@inproceedings{SzczepanskaPriebeSchroeder, author = {Szczepanska, Timo and Priebe, Max and Schr{\"o}der, Tobias}, title = {Teaching the Complexity of Urban Systems with Participatory Social Simulation}, series = {Advances in Social Simulation}, booktitle = {Advances in Social Simulation}, publisher = {Springer}, address = {Cham}, isbn = {978-3-030-34127-5}, doi = {10.1007/978-3-030-34127-5_43}, pages = {427 -- 439}, abstract = {We describe how we use social simulation as a core method in a new master's program designed to teach future leaders of urban change to deal with the complexity inherent in current societal transformations. We start by depicting the challenges with regard to cross-disciplinary knowledge integration and overcoming value-based, rigid thinking styles that inevitably arise in the process of solving ecological, technological, or social problems in cities new and old. Next, we describe a course based on urban modeling and participatory approaches, designed to meet those challenges. We reflect on our first experience with this approach and discuss future developments and research needs.}, subject = {Verst{\"a}dterung}, language = {en} } @article{SzczepanskaPriebeHigietal., author = {Szczepanska, Timo and Priebe, Max and Higi, Leonard and Schr{\"o}der, Tobias}, title = {PaSyMo: Gamifying Communicative Urban Planning With Participatory Systems Modeling}, series = {Urban Planning}, volume = {11}, journal = {Urban Planning}, publisher = {Cogitatio Press}, address = {Lisbon}, issn = {2183-7635}, doi = {10.17645/up.10778}, pages = {20}, abstract = {Urban planning increasingly requires navigating complex socio-spatial dynamics and uncertainties, particularly when addressing social challenges where stakeholders hold diverse perspectives and knowledge. This article introduces PaSyMo (Participatory Systems Modeling), a gamified communication support system designed to assist urban planners in communicative and deliberative planning. PaSyMo integrates three conceptual pillars that guided its design: stakeholder engagement, participatory agent-based modeling (ABM), and visualization on tangible interfaces. The system combines a simulation environment grounded in geodata and ABM with discursive elements from scenario workshops and role-playing games, bridging digital and non-digital formats. PaSyMo contributes to the growing field of GAM research (Games and Agent-based Modeling; Szczepanska et al., 2022) by providing a framework that explores the integration of gaming mechanics with urban simulation tools, highlighting their potential to support sustainable urban planning. The approach draws from participatory modeling (Sterling et al., 2019; Voinov \& Bousquet, 2010) while leveraging state-of-the-art geospatial simulation and interactive interfaces to facilitate communication and co-production of knowledge among diverse stakeholders. Exploratory findings suggest that combining gaming experience with geospatial data visualization and ABM offers a promising approach to communicate the potential implications and trade-offs of urban planning initiatives. This integration enhances stakeholder engagement, promotes shared understanding, and supports consensus building. By making urban planning processes more interactive, PaSyMo can extend the impact of planning research beyond academic settings. Preliminary insights indicate that PaSyMo can enhance stakeholder understanding, knowledge integration, consensus-building, and proactive planning, especially in contexts of decision-making in complex and uncertain situations; however, these findings need to be substantiated in future studies.}, subject = {Modellierung}, language = {en} }