« Not in My Back Yard (NIMBY): Mathematical and Computational Tools for Decision Making
June 10, 2018 - June 14, 2018
Location:
Hoffmann House
Muhlenberg College
325 N 23rd Street
Allentown PA
Organizer(s):
Margaret (Midge) Cozzens, DIMACS
Eugene Fiorini, Muhlenberg College
Contact(s):
Margaret (Midge) Cozzens, DIMACS
CoRE Building
96 Frelinghuysen Road
Piscataway, NJ 08854
E: mcozzens@dimacs.rutgers.edu
V: 848-445-4573
Not in My Backyard explores how mathematical tools can be used to consider social and environmental justice when making decisions like where to put a toxic waste dump. Often such facilities are located in economically depressed areas, based on priorities that further disadvantage those who are already disadvantaged.
Similar to issues of toxic waste are issues of destruction of views such as the building of dunes along the Atlantic Ocean and others. For example, some residents and businesses of Cape Cod, Martha’s Vineyard have opposed the construction of Cape Wind, a proposed offshore Wind farm in Nantucket Sound. Proponents cite the environmental, economic, and energy security, the benefits of clean renewable energy, while opponents are against any obstruction to the views from oceanfront vacation homes and tourist destinations based in the region. Similar to the situation in Nantucket Sound, Mass., a minority of residents in St. Lucie County, Florida have vehemently opposed the construction of wind turbines in the county. The construction of the wind turbines is strongly supported by over 80% of county residents according to a 2008 Florida Power and Light poll. Additionally, the power company proposed building the turbines in a location on a beach near a prior existing nuclear power plant owned by the company
The workshop will provide background in decision theory and discuss recent developments that emphasize the role of discrete mathematics in decision theory. It focuses on three topics which directly apply to NIMBY issues. The first is the transitive simple majorities problem of determining the maximum number of linear orders on n candidates that prevent the occurrence of cyclic majorities when voters’ preferences are confined to those orders. The second involves the varieties of unique solutions to simple systems of n - 1 linearly independent homogeneous linear equations in n variables of types that arise from qualitative equivalence comparisons in the measurement of subjective probabilities and utility differences. The third topic describes a computer-efficient hierarchy of stochastic-dominance relations for comparisons of risky alternatives whose outcomes lie in a unidimensional set of evenly spaced points.
This workshop will expose faculty teaching undergraduates to current applications of mathematical and computational sciences and present recent research in related areas. The topic will be presented over the course of 3.5 days in series of lectures and activities; participants will be involved in research activities that they and their students can continue with after the workshop. This workshop will be conducted in the style of our popular Reconnect workshops.
Anyone may apply to attend the workshop. Preference will be given to faculty whose primary job is undergraduate teaching and those working at government labs. Two-year college faculty are welcome to apply. Teachers from groups not well represented in mathematics are especially encouraged to apply.
Applications are available online and will be reviewed as they are received. The deadline for applications is April 2, 2018.
Those who are selected to attend are expected to stay for the entire 5-day program. They are also expected to complete their written classroom materials by the end of the year (Dec. 31, 2018) in which this workshop is held.
Accepted participants from US academic institutions: registration, lodging in a single room, and meals will be provided at no charge. Limited funds are expected to be available to provide partial support for travel.
Presented in association with the Mathematics of Planet Earth 2013+ Program and the Reconnect Program.