Paper Title
Optimum Cost Design of Reinforced Concrete Beams Using Artificial Bee Colony Algorithm
Abstract
The objective of this study is to obtain the optimum design for reinforced concrete beams in terms of cross section dimensions and reinforcement details using a fine tuned Artificial Bee Colony (ABC) Algorithm while still satisfying the constraints of the ACI Code (2008) ( ACI Committee 318, 2008). The ABC algorithm used in this paper has been slightly modified to include a Variable Changing Percentage (VCP) that further improves its performance when dealing with members consisted of multiple variables. The objective function is the total cost of the beam which includes the cost of concrete, formwork and reinforcing steel bars. The design variables used are beam width, beam height, number and diameter of reinforcing bars and top cutoff reinforcing bars as well as the diameter of stirrups , and design constraints can include strain, stress and sizing constraints. All computational implementation was made in MATLABĀ® computational environment. For validating of the proposed model the results are compared with those found in literature and usual practice of beam construction.
Keywords- Optimization, Cost optimization, ACI1318, RC.Beams, Artificial Bee Colony Algorithm.