Cutting Edge Lecture in Science: Negotiations over Groundwater Contamination

Event

Redpath Museum Auditorium, 859 rue Sherbrooke Ouest, Montreal, QC, H3A 0C4, CA
Price: 
FREE with admission to Museum

By Keith W. Hipel (Department of Systems Design Engineering, University of Waterloo). As former President of the Academy of Science, Royal society of Canada, Prof. Hipel will be presenting the Miroslaw Romanowski Lecture

ABSTRACT

The Graph Model for Conflict Resolution (GMCR) is applied to the explosive dispute that arose over the discovery of a carcinogen in the aquifer supplying water to the town of Elmira, located in Southern Ontario, Canada, to demonstrate how one can realistically investigate conflict in order to obtain strategic insights for supporting informed decision making. This highly divisive groundwater contamination conflict is utilized to explain a rich range of inherent capabilities of GMCR, as well as worthwhile avenues for extensions, which make GMCR a truly powerful decision technology for addressing challenging conflict situations. Moreover, the crucial importance of scientifically taking into account both the societal and physical systems aspects of this complex problem is emphasized within an interdisciplinary system of systems thinking perspective. A flexible preference elicitation method, called option prioritization, is employed to obtain the relative preferences of each decision maker (DM) in the dispute over the states or scenarios which can occur, based upon naturally expressed preference statements regarding the options or courses of actions available to the DMs. Solution concepts, reflecting how a chess player thinks in terms of moves and counter-moves, are utilized to mirror the ways humans may behave under conflict, varying from short to long term thinking and from risk-averse to risk-seeking outlooks. After ascertaining the best outcome that a DM can achieve on his or her own in a conflict, coalition analysis is used to check if a DM can fare even better by cooperating with others. For the Elmira dispute, potential equilibria or compromise resolutions are predicted and the reasons for the decision of two of the disputants to form a coalition and bring about a dramatic resolution to the conflict are explained. The ability of GMCR to capture emotions, strength of preference, attitudes, misunderstandings (referred to as hypergames), and uncertain preferences (unknown, fuzzy, grey and probabilistic), greatly broadens its scope of applicability. Techniques for tracing how a conflict can evolve over time from a status quo state to a final specified outcome, as well as how to handle hierarchical structures, such as when a central government interacts with its provinces or states, further enforce the comprehensive nature of GMCR. In fact, an Artificial Intelligence algorithm is available to determine how DMs in a conflict must think in terms of preference in order to reach a desirable outcome in what is called the inverse engineering problem. Learning how DMs may think allows creativity in purposefully directing a dispute towards a win/win resolution.

BIOGRAPHY

Keith W. Hipel is University Professor of Systems Design Engineering at the University of Waterloo where he is Coordinator of the Conflict Analysis Group. He is Former President of the Academy of Science within the Royal Society of Canada, Senior Fellow of the Centre for International Governance Innovation, Fellow of the Balsillie School of International Affairs, and Past-Chair of the Board of Governors of Renison University College. Dr. Hipel thoroughly enjoys mentoring students and is a recipient of the Distinguished Teacher Award, Faculty of Engineering Teaching Excellence Award, and the Award of Excellence in Graduate Supervision from the University of Waterloo, as well as the Outstanding Engineering Educator Award from IEEE Canada. His major research interests are the development of conflict resolution, multiple criteria decision analysis, time series analysis and other decision-making methodologies for addressing complex interdisciplinary system of systems engineering problems lying at the confluence of society, technology and the environment, with applications in water resources management, hydrology, environmental engineering, energy, and sustainable development. Prof. Hipel is the author or co-author of 5 books, 12 edited books, more than 325 journal papers, as well as many conference and encyclopedia articles (over 14,100 citations; H-index = 55, i10-index = 260). Dr. Hipel is the recipient of the Officer of the Order of Canada title; Japan Society for the Promotion of Science (JSPS) Eminent Scientist Award; Joseph G. Wohl Outstanding Career Award from the IEEE Systems, Man and Cybernetics (SMC) Society; IEEE SMC Norbert Wiener Award; three Honorary Doctorate degrees (France, Hungary, Canada); Miroslaw Romanowski Medal and the Sir John William Dawson Medal (Royal Society of Canada); Ven Te Chow Award from the Environmental and Water Resources Institute, American Society of Civil Engineers; Jiangsu Friendship Medal; Engineering Medal for Research and Development from Professional Engineers Ontario; and Foreign Member designation of the National Academy of Engineering of the United States of America.