Thomas C Sharkey
Assistant Professor Thomas Sharkey received his Ph.D. in Industrial and Systems Engineering from the University of Florida in August 2008, where he was supported by a National Science Foundation (NSF) Graduate Research Fellowship. His current research focuses on providing optimal and near-optimal solutions to new dynamic network optimization problems. He received an NSF CAREER award in 2012 to study new scheduling models for supply chain and restoration, construction, and redesign. In addition, he is also examining how the restoration efforts of interdependent infrastructures are linked after extreme events.
Ph.D. Industrial and Systems Engineering (University of Florida, 2008), M.S. Mathematical Sciences (Johns Hopkins University, B.S. Mathematical Sciences (Johns Hopkins University)
- J. Qiu and T.C. Sharkey. Integrated dynamic single facility location and inventory planning problems. <i>IIE Transactions</i>, 45(8): 883-895, 2013.
- B. Cavdaroglu, E. Hammel, J.E. Mitchell, T.C. Sharkey, and W.A. Wallace. Integrating restoration and scheduling decisions for disrupted interdependent infrastructure systems. <i>Annals of Operations Research</i>, 203(1): 279-294, 2013.
- S.G. Nurre, B. Cavdaroglu, J.E. Mitchell, T.C. Sharkey, and W.A. Wallace. Restoring infrastructure systems: An integrated network design and scheduling problem. <i>European Journal of Operational Research</i>, 223(3): 794-806, 2012.
- A. Malaviya, C. Rainwater, and T.C. Sharkey. Multi-period network interdiction problems with applications to city-level drug enforcement. <i>IIE Transactions</i>, 44(5): 368-380, 2012.
- T.C. Sharkey, H.E. Romeijn, and J. Geunes. A class of nonlinear nonseparable continuous knapsack and multiple-choice knapsack problems. <i>Mathematical Programming</i> 126(1): 69-96, 2011.