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Optimal Design of new Hospitals: A Computational Workflow for Stacking, Zoning, and Routing

Cemre Cubukcuoglu, Pirouz Nourian, I.S. Sariyildiz, M. Fatih Taşgetiren

2021Automation in Construction14 citationsDOIOpen Access PDF

Abstract

The paper proposes a generative design workflow for three major hospital layout planning steps to satisfy multiplex configurational requirements. The initial step is stacking through clustering functional spaces into floor plans, for which a spectral method is presented. Subsequently, a novel simultaneous process of zoning and routing is proposed as a Mixed-Integer Programming problem-solving task; performed on a quadrilateral mesh whose faces and edges are allocated respectively to the rooms and the corridors. The paper situates the workflow in the context of an Activity-Relations-Chart for a general hospital while demonstrating, explaining, and justifying the generated optimal floor plans. The conversion of the hospital layout problem to a Mixed-Integer Programming problem enables the use of existing Operations Research solvers, allowing for the generation of optimal solutions in a digital design environment. The comprehensive problem formulation for a real-world scenario opens a new avenue for utilization of mathematical programming/optimization in healthcare design.

Topics & Concepts

WorkflowComputer scienceInteger programmingRouting (electronic design automation)Context (archaeology)Mathematical optimizationTask (project management)HeuristicCluster analysisOperations researchEngineeringAlgorithmSystems engineeringArtificial intelligenceMathematicsDatabasePaleontologyBiologyComputer networkAdvanced Manufacturing and Logistics OptimizationBIM and Construction IntegrationAssembly Line Balancing Optimization
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