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Daniel D. Corkill: [Publications] [Author Rank by year] [Co-authors] [Prefers] [Cites] [Cited by]

Publications of Author

  1. Edmund H. Durfee, Victor R. Lesser, Daniel D. Corkill
    Coherent Cooperation Among Communicating Problem Solvers. [Citation Graph (3, 0)][DBLP]
    IEEE Trans. Computers, 1987, v:36, n:11, pp:1275-1291 [Journal]
  2. Edmund H. Durfee, Victor R. Lesser, Daniel D. Corkill
    Trends in Cooperative Distributed Problem Solving. [Citation Graph (3, 28)][DBLP]
    IEEE Trans. Knowl. Data Eng., 1989, v:1, n:1, pp:63-83 [Journal]
  3. Daniel D. Corkill, Kevin Q. Gallagher, Kelly Murray
    GBB: A Generic Blackboard Development System. [Citation Graph (2, 0)][DBLP]
    AAAI, 1986, pp:1008-1014 [Conf]
  4. Daniel D. Corkill, Victor R. Lesser
    The Use of Meta-Level Control for Coordination in a Distributed Problem Solving Network. [Citation Graph (2, 0)][DBLP]
    IJCAI, 1983, pp:748-756 [Conf]
  5. Daniel D. Corkill, Victor R. Lesser, Eva Hudlicka
    Unifying Data-Directed and Goal-Directed Control: An Example and Experiments. [Citation Graph (1, 0)][DBLP]
    AAAI, 1982, pp:143-147 [Conf]
  6. Victor R. Lesser, Daniel D. Corkill
    The Distributed Vehicle Monitoring Testbed: A Tool for Investigating Distributed Problem Solving Networks. [Citation Graph (1, 0)][DBLP]
    AI Magazine, 1983, v:4, n:3, pp:15-33 [Journal]
  7. Daniel D. Corkill, Kevin Q. Callagher
    Tuning a Blackboard-Based Application: A Case Study Using GBB. [Citation Graph (0, 0)][DBLP]
    AAAI, 1988, pp:671-676 [Conf]
  8. Daniel D. Corkill, Kevin Q. Gallagher, Philip M. Johnson
    Achieving Flexibility, Efficiency, and Generality in Blackboard Architectures. [Citation Graph (0, 0)][DBLP]
    AAAI, 1987, pp:18-23 [Conf]
  9. Jasmina Pavlin, Daniel D. Corkill
    Selective Abstraction of AI System Activity. [Citation Graph (0, 0)][DBLP]
    AAAI, 1984, pp:264-268 [Conf]
  10. Mark Sims, Daniel D. Corkill, Victor R. Lesser
    Separating Domain and Coordination in Multi-Agent Organizational Design and Instantiation. [Citation Graph (0, 0)][DBLP]
    IAT, 2004, pp:155-161 [Conf]
  11. Victor R. Lesser, Daniel D. Corkill, Jasmina Pavlin, Lawrence S. Lefkowitz, Eva Hudlicka, R. Brooks, S. Reed
    A High-Level simulation Testbed for cooperative distributed problem solving. [Citation Graph (0, 0)][DBLP]
    ICDCS, 1982, pp:341-350 [Conf]
  12. Daniel D. Corkill, Zachary B. Rubinstein, Susan E. Lander, Victor R. Lesser
    Live-Representation Process Management. [Citation Graph (0, 0)][DBLP]
    ICEIS (2), 2003, pp:202-208 [Conf]
  13. Edmund H. Durfee, Victor R. Lesser, Daniel D. Corkill
    Increasing Coherence in a Distributed Problem-Solving Network. [Citation Graph (0, 0)][DBLP]
    IJCAI, 1985, pp:1025-1030 [Conf]
  14. Victor R. Lesser, Daniel D. Corkill, Robert Whitehair, J. A. Hernandez
    Focus of Control Through Goal Relationships. [Citation Graph (0, 0)][DBLP]
    IJCAI, 1989, pp:497-503 [Conf]
  15. Ion Muslea, Virginia Dignum, Daniel D. Corkill, Catholijn M. Jonker, Frank Dignum, Silvia Coradeschi, Alessandro Saffiotti, Dan Fu, Jeff Orkin, William Cheetham, Kai Goebel, Piero P. Bonissone, Leen-Kiat Soh, Randolph M. Jones, Robert E. Wray III, Matthias Scheutz, Daniela Pucci de Farias, Shie Mannor, Georgios Theocharous, Doina Precup, Bamshad Mobasher, Sarabjot S. Anand, Bettina Berendt, Andreas Hotho, Hans W. Guesgen, Michael T. Rosenstein, Mohammad Ghavamzadeh
    The Workshop Program at the Nineteenth National Conference on Artificial Intelligence. [Citation Graph (0, 0)][DBLP]
    AI Magazine, 2005, v:26, n:1, pp:103-108 [Journal]
  16. Daniel D. Corkill
    Countdown to Success: Dynamic Objects, GBB, and RADARSAT-1. [Citation Graph (0, 0)][DBLP]
    Commun. ACM, 1997, v:40, n:5, pp:48-58 [Journal]
  17. Daniel D. Corkill
    Embedable Problem-Solving Architectures: A Study of Integrating OPS5 with UMass GBB. [Citation Graph (0, 2)][DBLP]
    IEEE Trans. Knowl. Data Eng., 1991, v:3, n:1, pp:18-24 [Journal]

  18. Determining confidence when integrating contributions from multiple agents. [Citation Graph (, )][DBLP]


  19. Using organization knowledge to improve routing performance in wireless multi-agent networks. [Citation Graph (, )][DBLP]


  20. Automated organization design for multi-agent systems. [Citation Graph (, )][DBLP]


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