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    Russ College of Engineering and Technology
    Stocker Center
    Athens, OH 45701

    Paul Deering

    Paul Deering
    Associate Professor
    Stocker Center 124B
    Engineering
    Engineering Technology and Management
    deering@ohio.edu
    740.593.2478

    Dr. Paul Deering is an associate professor in the Department of Engineering Technology and Management. He has taught many engineering and computer science courses for the Russ College of Engineering and Technology. His current research interest includes virtual desktop and virtual labs.

    Research Interests:virtual desktop and virtual labs

    All Degrees Earned:Ph.D., Integrated Engineering, Ohio University, 2000; M.S., Computer Science and Mathematics, Ohio University, 1988; B.S., Electrical Engineering, Ohio University, 1984

    Journal Article, Academic Journal (1)

    • Judd, R., Zhang, W., Deering, P. (2004). Necessary and Sufficient Conditions for Deadlocks in Flexible Manufacturing Systems Based on a Digraph Model. 2 . Asian Journal of Control; 6.

    Conference Proceeding (10)

    • Littell, N., Deering, P. (2016). Leveraging Automatic Identification and Data Capture in an Undergraduate Engineering Technology Capstone Course. . Columbus, OH: Capstone Design Conference Proceedings; http://capstoneconf.org/resources/2016%20Proceedings/Papers/0047.pdf .
    • Judd, R., Zhang, W., Deering, P. (2003). Evaluating Order of Circuits for Deadlock Avoidance in a Flexible Manufacturing system. Denver, CO: 2003 American Control Conference; 3679-3683.
    • Judd, R., Deering, P., Lipset, R. (2000). A Deadlock Avoidance and Scheduling Alforithm for Simulation of Product Flow in a Flexible Manufacturing System. Vancouver, BC: 2000 Summer Computer Simulation Conference; 797-802.
    • Judd, R., Zhang, W., Deering, P., Lipset, R. (2000). A Scalable Deadlock Avoidance Algorithm for Flexible Manufacturing Systems with Free Choice in Part Routing. Chicago, IL: 2000 American Control Conference; 3545-3548.
    • Judd, R., Zhang, W., Deering, P., Lipset, R. (1999). A Diagraph-Based Deadlock Avoidance Policy for Automated Manufacturing Systems with Multiple Capacity Resources. Chicago, IL: 1999 Summer Computer Simulation Conference.
    • Lipset, R., Judd, R., Deering, P., Zhang, W., Caw, J. (1999). Classification of Part Movements for Deadlock Avoidance in Manufacturing Systems. San Diego, CA: 1999 American Control Conference; 1971-1975.
    • Judd, R., Deering, P., Lipset, R. (1998). A Stack-Based Recursive Algorithm for Deadlock Avoidance in Simulations of Manufacturing Systems with Multiple Capacity Resources. Reno, NV: 1998 Summer Computer Simulation Conference; 33-38.
    • Deering, P., Judd, R. (1998). A Stack-Based Algorithm for Deadlock Avoidance in Flexible Manufacturing Systems. Philadelphia, PA: 1998 American Control Conference; 1252-1256.
    • Lipset, R., Deering, P., Judd, R. (1997). Deadlock Detection in Simulations of Manufacturing Systems. Arlington, VA: 1997 Summer Computer Simulation Conference; 317-322.
    • Lipset, R., Deering, P., Judd, R. (1997). Necessary and Sufficient Conditions for Deadlock in Manufacturing Systems. Albuquerque, NM: 1997 American Control Conference; 1022-1027.
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