]. Springer(2012).

[26] et alAn interval-based approach for reasoning about land use change trajectories[C]. IEEE(2018).

[27] A pattern growth-based approach for mining spatiotemporal co-occurrence patterns[C]. IEEE(2016).

[28] The Concise Encyclopedia of Statistics[M]. New York: Springer(2008).

[29] 郑优男, 王晓辉, 彭书传. 基于RS与GIS技术分析淮南矿区土地利用变化[J]. 环境工程, 2015,33(S1):764-768. [ Zheng YN, Wang XH, Peng SC. Land use changes in Huainan mining area based on RS and GIS technology[J]. Environmental Engineering, 2015,33(S1):764-768. ] [ Zheng Y N, Wang X H, Peng S C. Land use changes in Huainan mining area based on RS and GIS technology[J]. Environmental Engineering, 2015,33(S1):764-768. ]

[30] 黄家政, 赵萍, 郑刘根, 周淑媛. 淮南矿区土地利用/覆盖时空变化特征及预测[J]. 合肥工业大学学报(自然科学版), 2014,37(8):981-986. [ Huang JZ, ZhaoP, Zheng LG, et al. Spatial-temporal characteristics and prediction of land use/cover change in Huainan mining area[J]. Journal of Hefei University of Technology, 2014,37(8):981-986. ] [ Huang J Z, Zhao P, Zheng L G, et al. Spatial-temporal characteristics and prediction of land use/cover change in Huainan mining area[J]. Journal of Hefei University of Technology, 2014,37(8):981-986. ]

[31] 秦云. 基于SWAT模型的梁子湖流域非点源污染分析[D]. 武汉:湖北大学, 2017. [ QinY. Non-point source pollution analysis of Liangzi Lake based on SWAT model[D]. Wuhan: Hubei University, 2017. ] [ Qin Y. Non-point source pollution analysis of Liangzi Lake based on SWAT model[D]. Wuhan: Hubei University, 2017. ]

[32] 许昱堃, 陈广洲, 尤朝辉, 等. 淮南市2001-2015年可持续发展研究——基于改进的生态足迹模型[J]. 安徽建筑大学学报, 2019,27(2):55-62. [ Xu YK, Chen GZ, You ZH, et al. On the sustainable development of huainan city from 2001 to 2015 based on improved ecological footprint[J]. Journal of Anhui Jianzhu University, 2019,27(2):55-62. ] [ Xu Y K, Chen G Z, You Z H, et al.On the sustainable development of huainan city from 2001 to 2015 based on improved ecological footprint[J]. Journal of Anhui Jianzhu University, 2019,27(2):55-62. ]

[33] 杨显明, 焦华富, 许吉黎. 煤炭资源型城市空间结构演化过程、模式及影响因素——基于淮南市的实证研究[J]. 地理研究, 2015,35(10):1256-1264. [ Yang XM, Jiao HF, Xu JL. The path, evolution and mechanism of the industry structure locking-in for the coal resource-dependent city: A case study of Huaibei[J]. Scientia Geographica Sinica, 2015,35(10):1256-1264. ] [ Yang X M, Jiao H F, Xu J L. The path, evolution and mechanism of the industry structure locking-in for the coal resource-dependent city: A case study of Huaibei[J]. Scientia Geographica Sinica, 2015,35(10):1256-1264. ]