Before considering bids submitted by competing contractors for a public procurement project, the owner should determine a project ceiling price or cost estimate to use as a reference point for evaluating the bids. A high ceiling price conflicts with the owner's interests in minimizing costs. Meanwhile, a low ceiling price can jeopardize the project if all bids exceed the ceiling price. This paper proposes a model for determining a reasonable project ceiling price. The model, called SIM-UTILITY, is based on a utility theory and facilitated by a cost simulation approach. The utility theory is applied to reflect the owner's preferences regarding the determination criteria, while the simulation approach is used to generate more objective project cost data to support execution of the utility theory. The advantages of SIM-UTILITY are proven by its successful application to three construction projects in Taiwan. A computerized SIM- UTILITY is expected to be broadly applicable to public construction projects in Taiwan.
[1]
Robert I. Carr,et al.
COMPETITIVE BIDDING AND OPPORTUNITY COSTS
,
1987
.
[2]
P. G. Ioannou.
Bidding Models — Symmetry and State of Information
,
1988
.
[3]
Ali Touran,et al.
Monte Carlo Technique with Correlated Random Variables
,
1992
.
[4]
Tarek Hegazy,et al.
DBID: Analogy‐Based DSS for Bidding in Construction
,
1993
.
[5]
Donn E. Hancher,et al.
Evaluation of Competitive Bids
,
1995
.
[6]
Simaan M. AbouRizk,et al.
UTILITY-THEORY MODEL FOR BID MARKUP DECISIONS
,
1996
.
[7]
Julio C. Martinez,et al.
Stroboscope: State and resource based simulation of construction processes.
,
1996
.
[8]
Larry G. Crowley.
ROBUST STATISTICAL ESTIMATORS FOR USE WITHIN COMPETITIVE BID DATA
,
1997
.
[9]
Aminah Robinson Fayek,et al.
COMPETITIVE BIDDING STRATEGY MODEL AND SOFTWARE SYSTEM FOR BID PREPARATION
,
1998
.