[1] Allan RJ. Survey of Agent Based Modelling and Simulation Tools. Science & Technology Facilities Council.(2010).

[2] AnL. Modeling human decisions in coupled human and natural systems: Review of agent-based models. Ecological Modelling, 229, 25-36(2012).

[3] AnL, LindermanM, QiJ et al. Exploring complexity in a human-environment system: An agent-based spatial model for multidisciplinary and multiscale integration. Annals of the Association of American Geographers, 95, 54-79(2005).

[4] AnL, ZvoleffA, Liu JG et al. Agent-based modeling in coupled human and natural systems (CHANS): Lessons from a comparative analysis. Annals of the Association of American Geographers, 104, 723-745(2014).

[5] AscensaoF, ClevengerA, Santos-ReisM et al. Wildlife-vehicle collision mitigation: Is partial fencing the answer? An agent-based model approach. Ecological Modelling, 257, 36-43(2013).

[6] Bakker MM, Alam SJ, van DijkJ et al. Land-use change arising from rural land exchange: An agent-based simulation model. Landscape Ecology, 30, 273-286(2015).

[7] BattyM. Agent-based pedestrian modeling: Editorial. Environment and Planning B-Planning & Design, 28, 321-326(2001).

[8] BattyM. Polynucleated urban landscapes. Urban Studies, 38, 635-655(2001).

[9] BattyM, DesyllasJ, DuxburyE. The discrete dynamics of small-scale spatial events: Agent-based models of mobility in carnivals and street parades. International Journal of Geographical Information Science, 17, 673-697(2003).

[10] BenensonI, Torrens PM. Geosimulation: Automata-Based Modeling of Urban Phenomena. John Wiley &. Sons.(2004).

[11] Bert FE, Podesta GP, Rovere SL et al. An agent based model to simulate structural and land use changes in agricultural systems of the argentine pampas. Ecological Modelling,, 222, 3486-3499(2011).

[12] BoneC, DragicevicS. Simulation and validation of a reinforcement learning agent-based model for multi-stakeholder forest management. Computers Environment and Urban Systems, 34, 162-174(2010).

[13] BradyM, KellermannK, SahrbacherC et al. Impacts of decoupled agricultural support on farm structure, biodiversity and landscape mosaic: Some EU results. Journal of Agricultural Economics, 60, 563-585(2009).

[14] BravoM, BricenoL, CominettiR et al. An integrated behavioral model of the land-use and transport systems with network congestion and location externalities. Transportation Research Part B-Methodological, 44, 584-596(2010).

[15] Brown DG, Robinson DT. Effects of heterogeneity in residential preferences on an agent-based model of urban sprawl. Ecology and Society, 11, 22(2006).

[16] Brown DG, Verburg PH, Pontius RG et al. Opportunities to improve impact, integration, and evaluation of land change models. Current Opinion in Environmental Sustainability, 5, 452-457(2013).

[17] Cabral RB, Geronimo RC, Lim MT et al. Effect of variable fishing strategy on fisheries under changing effort and pressure: An agent-based model application. Ecological Modelling, 221, 362-369(2010).

[18] Castella JC, Trung TN, BoissauS. Participatory simulation of land-use changes in the northern mountains of Vietnam: The combined use of an agent-based model, a role-playing game, and a geographic information system. Ecology and Society, 10, 32(2005).

[19] Castella JC, Verburg PH. Combination of process-oriented and pattern-oriented models of land-use change in a mountain area of Vietnam. Ecological Modelling,, 202, 410-420(2007).

[20] Chen XD, LupiF, AnL et al. Agent-based modeling of the effects of social norms on enrollment in payments for ecosystem services. Ecological Modelling, 229, 16-24(2012).

[21] Chen XD, VinaA, ShortridgeA et al. Assessing the effectiveness of payments for ecosystem services: An agent-based modeling approach. Ecology and Society, 19, 15(2014).

[22] Dahal KR, Chow TE. An agent-integrated irregular automata model of urban land-use dynamics. International Journal of Geographical Information Science, 28, 2281-2303(2014).

[23] Dai EF, MaL. Review on land change modeling approaches. Progress in Geography, 37, 152-162(2018).

[24] DeadmanP, RobinsonD, MoranE et al. Colonist household decisionmaking and land-use change in the Amazon rainforest: An agent-based simulation. Environment and Planning B-Planning & Design, 31, 693-709(2004).

[25] DionE, VanSchalkwykL, Lambin EF. The landscape epidemiology of foot-and-mouth disease in South Africa: A spatially explicit multi-agent simulation. Ecological Modelling, 222, 2059-2072(2011).

[26] Farmer JD, FoleyD. The economy needs agent-based modelling. Nature, 460, 685-686(2009).

[27] FilatovaT, ParkerD, van der VeenA. Agent-based urban land markets: Agent’s pricing behavior, land prices and urban land use change. JASSS: The Journal of Artificial Societies and Social Simulation, 12, 29(2009).

[28] FilatovaT, van der VeenA, Parker DC. Land market interactions between heterogeneous agents in a heterogeneous landscape-tracing the macro-scale effects of individual trade-offs between environmental amenities and disamenities. Canadian Journal of Agricultural Economics: Revue Canadienne D Agroeconomie, 57, 431-457(2009).

[29] FilatovaT, Verburg PH, Parker DC et al. Spatial agent-based models for socio-ecological systems: Challenges and prospects. Environmental Modelling & Software, 45, 1-7(2013).

[30] Green DG, SadedinS. Interactions matter: Complexity in landscapes and ecosystems. Ecological Complexity, 2, 117-130(2005).

[31] GrimmV. Ten years of individual-based modelling in ecology: What have we learned and what could we learn in the future?. Ecological Modelling, 115, 129-148(1999).

[32] GrimmV, BergerU, BastiansenF et al. A standard protocol for describing individual-based and agent-based models. Ecological Modelling, 198, 115-126(2006).

[33] GrimmV, RevillaE, BergerU et al. Pattern-oriented modeling of agent-based complex systems: Lessons from ecology. Science, 310, 987(2005).

[34] HaaseD, HaaseA, KabischN et al. Actors and factors in land-use simulation: The challenge of urban shrinkage. Environmental Modelling & Software, 35, 92-103(2012).

[35] HaaseD, LautenbachS, SeppeltR. Modeling and simulating residential mobility in a shrinking city using an agent-based approach. Environmental Modelling & Software, 25, 1225-1240(2010).

[36] Huang QX, Parker DC, Sun SP et al. Effects of agent heterogeneity in the presence of a land-market: A systematic test in an agent-based laboratory. Computers Environment and Urban Systems, 41, 188-203(2013).

[37] Janssen MA, Alessa L Ni, BartonM et al. Towards a community framework for agent-based modelling. Journal of Artificial Societies and Social Simulation, 11, 6(2008).

[38] Johnson PA, Sieber RE. Negotiating constraints to the adoption of agent-based modeling in tourism planning. Environment and Planning B-Planning & Design, 38, 307-321(2011).

[39] Johnston KM. Agent-based Modeling in ArcGIS.(2013).

[40] KocabasV, DragicevicS. Agent-based model validation using Bayesian networks and vector spatial data. Environment and Planning B-Planning & Design, 36, 787-801(2009).

[41] LaatabiA, MarilleauN, Nguyen-HuuT et al. ODD+ 2D: An ODD based protocol for mapping data to empirical ABMs. Journal of Artificial Societies and Social Simulation, 21, 1-9(2018).

[42] Lambin EF, Geist HJ. Land-use and land-cover change: Local processes and global impacts. Springer Science &. Business Media.(2006).

[43] Le PageC, BazileD, BecuN et al. Agent-based modelling and simulation applied to environmental management. In: Edmonds B, Meyer R (eds.). Simulating Social Complexity: A Handbook, 499-540(2013).

[44] Le QB, Park SJ, Vlek P LG et al. Land-Use Dynamic Simulator (LUDAS): A multi-agent system model for simulating spatio-temporal dynamics of coupled human-landscape system: I. Structure and theoretical specification. Ecological Informatics, 3, 135-153(2008).

[45] Li SY, LiX, Liu XP et al. Simulation of spatial population dynamics based on labor economics and multi-agent systems: A case study on a rapidly developing manufacturing metropolis. International Journal of Geographical Information Science, 27, 2410-2435(2013).

[46] Li SY, Liu XP, LiX et al. Simulation model of land use dynamics and application: Progress and prospects. Journal of Remote Sensing, 21, 329-340(2017).

[47] LiX, Liu XP. Defining agents’ behaviors to simulate complex residential development using multicriteria evaluation. Journal of Environmental Management, 85, 1063-1075(2007).

[48] LiX, Liu XP. Embedding sustainable development strategies in agent-based models for use as a planning tool. International Journal of Geographical Information Science, 22, 21-45(2008).

[49] Little LR, Punt AE, Mapstone BD et al. An agent-based model for simulating trading of multi-species fisheries quota. Ecological Modelling, 220, 3404-3412(2009).

[50] Liu XP, LiX, Yeh A GO. Multi-agent systems for simulating spatial decision behaviors and land-use dynamics. Science in China Series D-Earth Sciences, 49, 1184-1194(2006).

[51] MüllerD, Munroe DK. Current and future challenges in land-use science. Journal of Land Use Science, 9, 133-142(2014).

[52] Macal CM, North MJ. Tutorial on agent-based modelling and simulation. Journal of Simulation, 4, 151-162(2010).

[53] MaglioccaN, SafirovaE, McConnellV et al. An economic agent-based model of coupled housing and land markets (CHALMS). Computers, Environment and Urban Systems, 35, 183-191(2011).

[54] Mao XY, Meng JJ, WangQ. Modeling the effects of tourism and land regulation on land-use change in tourist regions: A case study of the Lijiang River Basin in Guilin, China. Land Use Policy, 41, 368-377(2014).

[55] MullerB, BohnF, DresslerG et al. Describing human decisions in agent-based models-ODD plus D, an extension of the ODD protocol. Environmental Modelling & Software, 48, 37-48(2013).

[56] Murray-RustD, Robinson DT, GuillemE et al. An open framework for agent based modelling of agricultural land use change. Environmental Modelling & Software, 61, 19-38(2014).

[57] National ResearchCouncil. Advancing Land Change Modeling: Opportunities and Research Requirements(2014).

[58] North MJ, Macal CM. Managing Business Complexity: Discovering Strategic Solutions with Agent-based Modeling and Simulation(2007).

[59] O'SullivanD, EvansT, MansonS et al. Strategic directions for agent-based modeling: Avoiding the YAAWN syndrome. Journal of Land Use Science, 11, 177-187(2016).

[60] Parker DC, Brown DG, Polhill J G et al. Illustrating a new conceptual design pattern for agent-based models of land use via five case studies: The MR POTATOHEAD framework. In: Paredes A L, Iglesias C H (eds). Agent-Based Modelling in Natural Resource Management, 23-51(2008).

[61] Parker DC, FilatovaT. A conceptual design for a bilateral agent-based land market with heterogeneous economic agents. Computers Environment and Urban Systems, 32, 454-463(2008).

[62] Parker DC, Manson SM, Janssen MA et al. Multi-agent systems for the simulation of land-use and land-cover change: A review. Annals of the Association of American Geographers, 93, 314-337(2003).

[63] PerezL, DragicevicS. Modeling mountain pine beetle infestation with an agent-based approach at two spatial scales. Environmental Modelling & Software, 25, 223-236(2010).

[64] Robinson DT, Sun SP, HutchinsM et al. Effects of land markets and land management on ecosystem function: A framework for modelling exurban land-change. Environmental Modelling & Software, 45, 129-140(2013).

[65] RounsevellM, ArnethA, BrownD et al. Incorporating human behaviour and decision making processes in land use and climate system models. GLP Report.(2012).

[66] Rounsevell M DA, ArnethA, AlexanderP et al. Towards decision-based global land use models for improved understanding of the Earth system. Earth System Dynamics, 5, 117-137(2014).

[67] SchluterM, Pahl-WostlC. Mechanisms of resilience in common-pool resource management systems: An agent-based model of water use in a river basin. Ecology and Society, 12, 23(2007).

[68] SchmitC, Rounsevell M DA. Are agricultural land use patterns influenced by farmer imitation?. Agriculture Ecosystems & Environment, 115, 113-127(2006).

[69] SchreinemachersP, BergerT. An agent-based simulation model of human-environment interactions in agricultural systems. Environmental Modelling & Software, 26, 845-859(2011).

[70] SchulzeJ, MüllerB, GroeneveldJ et al. Agent-based modelling of social-ecological systems: Achievements, challenges, and a way forward. Journal of Artificial Societies and Social Simulation, 20(2017).

[71] Shin JK, FossettM. Residential segregation by hill-climbing agents on the potential landscape. Advances in Complex Systems, 11, 875-899(2008).

[72] Sun SP, Parker DC, Huang QX et al. Market impacts on land-use change: An agent-based experiment. Annals of the Association of American Geographers, 104, 460-484(2014).

[73] Sun ZL, MullerD. A framework for modeling payments for ecosystem services with agent-based models, Bayesian belief networks and opinion dynamics models. Environmental Modelling & Software, 45, 15-28(2013).

[74] Tan RH, Liu YL, Zhou KH et al. A game-theory based agent-cellular model for use in urban growth simulation: A case study of the rapidly urbanizing Wuhan area of central China. Computers Environment and Urban Systems, 49, 15-29(2015).

[75] Tian GJ, QiaoZ. Modeling urban expansion policy scenarios using an agent-based approach for Guangzhou Metropolitan Region of China. Ecology and Society, 19, 14(2014).

[76] Topping CJ, Hoye TT, Olesen CR. Opening the black box: Development, testing and documentation of a mechanistically rich agent-based model. Ecological Modelling, 221, 245-255(2010).

[77] Turner BL, Lambin EF, ReenbergA. The emergence of land change science for global environmental change and sustainability. Proceedings of the National Academy of Sciences of the United States of America, 104, 20666-20671(2007).

[78] ValbuenaD, Bregt AK, McAlpineC et al. An agent-based approach to explore the effect of voluntary mechanisms on land use change: A case in rural Queensland, Australia. Journal of Environmental Management, 91, 2615-2625(2010).

[79] ValbuenaD, VerburgP, VeldkampA et al. Effects of farmers’ decisions on the landscape structure of a Dutch rural region: An agent-based approach. Landscape and Urban Planning, 97, 98-110(2010).

[80] ValbuenaD, Verburg PH, Bregt AK et al. An agent-based approach to model land-use change at a regional scale. Landscape Ecology, 25, 185-199(2010).

[81] van VlietJ, Bregt AK, Brown DG et al. A review of current calibration and validation practices in land-change modeling. Environmental Modelling & Software, 82, 174-182(2016).

[82] Verburg PH, AlexanderP, EvansT et al. Beyond land cover change: Towards a new generation of land use models. Current Opinion in Environmental Sustainability, 38, 77-85(2019).

[83] Verburg PH, CrossmanN, Ellis EC et al. Land system science and sustainable development of the earth system: A global land project perspective. Anthropocene, 12, 29-41(2015).

[84] Verburg PH, ErbK-H, MertzO et al. Land system science: Between global challenges and local realities. Current Opinion in Environmental Sustainability, 5, 433-437(2013).

[85] Verburg PH, Schot PP, Dijst MJ et al. Land use change modelling: Current practice and research priorities. GeoJournal, 61, 309-324(2004).

[86] Villamor GB, NoordwijkM. Gender specific land-use decisions and implications for ecosystem services in semi-matrilineal Sumatra. Global Environmental Change-Human and Policy Dimensions, 39, 69-80(2016).

[87] WahyudiA, LiuY, CorcoranJ. Generating different urban land configurations based on heterogeneous decisions of private land developers: An agent-based approach in a developing country context. ISPRS International Journal of Geo-Information, 8, 229(2019).

[88] WolframS. A New Kind of Science. Wolfram Media Champaign.(2002).

[89] Yang WS. Construction and application of an agent-based regional land use change model (APUS): A case study in Tongdu Town, Kunming. Guangzhou: Sun Yat-sen University(2019).

[90] Yu QY, Wu WB, Tang HJ et al. Complex system theory and agent-based modeling: Progresses in land change science. Acta Geographica Sinica, 66, 1518-1530(2011).

[91] Zhang HH, Zeng YN, BianL. Simulating multi-objective spatial optimization allocation of land use based on the integration of multi-agent system and genetic algorithm. International Journal of Environmental Research, 4, 765-776(2010).

[92] Zhou CH, OuY, MaT et al. Theoretical perspectives of CA-based geographical system modeling. Progress in Geography, 28, 833-838(2009).