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Expert systems in construction engineering and management: state of the art

Published online by Cambridge University Press:  07 July 2009

Raymond E. Levitt
Affiliation:
Department of Civil Engineering, Stanford University, Stanford, California 94305-4020, USA
Nabil A. Kartam
Affiliation:
Department of Civil Engineering, The University of Maryland, College Park, Maryland 20742, USA

Extract

Construction Engineering and Management is a broad area of civil engineering practice which includes: (1) planning and engineering of the temporary facilities for construction sites; (2) management of the construction process; and (3) rehabilitation, repair and maintenance of engineered facilities, where the traditionally distinct design and construction roles of participants have become merged. The broad scope of this field, combined with the empirical nature of many facets of construction engineering and management practice, have led to a significant amount of expert system activity in this domain.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1990

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References

Allwood, R, Shaw, M, Smith, J, Stewart, D and Trimble, E, 1987, “BREDAMP—an expert system to diagnose the causes of dampness in buildings” Working paper, Building Research Establishment, Dept. of the Environment, UK.Google Scholar
Barrie, DS, 1989, PROPICK User's Manual CM Consultants, California.Google Scholar
Bowen, J, Cornick, TC and Bull, SP, 1986, “BERT—an expert system for brickwork design” Working paper, University of Reading, Departments of Computer Science and Construction Management, 1986.Google Scholar
Brandon, P, Basden, A, Hamilton, I and Stockley, J, 1988. Expert Systems: the Strategic Planning of Construction Projects Quantity Surveyors Division of the Royal Institution of Chartered Surveyors (RICS), London.Google Scholar
Bremdal, BA, 1988, An Investigation of Marine Installation Process—A Knowledge-Based Planning Approach Institute for Marine Prosjektering, Trondheim.Google Scholar
Brysland, C and MacCallum, KJ, 1988, “A knowledge-based assistant for the scheduling of subsea maintenance” in: Artificial Intelligence in Engineering: Robotics and Processes Gero, JS, ed, pp 311329, Elsevier.Google Scholar
BRT (The Business Roundtable), 1982, Improving Construction Safety Performance: The User's Role Construction Industry Cost Effectiveness Report A–3, The Business Roundtable, New York.Google Scholar
Darwiche, A, Levitt, R and Hayes-Roth, B, 1988, “OARPLAN: generating project plans in a blackboard system by reasoning about objects, actions and resourcesJournal of Artificial Intelligence in Engineering Design, Analysis and Manufacturing 2 (3) 169181.Google Scholar
De La Garza, J and Ibbs, C, 1989, “A knowledge elicitation study in the construction scheduling domain” To appear in the ASCE Journal of Computing in Civil Engineering.Google Scholar
Echeverry, D, Ibbs, C and Kim, S, 1989, “Generation of construction schedules a knowledge-based approach” Proceedings of the Sixth International Symposium on Automation and Robotics pp 220227, San Francisco, California.Google Scholar
Finn, GA, 1987, “An expert system for technical specifications” Stones and Webster Engineering Corporation, Boston, Massachusetts.Google Scholar
Finn, GA and Reinschmidt, KF, 1986, “Expert systems in an engineering-construction firm” in: Expert Systems in Civil Engineering Kostom, C and Maher, M, eds., ASCE.Google Scholar
Gray, C and Little, J, 1985, “A systematic approach to the selection of an appropriate crane for a construction siteConstruction Management and Economics 3 121144.CrossRefGoogle Scholar
Gray, C and Little, J, 1986, “Expert system development for predicting time and cost of construction during initial design” First International Expert Systems Conference, London.Google Scholar
Hayes-Roth, B, 1985, “A blackboard architecture for controlArtificial Intelligence 26 (3) 251321.Google Scholar
Hendrickson, C, Martinelli, D and Rehak, D, 1987, “Hierarchical rule-based activity duration estimationJournal of Construction Engineering and Management 113 (2) 288301.Google Scholar
Howard, HC, Levitt, RE, Paulson, BC, Pohl, JG and Tatum, CB, 1989, “Computer-integrated design and construction: Reducing fragmentation in the AEC industryJournal of Computing in Civil Engineering 3 (1) 1832.CrossRefGoogle Scholar
Howard, C and Rehak, D, 1986, “Interfacing expert systems with multiple databases in an integrated CAE environmentFirst International Conference on Expert Database SystemsCarnegie-Mellon University.Google Scholar
Ito, K et al. , 1989, “Linking knowledge-based systems to CAD design data with an object-oriented building product model” TR # 17, Center for Integrated Facility Engineering, Stanford University, Stanford, CA.Google Scholar
Kartam, NA, 1989, “Investigating the utility of artificial intelligence techniques for automatic generation of construction project plans” Ph D thesis, Dept. of Civil Engineering, Stanford University, Stanford, California.Google Scholar
Kartam, NA and Levitt, RE, 1990, “Intelligent planning of construction projectsJournal of Computing in Civil Engineering 4 (2).CrossRefGoogle Scholar
Kartam, NA, Levitt, RE and Wilkins, DE, 1990, “A centralized approach for representing and resolving interactions among multi-agent tasks while planning hierarchicallyProceedings of the Sixth IEEE Conference on Artificial Intelligence ApplicationsSanta Barbara, CA.Google Scholar
Kim, M, Adams, , and Harkleroard, J, 1989, “A knowledge-based microcomputer training tool for contract claimsProceedings of the Sixth Conference on Computing in Civil Engineering Barnwell, Thomas, Jr, ed., pp 6775, ASCE.Google Scholar
Kraiem, ZM, Dagli, DP and Diekmann, JE, 1989, “DISCON: an expert system for the analysis of differing site conditions claimsKnowledge-Based Systems Journal 2 (3) 158163.CrossRefGoogle Scholar
Kunz, J, Bonura, T, Stelzner, M and Levitt, R, 1986, “Contingent analysis for project management using multiple worldsProceedings of the First International Conference on Applications of Artificial Intelligence to Engineering Problems Sriram, D and Adey, R, eds., pp 707718, Southampton University.CrossRefGoogle Scholar
Levitt, RE, 1986, “HOWSAFE: a microcomputer-based expert system to evaluate the safety of a construction firm” In: Expert Systems in Civil Engineering Kostem, C and Maher, M, eds., ASCE.Google Scholar
Levitt, Raymond E, 1987, “Expert systems in construction” in: Expert Systems for Civil Engineers Maher, ML, ed., pp 85112, ASCE.Google Scholar
Levitt, RE, Kartam, NA and Kunz, JC, 1988, “Artificial intelligence techniques for generating construction project plansJournal opf Construction Engineering and Management 114 (3), pp 329343, ASCE.CrossRefGoogle Scholar
Levitt, RE and Kunz, JC, 1985, “Using knowledge of construction and project management for automated schedule updatingProject Management Journal 16 (5).Google Scholar
Levitt, RE, Samelson, NM and Parker, HW, 1981, “Improving construction safety performance: the user's role” T.R. 260, Dept. of Civil Engineering, Stanford University, Stanford, California.Google Scholar
Logcher, RD, Wang, M and Chen, FH, 1989, “Knowledge processing for construction management data baseJournal of Construction Engineering and Management 115(2), pp 196211, ASCE.CrossRefGoogle Scholar
Marshall, G, Barber, TJ and Boardman, JT, 1987, “Methodology for modelling a project management control environmentIEE Proceedings 134 (4) 287300.CrossRefGoogle Scholar
Milne, PH, 1986, “An expert system for road curve design and setting-outApplications of Artificial Intelligence in Engineering Problems 1st International Conference, Southampton, UK, Sriram, D and Adey, R, ed, pp 733–74.Google Scholar
Navinchandra, D, Sriram, D and Logcher, R, 1988, “GHOST: project network generatorJournal of Computing in Civil Engineering 2 (3) 239254.Google Scholar
Niwa, K and Okuma, M, 1982, “Know-how transfer method and its application to risk management for large construction projectsIEEE Transactions on Engineering Management 29 (4).Google Scholar
Niwa, K, 1986, “A knowledge-based human-compputer cooperative system for ill-structured management domainsIEEE Transactions on Systems, Man and Cybernetics 16 (3) 335342.Google Scholar
Paulson, BC Jr, 1985, “Automation and robotics for constructionJournal of Construction Engineering and Management 111 (3) 190207.CrossRefGoogle Scholar
Perng, Y, 1988, “An intelligent system approach for construction risk identification” PhD thesis, Dept. of Civil Engineering, The University of Texas at Austin, Texas.Google Scholar
Rehak, DR, 1985, “Robotic applications in construction: A white paper” in: New Research Directions in Computerized Applications to Construction Engineering and Management Studies Ibbs, WC, ed., The University of Illinois, Dept. of Civil Engineering, Construction Research Series No. 19, pp 108112.Google Scholar
Riitahuhta, A, 1988, “Enhancement of the boiler design process by the use of expert system technology.” Dr. Tech. thesis, Acta Polytechnica Scandinavica, Mechanical Engineering Series No 92, Helsinki, Finland.Google Scholar
Sotoodeh-Khoo, H and Paulson, BC Jr, 1989, “Sensors and expert systems in production optimization of earthmoving scrapersProceedings of the Sixth Conference on Computing in Civil Engineering Barnwell, Thomas, Jr, ed., pp 303312, ASCE.Google Scholar
Stretton, A, 1989, Personal communication with Alan Stretton of Lend Lease, the parent corporation of Civil and Civic.Google Scholar
Tommelein, ID, Levitt, RE and Hayes-Roth, B, 1989, “SIGHTPLAN: an artificial intelligence tool to assist construction managers with site layout” Proceedings of the Sixth International Symposium on Automation and Robotics in Construction pp 340347, San Francisco, California.Google Scholar
Wharry, MB and Ashley, DB, 1986, “Resolving subsurface risk in construction using an expert system” UTCEPM–86–1, Dept. of Civil Engineering, Univ. of Texas at Austin, Texas.Google Scholar
Zozaya-Gorostiza, C, Hendrickson, C and Rehak, D, 1989, A Knowledge-Based Process Planning for Construction and Manufacturing Academic Press.Google Scholar