Tradeoff time cost quality in repetitive construction project using fuzzy logic approach and symbiotic organism search algorithm
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F fuzzy logic is utilized to model the uncertainty embedding α-cut approach and it is shown that the proposed model is powerful to explore the solution for the shortest project duration with minimum incurred cost and high overall quality in the construction project.Abstract:
Time cost and quality are three important factors in planning and controlling construction projects. Getting these factors in balance, which minimizes the project duration, the total project cost, and maximizes the total quality could define the success of a construction project. Aside from planning and estimating the project properly, a consideration of uncertainty while implementing the project is needed to represent a more realistic outcome for time, cost, and quality trade-off (TCQT) problem in construction projects. In this paper, fuzzy logic is utilized to model the uncertainty embedding α-cut approach to see the effect of the uncertainty on the time, cost, and quality of the project. Then multi-objective Symbiotic Organism Search (SOS) algorithm is applied to find a set of the optimal solution in different uncertainty levels and provide the project manager several possible actions to implement the project. Two numerical case studies of a repetitive construction project were analyzed to see the effectiveness of the model and its capability to solve the TCQT problem in the construction project. The results showed that the proposed model is powerful to explore the solution for the shortest project duration with minimum incurred cost and high overall quality in the construction project. In comparison to the other widely used methods and other algorithms, the proposed model is proven to be effective and competitive in solving the TCQT problem.read more
Citations
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References
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A many-objective optimization model for construction scheduling
TL;DR: A many-objective scheduling model (MOSM) based on a non-dominated sorting genetic algorithm for the simultaneous optimization of four objectives: time, cost, resources and environmental impact is developed.
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Fuzzy Logic in Dynamic Parameter Adaptation of Harmony Search Optimization for Benchmark Functions and Fuzzy Controllers
TL;DR: This work uses the concepts of fuzzy logic in a method for dynamically adapting the main parameters of the harmony search algorithm during execution to improve performance and accuracy in a wide range of applications.
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Discrete symbiotic organisms search method for solving large-scale time-cost trade-off problem in construction scheduling
TL;DR: This paper aims to introduce a new variant of Symbiotic Organisms Search (SOS) algorithm that does not contain control parameters, called DSOS (Discrete Symbioticorganisms Search) which generates the parasite organism using a heuristic rule based on the network levels.
Journal ArticleDOI
Genetic Algorithm–Based Method for the Deadline Problem in Repetitive Construction Projects Considering Soft Logic
TL;DR: A targeted genetic algorithm is presented, in which only the activity modes and work sequences between units are encoded, and suitable start times of all subactivities are then determined using a linear programming approach.
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Non-polynomial quintic spline for solving fourth-order fractional boundary value problems involving product terms
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