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REFERENCES
- Aikens, J.S., J.C. Kunz, and E.H. Shortliffe, PUFF: an expert system for interpretation of
- pulmonary function data, Computers and Biomedical Research, Vol. 16, pp. 199-208, 1983.
- Arentoft, M., et al., OPTIMUM-AIV: a planning and scheduling system for spacecraft AIV,
- 1991 Goddard Conference on Space Applications of Artificial Intelligence, NASA Publication 3110, pp. 3-13, May 13-15, 1991.
- Arai, K., Y. Yamashita, and R. Mizoguchi, Shell for signal interpretation expert systems, Expert
- Systems with Applications, Vol. 5, No. 3-4, pp. 219-232, 1992.
- Carnes, J. and D. Cutts, FMEAssist: a knowledge-based approach to failure modes and effects
- analysis, Third Conference on Artificial Intelligence for Space Applications, Part 1, NASA Conference Publication 2492, pp. 187-191, Nov. 2-3, 1987.
- Chang, G., C. Chin, and N. Kartam, Selection of expert system shells for traffic signal
- design, Journal of Advanced Transportation, Vol. 26, No. 3, pp. 241-273, Winter 1992.
- Citrenbaum, R., J.R. Geissman, and R. Schultz, Selecting a shell, AI Expert, pp. 30-39, Sept.
- 1987.
- Cowles, S., L. Fesq, A. Stephan, and E. Wild, Expert systems: a new approach to spacecraft
- autonomy, TRW Space & Defense Quest, pp. 33-49, Summer 1990.
- Daqing, H., M. McLeish, and A. Zhi, A decision support system for expert system shell evaluation
- and selection, Proceedings of Moving Towards Expert Systems Globally in the 21st Century, Lisbon/Estoril, Portugal, Publisher: Cognizant Commun. Corp., Elmsford, NY, pp. 768-74, Jan. 10-14, 1994.
- Darwiche, A., R. Levitt, and B. Hayes-Roth, OARPLAN: generating project plans by reasoning
- about objects, actions and resources, Artificial Intelligence for Engineering Design, Analysis and Manufacturing, Vol. 2, No. 3, 1989.
- Devedzic, V. and R. Krtolica, Development of an expert system shell for robotics and FMS
- applications, Proceedings of the IASTED International Symposium. Expert Systems Theory and Applications, Zurich, Switzerland, pp. 205-7, June 26-28, 1989.
- Devedzic, V. and D. Velasevic, Implementing a real-time expert system shell, ICARCV '92,
- Second International Conference on Automation, Robotics and Computer Vision, Nanyang Technol. Univ., Singapore, IEE, Inst. Meas. & Control, Econom., Vol. 3, pp. 1-5, Sept. 16-18, 1992.
- Doyle, R.J., A truth maintenance system, Artificial Intelligence, Vol. 12, 1979.
- Doyle, R.J., S.M. Sellers, and D.J. Atkinson, Predictive monitoring based on causal
- simulation, Proceedings of the Second Annual Research Forum, Moffett Field, CA: NASA Ames Research Center, pp. 44-59, 1987.
- Durkin, J., Expert Systems: Catalog of Applications, Intelligent Computer Systems, P.O. Box
- 4117, Akron, OH 44321-0117, 1993.
- Erickson, W. and M. Rudokas, MTK: an AI tool for model-based reasoning, Third Conference
- on Artificial Intelligence for Space Applications, Part 2, NASA Conference Publication 2492, pp. 1-5, Nov. 2-3, 1987.
- Evans, R.B. and R.D. Sanders, ORBIS-a tool for simulation development, Proceedings of
- the 1994 Summer Computer Simulation Conference, 26th Annual Summer Computer Simulation Conference, SCS, San Diego, CA, pp. 501-6, July 18-20, 1994.
- Fayyad, U, G. Piatesky-Shapiro, and P. Smyth, From data mining to knowledge discovery in
- databases, AI Magazine, Vol. 17, No. 3, pp. 37-54, Fall, 1996.
- Fohn, S.M., A.R. Greef, R.E. Young, and P.J. O'Grady, A constraint-system shell to
- support concurrent engineering approaches to design, Artificial Intelligence in Engineering, Vol. 9, Iss. 1, pp. 1-17, 1994.
- Forgy, C., The OPS languages: an historical overview, PC AI, Vol. 9, No. 5, pp. 16-21,
- Sept./Oct., 1995.
- Freedman, R., 27-product wrap-up: evaluating shells, AI Expert, pp. 69-74, Sept., 1987.
- Fujita, S., M. Otsubo, and M. Watanabe, Intelligent control shell for CAD tools,
- Proceedings of the 10th Conference on Artificial Intelligence for Applications, San Antonio, TX, IEEE Technical Committee on Pattern Analysis and Machine Intelligence, pp. 16-22, 1994.
- Gevarter, W.B., The nature and evaluation of commercial expert system building tools, IEEE
- Computer, pp. 24-41, May, 1987.
- Gini, G. and P. Sassaroli, PRODE: a shell for industrial diagnosis, Expert Systems with
- Applications
, Vol. 8, No. 1, pp. 67-76, Jan.-Mar., 1995.
- Golden, C.J., Automating satellite control and telemetry networks, Proc. Intern. Telemetering
- Conf.
, San Diego, CA, pp. 503-508, Oct. 26-29, 1987.
- Hall, C., The intelligent software development tools market -- part 1, Intelligent Software
- Strategies, Vol. 12, No. 2, pp. 1-12, 1996. Cutter Information Corp., 37 Broadway, Ste. 1, Arlington, MA 02174-5500.
- Harmon, P. and B. Sawyer, Creating Expert Systems for Business and Industry, John Wiley,
- New York, NY, 1990.
- Harmon, P., The market for expert systems building tools, Intelligent Software Strategies, Vol.
- 9, No. 2, pp. 3-13, 1993. See reference (Hall, 1996) for the publisher's address.
- Harmon, P., The size of the commercial AI market, Intelligent Software Strategies, Vol. 10,
- No. 1, pp. 1-6, 1994. See reference (Hall 1996) for the publisher's address.
- Hayes-Roth, F., D. Waterman, and D. Lenat, Building Expert Systems, Addison-Wesley,
- Reading, MA, 1984.
- Hori, S., K. Ide, Y. Nakayama, and K. Otsubo, D-IAL: a diagnostic expert shell with
- plausible reasoning mechanism, Systems and Computers in Japan, Vol. 23, No. 11, pp. 1565-1573, 1992.
- Ivashchenko, K.I., B.S. Kirsanov, and E.V. Popov, An expert domain-specific shell for the
- computer-aided evaluation of the state of hydraulic structures, Journal of Computer and Systems Sciences International, Vol. 32, Iss. 3, pp. 148-54, May-June, 1994,
- Kartman, N. and R. Levitt, Intelligent planning of construction projects with repeated cycles
- of operation, ASCE Jour. of Computing in Civil Engineering, Vol. 4, 1990.
- Kim, C.S. and Y. Yoon, Selection of a good expert system shell for instructional purposes in
- business, Corrosion Science, Vol. 33, No. 12, pp. 249, Dec., 1992.
- Langley, W., M.B. Zaremba, and I. Popescu, Graphics-oriented expert shell for the design and
- configuration of distributed control systems, Control Engineering Practice, Vol. 3, Iss. 4, pp. 555-9, April, 1995.
- Lipiatt, T.F. and D. Waterman, Potential applications of expert systems and operations research to
- space station logistics functions, NASA Report CR-180473, June, 1985.
- MacCallum K.J., A knowledge base for engineering design relationships, in Proceedings of
- British Computer Society Expert Systems Group Technical Conference the Theory and Practice of Knowledge Based Systems
, Brunel University, pp. 65-66, September, 1982.
- Marshall, G., T. Barber, and J. Boardman, A methodology for modelling a project
- management control environment, IEEE Proc., Vol. 134, 1987.
- Martin, A. and R.K. Law, Expert system for selecting expert system shells, Information and
- Software Technology, Vol. 30, No. 10, pp. 579-586, Dec., 1988.
- McLean, D., A. Tuchman, and W. Potter, Using C to build a satellite scheduling expert system:
- examples from the explorer platform planning system, 1991 Goddard Conference on Space Applications of Artificial Intelligence, NASA Publication 3110, pp. 59-69, May 13-15, 1991.
- Navinchandra, D., D. Sriram, and R. Logcher, GHOST: a project network generator, ASCE
- Jour. of Computing in Civil Engineering, Vol. 2, No. 3, 1988.
- PC AI, Product Update, Vol. 4, No. 3, pp. 10, May/June, 1990.
- Plant, R.T. and J.P. Salinas, Expert systems shell benchmarks: the missing comparison factor,
- Information and Management, (Netherlands), Vol. 27, Iss. 2, pp. 89-101, Aug., 1994.
- Press, L., Expert system benchmarks, IEEE Expert, pp. 37-44, 1989.
- Reichgelt, H. and F. van Harmelen, Criteria for choosing representation languages and
- control regimes for expert systems, The Knowledge Engineering Review, Vol. 1, No. 4, 1986.
- Reinhardt, B. and S. Schewe, A shell for intelligent tutoring systems, Artificial Intelligence in
- Education, 1995, Proceedings of AI-ED 95 -- 7th World Conference on Artificial Intelligence in Education, Assoc. Advancement of Comput. Edu., Washington, D.C., pp. 83-90, 1995.
- Rushinek, A., Expert system shells (ES) case study: a product evaluation and selection
- system (PESS) for microcomputer users, vendors and consultants need assessment, Economic Computation and Economic Cybernetics Studies and Research, Vol. 28, Iss. 1-4, pp. 53-63, 1994.
- Shortliffe, E.H., Computer-Based Medical Consultation, MYCIN, American Elsevier, New
- York, 1976.
- Solotorevsky, G., E. Gudes, and A. Meisels, CSP and rule-based approaches for solving a
- real-life scheduling problem, Proc. Moving Towards Expert Systems Globally in the 21st Century, Lisbon/Estoril, Portugal, pp. 298-305, Jan. 10-14, 1994.
- Stylianou, A.C., R.D. Smith, and G.R. Madey, An empirical model for the evaluation and
- selection of expert system shells, Expert Systems With Applications, Vol. 8, No. 1, pp. 143-155, 1995.
- Thalman, N. and T. Sparn, SURE: A science planning scheduling assistant for a resource
- based environment, Goddard Conference on Space Applications of Artificial Intelligence, NASA Publication 3068, pp. 75-93, May 1-2, 1990.
- Turksen, I.B., T. Yurtsever, and K. Demirli, Fuzzy expert system shell for scheduling,
- Proceedings of the SPIE -- The International Society for Optical Engineering, Boston, MA, Vol. 2061, pp. 308-19, Sept. 8-10, 1993.
- van Melle, W., A domain-independent production-rule system for consultation programs,
- Proceedings IJCAI-79, pp. 923-925, 1979.
- Wakisaka, S., H. Nakashima, N. Sumida, and Y. Tetsu, Development of expert system
- building-tool for real-time control system -- FAIN, Nippon Steel Technical Report No. 57, pp. 79-85, Apr., 1993.
- Zozaya-Gorostiza, C., C. Hendrickson, and D. Rehak, Knowledge-Based Process Planning for
- Construction and Manufacturing
, Academic Press, Boston, MA, 1989.
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