Abstract
This study proposes an integrated model to facilitate the weightings and evaluations of tenders involved in the best-value contractor selection process. In the criteria weighting, an adaptive AHP approach (A 3) is applied. A 3 uses a soft computing scheme, genetic algorithms, to recover the weights of the various criteria based on the derived pairwise weighting matrix (PWM) of criteria. In the evaluations of tenders, two sub-models are proposed. The first sub-model is a bid price evaluation model (PRICE), and it is developed to deal with the quantitative criterion, i.e., bid price criterion. The second sub-model is a performance-based evaluation model (PERFORM), and it is employed to quantify the expected performances of other qualitative criteria for each bidder. The proposed model integrates with A 3, PRICE and PERFORM to support the best-value contractor selection. The benefits of this proposed model are demonstrated by applying it a real-world case project. Lessons learned from this case project are also summarized to provide future applications.
Original language | English |
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Pages | 419-430 |
Number of pages | 12 |
State | Published - 2009 |
Event | 17th Annual Conference of the International Group for Lean Construction, IGLC17 - Taipei, Taiwan Duration: 13 Jul 2009 → 19 Jul 2009 |
Conference
Conference | 17th Annual Conference of the International Group for Lean Construction, IGLC17 |
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Country/Territory | Taiwan |
City | Taipei |
Period | 13/07/09 → 19/07/09 |
Keywords
- Adaptive AHP approach
- Analytic hierarchy process
- Contractor selection
- Performance
- Utility function