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Badger, W W and Mulligan, D E (1995) Rationale and Benefits Associated with International Alliances. Journal of Construction Engineering and Management, 121(01), 100–11.
Basha, I M, Gab-Allah, A A and Amer, M I (1995) Construction of Ameria Caisson in Egypt. Journal of Construction Engineering and Management, 121(01), 13–19.
Boles, W W, Maxwell, D A, Scott, W D, Heermann, P D, Yarborough, T and Underwood, J (1995) Construction Automation and Robotics—Pathway to Implementation. Journal of Construction Engineering and Management, 121(01), 143–52.
Chao, L and Skibniewski, M J (1995) Neural Network Method of Estimating Construction Technology Acceptability. Journal of Construction Engineering and Management, 121(01), 130–42.
Christian, J and Hachey, D (1995) Effects of Delay Times on Production Rates in Construction. Journal of Construction Engineering and Management, 121(01), 20–26.
Everett, J G and Thompson, W S (1995) Experience Modification Rating for Workers' Compensation Insurance. Journal of Construction Engineering and Management, 121(01), 66–79.
Fisher, D J, O'Neill, M W and Contreras, J C (1995) DS^2: Drilled Shaft Decision Support System. Journal of Construction Engineering and Management, 121(01), 86–94.
- Type: Journal Article
- Keywords:
- ISBN/ISSN: 0733-9364
- URL: https://doi.org/10.1061/(ASCE)0733-9364(1995)121:1(86)
- Abstract:
Due to many uncontrollable and often unpredictable factors such as ground-water inflow rate, equipment availability and cost, weather, and various geological details, drilled shaft construction can become highly complex. At present, decisions on how best to install drilled shafts are made by foundation subcontractors, who have most often become experts in construction in local conditions. Unfortunately, the assistance of these field experts is not always easily obtained. Thus, a decision support system called “DS^2” has been developed to assist in the construction of drilled shafts. If used correctly, DS^2 can reduce construction costs by providing a large quantity of expert advice that would otherwise be both difficult and very expensive to obtain. DS^2 is composed of three prototype expert systems that interface with spreadsheet, database, and graphics packages. DS^2 uses a heuristic, rule-based, backward-chaining system to analyze geological information, suggest a construction method, prepare a preliminary cost estimate, and suggest key specification items.
Garsden, B R (1995) Postconstruction Evaluation. Journal of Construction Engineering and Management, 121(01), 37–42.
Jaraiedi, M, Plummer, R W and Aber, M S (1995) Incentive/Disincentive Guidelines for Highway Construction Contracts. Journal of Construction Engineering and Management, 121(01), 112–20.
Kibert, C J and Coble, R J (1995) Integrating Safety and Environmental Regulation of Construction Industry. Journal of Construction Engineering and Management, 121(01), 95–99.
Maloney, W F and McFillen, J M (1995) Job Characteristics: Union-Nonunion Differences. Journal of Construction Engineering and Management, 121(01), 43–54.
Mayo, R E and Liu, G (1995) Reform Agenda of Chinese Construction Industry. Journal of Construction Engineering and Management, 121(01), 80–85.
Navon, R (1995) Economic Benefits of Lightweight versus Conventional Construction Methods. Journal of Construction Engineering and Management, 121(01), 27–36.
Thomas, H R, Smith, G R and Cummings, D J (1995) Have I Reached Substantial Completion?. Journal of Construction Engineering and Management, 121(01), 121–9.
Thomas, H R, Smith, G R and Wirsching, S M (1995) Understanding Defective Specifications. Journal of Construction Engineering and Management, 121(01), 55–65.
Varghese, K and O'Connor, J T (1995) Routing Large Vehicles on Industrial Construction Sites. Journal of Construction Engineering and Management, 121(01), 1–12.