Authors: Stephen Akuma, Isaac Terngu Adom, Evelyn Doofan Akuma

Abstract:

Generation after generation of humans has experienced conflicts leading to needless deaths. Usually, it begins as a minor argument that occasionally escalates into a full-fledged conflict. There has been a lingering crisis in the Lake Chad Basin (LCB) of Africa for over a decade leading to bloodshed that has claimed thousands of lives. The terrorist group, Boko Haram has claimed responsibility for these deaths. Efforts have been made by the governments in the LCB region to end the crisis through kinetic approaches, but the conflict persists. In this work, we explored non-kinetic methods used by social scientists in resolving conflicts, with a focus on computational approaches due to the increasing processing power of the computer. Firstly, we reviewed the innovative computational methods available for researchers working on conflict, violence, and peace. Secondly, we described how an Agent-Based Model (ABM) can be linked with a Geographic Information System (GIS) to model the LCB. Finally, this research discusses the challenges and opportunities in constructing a Geographic Information System linked Agent-Based Model of the LCB region.

Keywords: Agent-based modelling, conflict, Geographical Information Systems, Lake Chad Basin, simulation.

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 62

References:

[1] A. Burger et al, "Computational social science of disasters: Opportunities and challenges," Future Internet, vol. 11, (5), 2019.
[2] C. Claudio, Introduction to Computational Social Science: Principles and Applications. Springer Publishing Company, Incorporated, 2014.
[3] R. Aydoğan, T. Baarslag and E. Gerding, "Artificial Intelligence Techniques for Conflict Resolution," Group Decis. Negot., vol. 30, (4), pp. 879-883, 2021.
[4] I. Amaral, "Computational social sciences," Cham: Springer., pp. 1-3, 2017.
[5] F. Onuoha, "Why do youth join boko haram? united states institute of peace special report." 2014.
[6] M. J. Watts, "Frontiers: Authority, Precarity, and Insurgency at the Edge of the State," World Dev., vol. 101, pp. 477-488, 2018.
[7] E. Deutschmann, "Between Collaboration and Disobedience: The Behavior of the Guantánamo Detainees and its Consequences," J. Confl. Resolut., vol. 60, (3), pp. 555-582, 2014.
[8] J. Corburn et al, "A healing-centered approach to preventing urban gun violence: The Advance Peace Model," Hum. Soc. Sci. Comm, vol. 8, (1), 2021.
[9] U. A. Tar and M. Mustapha, "The emerging architecture of a regional security complex in the lake Chad basin," Afr. Develop., vol. 42, (3), pp. 99-118, 2017.
[10] M. T. Coe and J. A. Foley, "Human and Natural Impacts on the Water Resources of the Lake Chad Basin," Journal of Geophysical Research, pp. 3349-3356, 2001.
[11] C. N. Emeribe, C. U. Ezeh and A. W. Butu, "Climatic Water Balance Over Two Climatic Periods and Effect on Consumptive Water Need of Selected Crops in the Chad Basin, Nigeria," Agric. Res., vol. 10, (1), pp. 131-147, 2021.
[12] B. Klapper, "The U.S Warns of Link between Islamic State and Boko Haram," Washington Post, 2015.
[13] R. Kateřina, "Desiccation of Lake Chad as a cause of security instability in the Sahel region," GeoScape, vol. 11(2), pp. 112-120, 2017.
[14] B. Isah and S. W. Bitrus, "Economic Development and Security Challenges in the Lake Chad Basin," Journal of Global Research in Education and Social Science, vol. 15, pp. 16-23, 2021.
[15] J. Beese et al, "Simulation-Based Research in Information Systems - Epistemic Implications and a Review of the Status Quo," Bus Inf Syst Eng, vol. 61(4):503–521, pp. 503-521, 2018.
[16] D. Vakalis et al, "A GIS based operational system for wildland fire crisis management II. System architecture and case studies," Appl. Math. Model., vol. 28, (4), pp. 411-425, 2004.
[17] D. J. Medeiros, E. Swenson and C. DeFlitch, "Improving patient flow in a hospital emergency department," in Proceedings - Winter Simulation Conference, 2008, pp. 1526-1531.
[18] F. Fiedrich, "An HLA-based multiagent system for optimized resource allocation after strong earthquakes," in Proceedings - Winter Simulation Conference, 2006, pp. 486-492.
[19] H. Mueller and C. Rauh, "Reading between the lines: Prediction of political violence using newspaper text," Am. Polit. Sci. Rev., vol. 112, (2), pp. 358-375, 2018.
[20] T. Chadefaux, "Early warning signals for war in the news," J. Peace Res., vol. 51, (1), pp. 5-18, 2014.
[21] S. Schutte, "Regions at Risk: Predicting Conflict Zones in African Insurgencies," Political Science Research and Methods, vol. 5, October, 2014, 2016.
[22] R. A. Blair and N. Sambanis, "Forecasting Civil Wars: Theory and Structure in an Age of “Big Data” and Machine Learning," J. Confl. Resolut., vol. 64, (10), pp. 1885-1915, 2020.
[23] F. Lorig, E. Johansson and P. Davidsson, "Agent-based social simulation of the covid-19 pandemic: A systematic review," Jasss, vol. 24, (3), 2021.
[24] C. Lemos, H. Coelho and R. J. Lopes, "Agent-based modeling of social conflict, civil violence and revolution: State-of-the-art-review and further prospects," in CEUR Workshop Proceedings, 2013, pp. 124-138.
[25] M. Fonoberova et al, "An agent-based model of urban insurgence: Effect of gathering sites and Koopman mode analysis," PLoS ONE, vol. 13, (10), 2018.
[26] T. G. Martagan et al, "A simulation model of port operations during crisis conditions," in Proceedings - Winter Simulation Conference, 2009, pp. 2832-2843.
[27] P. Dihé et al, "An architecture for integrated crisis management simulation," in Proceedings of the 20th International Congress on Modelling and Simulation, 2013, pp. 1-6.
[28] R. A. Gonzalez, "Crisis response simulation combining discrete-event and agent-based modeling," in ISCRAM 2009 - 6th International Conference on Information Systems for Crisis Response and Management: Boundary Spanning Initiatives and New Perspectives, 2009.
[29] S. N. Hetu et al, "A simulation framework for crisis management: Design and use," Simul. Model. Pract. Theory, vol. 85, pp. 15-32, 2018.
[30] A. T. Crooks and S. Wise, "GIS and agent-based models for humanitarian assistance," Comput. Environ. Urban Syst., vol. 41, pp. 100-111, 2013.
[31] A. T. Crooks and A. B. Hailegiorgis, "An agent-based modeling approach applied to the spread of cholera," Environ. Model. Softw., vol. 62, pp. 164-177, 2014.
[32] A. Heppenstall et al, "Future Developments in Geographical Agent-Based Models: Challenges and Opportunities," Geogr. Anal., vol. 53, (1), pp. 76-91, 2021.
[33] S. F. Railsback and V. Grimm, Agent-Based and Individual Based Modelling: A Practical Introduction. Oxfordshire: Princeton university press., 2019.
[34] C. Perry, "Machine learning and conflict prediction: A use case," Stability, vol. 2, (3), 2013.
[35] D. -. Pham et al, "Reinforcement learning for two-aircraft conflict resolution in the presence of uncertainty," in RIVF 2019 - Proceedings: 2019 IEEE-RIVF International Conference on Computing and Communication Technologies, 2019, .
[36] D. Helbing et al, "Saving Human Lives: What Complexity Science and Information Systems can Contribute," J. Stat. Phys., vol. 158, (3), pp. 735-781, 2014.
[37] A. Zammit-Mangion et al, "Point process modelling of the Afghan War Diary," Proc. Natl. Acad. Sci. U. S. A., vol. 109, (31), pp. 12414-12419, 2012.
[38] L. -. Cederman and N. B. Weidmann, "Predicting armed conflict: Time to adjust our expectations?" Sci., vol. 355, (6324), pp. 474-476, 2017.
[39] P. Hun, "Practical Guides to Panel Data Modeling: A Step by Step Analysis using Stata." 2011.
[40] J. Ramón Gil-García and Y. Gabriel Puron-Cid, "Using Panel Data Techniques for Social Science Research: an Illustrative Case and Some Guidelines," CIENCIAERGO-s Um, vol. 21 (3), pp. 203-216, 2015.
[41] S. Jan, "Defence Expenditures in Western Countries: Panel Data Analysis." 2015.
[42] J. -. Tranchant, "Is regional autonomy a solution to ethnic conflict? Some lessons from a dynamic analysis," Peace Econ. Peace Sci. Public Policy, vol. 22, (4), pp. 449-460, 2016.
[43] P. Tarka, "An overview of structural equation modeling: Its beginnings, historical development, usefulness and controversies in the social sciences," Quality & Quantity, vol. 52(1), pp. 313, 2017.
[44] J. B. Schreiber, "Core reporting practices in structural equation modeling," Res. Soc. Adm. Pharm., vol. 4, (2), pp. 83-97, 2008.
[45] J. C. Westland, Structural Equation Modeling: From Paths to Networks. New York: Springer., 2015.
[46] C. Kesarat and I. Rinthaisong, "Structural equation model of conflict management between the government and citizens regarding marine and coastal areas development projects in southernmost provinces of Thailand," Kasetsart J. Soc. Sci., vol. 40, (3), pp. 727-734, 2019.
[47] P. M. Bentler and C. Chou, "Practical Issues in Structural Modeling," Sociological Methods & Research, vol. 16(1), pp. 78-117, 2016.
[48] C. Werner and K. Schermelleh-Engel, "Introduction to Structural Equation Modeling with LISREL," Dipl.-Psych.– Goethe University, Frankfurt, 2009.
[49] K. G. Mertens, I. Lorscheid and M. Meyer, "Using structural equation-based metamodeling for agent-based models," in Proceedings - Winter Simulation Conference, 2017, pp. 1372-1382.
[50] M. Grandjean, "A social network analysis of Twitter: Mapping the digital humanities community," Cogent Arts Humanity., vol. 3, (1), 2016.
[51] C. R. Kramer, Network Theory and Violent Conflicts. Basingstoke: Palgrave Macmillan., 2017.
[52] U. Devi and J. Srinvasan, "Social Network Analysis as Conflict Resolution Tool - A Practical Approach," Ssrn, vol. 12, 2011.
[53] M. A. Gomez, "All in the Family: The Influence of Social Networks on Dispute Processing (A Case Study of a Developing Economy)." 2007.
[54] S. Lee et al, "Dynamic-data-driven agent-based modeling for the prediction of evacuation behavior during hurricanes," Simul. Model. Pract. Theory, vol. 106, 2021.
[55] T. Marwala and M. Lagazio, Militarized Conflict Modeling using Computational. London: Springer-Verlag London Limited, 2011.
[56] S. Mishra, "Conflict Resolution Through Mutuality: Lessons from Bayesian Updating," Journal of Quantitative Economics, vol. 9, 2011.
[57] R. Hennigs, "Conflict prevention by Bayesian persuasion," J. Public Econ. Theory, vol. 23, (4), pp. 710-731, 2021.
[58] R. Chen and R. E. Guinness, "Geospatial Computing in Mobile Devices," Norwood, MA: Artech House. ISBN 978-1-60807-565-2., pp. 228, 2014.
[59] K. S. Gleditsch and N. B. Weidmann, "Richardson in the information age: Geographic information systems and spatial data in international studies," Annu. Rev. Polit. Sci., vol. 15, pp. 461-481, 2012.
[60] A. T. Crooks and C. J. E. Castle, "The integration of agent-based modelling and geographical information for geospatial simulation," in Agent-Based Models of Geographical Systems Anonymous 2012, pp. 219-251.
[61] S. Manson et al, "Methodological issues of spatial agent-based models," Jasss, vol. 23, (1), 2020.
[62] T. C. Schelling, "Models of Segregation," The American Economic, vol. 59(2), pp. 488-493, 1969.
[63] A. Waldher and N. Wijermans, "Modelling the role of social media at street protests," Adv. Intell. Sys. Comput., vol. 528, pp. 445-449, 2017.
[64] C. Lemos, R. J. Lopes and H. Coelho, "On Legitimacy Feedback Mechanisms in Agent-Based Modeling of Civil Violence," Int J Intell Syst, vol. 31, (2), pp. 106-127, 2016.
[65] M. Hare and P. Deadman, "Further towards a taxonomy of agent-based simulation models in environmental management," Math. Comput. Simul., vol. 64, (1), pp. 25-40, 2004.
[66] E. Ali, "Geographic Information System (GIS): Definition, Development, Applications & Components," Faculty of Geography, Ananda Chandra College, India, 2020.
[67] M. F. Goodchild, "GIS, spatial analysis, and modelling overview," in In D. J. Maguire, M. Batty, & M. F. Goodchild (Eds.), GIS, Spatial Analysis and Modelling. Anonymous Redlands:ESRI Press, 2005, pp. 1-18.
[68] D. J. Maguire, "Towards a GIS platform for spatial analysis and modelling," in In D. J. Maguire, M. Batty, & M. F. Goodchild (Eds.), GIS, Spatial Analysis and Modelling. Anonymous Redlands:ESRI Press, 2005,
[69] F. Khair and B. M. Sopha, "Evaluation of location and number of aid post for sustainable humanitarian relief using agent based modeling (ABM) and geographic information system (GIS)," in IOP Conference Series: Earth and Environmental Science, 2018.
[70] C. R. Paramasivam, "Merits and demerits of GIS and geostatistical techniques," in GIS and Geostatistical Techniques for Groundwater Science Anonymous 2019, pp. 17-21.
[71] C. Graeff and M. C. Loui, "Ethical implications of technical limitations in GIS," IEEE Technol. Soc. Mag., vol. 27, (4), pp. 27-36, 2008.
[72] M. Gahegan, "Our GIS is too small," Can. Geogr., vol. 62, (1), pp. 15-26, 2018.
[73] A. P. Vavatsikos, O. E. Demesouka and K. P. Anagnostopoulos, "GIS-based suitability analysis using fuzzy PROMETHEE," J. Environ. Plann. Manage., vol. 63, (4), pp. 604-628, 2020.
[74] T. B. Quillinan et al, "Developing agent-based organizational models for crisis management," in Proceedings of the International Joint Conference on Autonomous Agents and Multiagent Systems, AAMAS, 2009, pp. 1335-1341.
[75] H. Liu, E. A. Silva and Q. Wang, "Incorporating GIS data into an agent-based model to support planning policy making for the development of creative industries," J. Geogr. Syst., vol. 18, (3), pp. 205-228, 2016.
[76] C. Grueau and J. Araujo, "A framework to specify agent-based models in geographic sciences," in CEUR Workshop Proceedings, 2015.
[77] B. Davies et al, "Combining Geographic Information Systems and Agent-Based Models in Archaeology: Part 2 of 3," Adv. Archaeol. Pract., vol. 7, (2), pp. 185-193, 2019.
[78] T. C. Esteves, F. L. Alves and E. Vaz, "Coupling agent-based modelling with geographic information systems for environmental studies-a review," in Regional Intelligence: Spatial Analysis and Anthropogenic Regional Challenges in the Digital AgeAnonymous 2020, pp. 225-249.
[79] N. Alghais and D. Pullar, "Modelling future impacts of urban development in Kuwait with the use of ABM and GIS," Trans. GIS, vol. 22, (1), pp. 20-42, 2018.
[80] R. Nourqolipour and A. Shariff, "How agent-based modeling (ABM) can be linked to GIS for modeling land use and land cover change (lucc)," in Mrss 2010, Pwtc, Malaysia, 2009.
[81] B. Pires and A. Crooks, "The geography of conflict diamonds: The case of Sierra Leone," Lect. Notes Comput. Sci., vol. 9708 LNCS, pp. 335-345, 2016.
[82] P. Le Billon, "The political ecology of war: Natural resources and armed conflicts," Polit. Geogr., vol. 20, (5), pp. 561-584, 2001.
[83] The Chad Basin, a lifeline for people, nature and peace. Available: https://www.iucn.org/news/eau/201911/chad-basin-a-lifeline-people-natureandpeace#:~:text=The%20Chad%20basin%2C%20centred%20around,fishing%20thanks%20to%20the%20basin.
[84] F. Klügl and A. L. Bazzan, "Agent-Based Modeling and Simulation," Association for the AI Magazine, vol. 33(9), pp. 29, 2012.
[85] K. Wikstrom, H. Nelson and Z. Yang, "Agents in space: Validating ABM-GIS models," Adv. Intell. Sys. Comput., vol. 780, pp. 216-224, 2019.
[86] N. Malleson and A. Evans, "Agent-based models to predict crime places," in Bruinsma G., Weisburd D. (Eds) Encyclopedia of Criminology and Criminal Justice Anonymous Springer, New York, 2014.
[87] H. R. Parry and A. J. Evans, "A comparative analysis of parallel processing and super-individual methods for improving the computational performance of a large individual-based model," Ecol. Model., vol. 214, (2-4), pp. 141-152, 2008.
[88] O. Al-Bayari, "GIS cloud computing methodology," in CITS 2018 - 2018 International Conference on Computer, Information and Telecommunication Systems, 2018.E. H. Miller, “A note on reflector arrays (Periodical style—Accepted for publication),” World Academy of Science, Engineering and Technology Trans. Antennas Propagat., to be published.