Litcius/Paper detail

Integrated Offsite Logistics Scheduling Approach for High-Rise Modular Building Projects

Yi Yang, Mi Pan, Wei Pan

2022Journal of Construction Engineering and Management28 citationsDOI

Abstract

By maximizing offsite work and minimizing onsite activities, modular construction has become increasingly popular in high-rise, high-density cities. For successfully delivering high-rise modular buildings, a key issue is the effective scheduling of offsite logistics, consisting of module manufacturing, transportation, and storage. This paper proposes an integrated offsite logistics scheduling approach for high-rise modular building projects that addresses project-specific constraints and uncertainties, based on the stochastic Petri net (SPN) method. The proposed approach supports multi-criteria decision-making, that considers completion time, total cost, storage capacity utilization, and production process stability under what-if scenarios. Its efficacy and novelty for offsite logistics scheduling were demonstrated through a real-life project case study. The results indicate the need to (1) strengthen suppliers’ demand responsiveness by shortening module production time; (2) enhance manufacturing flexibility by increasing factory storage utilization; (3) improve supply chain synchronization; and (4) capitalize on the government’s role in offsite logistics enhancement. The findings methodologically innovate offsite logistics scheduling, and practically support contractors and module suppliers in successfully delivering high-rise modular building projects in high-density cities.

Topics & Concepts

Modular designScheduling (production processes)Flexibility (engineering)Computer scienceSupply chainManufacturing engineeringOperations managementEngineeringBusinessMarketingMathematicsOperating systemStatisticsBIM and Construction IntegrationConstruction Project Management and PerformanceAdvanced Manufacturing and Logistics Optimization