Khalied Hyari scite author profile

An automated model is developed to support the optimization of the planning and scheduling of repetitive construction projects. The model provides the capability of optimizing two important objectives commonly sought in scheduling repetitive construction projects: minimizing project duration; and minimizing project cost. The model performs this multi‐objective optimization using a genetic algorithm approach. The output of the model is a set of optimal solutions that represent the trade‐off between time and cost in planning repetitive construction projects. Furthermore, the model can be utilized to find a single scheduling solution that provides the minimum overall project cost by simply adding project indirect cost to the obtained project direct cost for each of the obtained scheduling solutions on the Pareto optimal curve. Other important time‐related costs are also considered in the model including: early completion incentives, late completion penalties and lane rental costs. Providing the planners of repetitive construction projects with an automated set of optimal time–cost trade‐off solutions should contribute to cost‐effective and speedy delivery of this type of construction project. An application example is analysed to illustrate the use of the model and demonstrate its capabilities in generating optimal trade‐off solutions between minimizing the project time and cost for repetitive construction projects.Repetitive construction, scheduling, genetic algorithms, optimization, resource utilization,

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CONLIGHT: Lighting Design Model for Nighttime Highway Construction

El‐Rayes

Hyari

2005

J. Constr. Eng. Manage.

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The utilization of nighttime work in highway construction and rehabilitation projects has been increasing in recent years throughout the United States. In this type of projects, construction planners are required to develop and submit a lighting plan that provides: ͑1͒ adequate illuminance levels for all planned nighttime construction tasks; ͑2͒ reasonable uniformity of light distribution in the work area, and ͑3͒ acceptable glare levels to both road users and construction workers. In order to support construction planners in this vital and challenging task, this paper presents a lighting design model, named CONLIGHT, which is capable of considering the specific requirements of nighttime highway construction operations. The model is developed to enable construction planners to evaluate the performance of various lighting plans and select a practical design that complies with all lighting requirements for the nighttime work being planned. An application example is analyzed to illustrate the use of the model and demonstrate its accuracy and capabilities in generating practical lighting plans for nighttime construction and rehabilitation projects.

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Khalied Hyari

Optimal Planning and Scheduling for Repetitive Construction Projects

Utilizing data envelopment analysis to benchmark safety performance of construction contractors

Automated trade‐off between time and cost in planning repetitive construction projects

CONLIGHT: Lighting Design Model for Nighttime Highway Construction

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