Niloufar Izadinia scite author profile

This paper proposes an optimization framework for sustainable post-disaster building reconstruction. Based on mathematical optimization, it is intended to provide decision makers with a versatile tool to optimize building designs and to explore the trade-off between costs and environmental impact (represented by embodied energy) of alternative building materials. The mixed-integer nonlinear optimization model includes an analytical building model that considers structural and safety constraints and incorporates regional building codes. Using multi-objective optimization concepts, Pareto-optimal designs are computed that represent the best trade-off designs from which a decision maker can choose when they take additional criteria into consideration. As a case study, we consider the design of a multi-room one-story masonry building in Nepal. We demonstrate how the framework can be employed to answer a variety of questions, such as the optimal building design and material selection, the sensitivity of the decision to the prices, and the impact of regional safety regulation thresholds.

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A versatile optimization framework for sustainable post-disaster building reconstruction

Izadinia

Ramyar

Alzayer

et al. 2022

Optim Eng

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Niloufar Izadinia

A robust mathematical model and ACO solution for multi-floor discrete layout problem with uncertain locations and demands

A robust model for multi-floor layout problem

A Versatile Optimization Framework For Sustainable Post-Disaster Building Reconstruction

A versatile optimization framework for sustainable post-disaster building reconstruction

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