ACM Transactions on Programming Languages and Systems (TOPLAS)
Efficient algorithms for distributed snapshots and global virtual time approximation
Journal of Parallel and Distributed Computing - Special issue on parallel and discrete event simulation
Simulation with visual SLAM and AweSim
Simulation with visual SLAM and AweSim
Parallel and distributed simulation
Proceedings of the 31st conference on Winter simulation: Simulation---a bridge to the future - Volume 1
Parallel and Distribution Simulation Systems
Parallel and Distribution Simulation Systems
Parallel simulation: parallel and distributed simulation systems
Proceedings of the 33nd conference on Winter simulation
Parallel simulation: distributed simulation systems
Proceedings of the 35th conference on Winter simulation: driving innovation
Construction engineering and project management I: a construction process simulation web service
Proceedings of the 35th conference on Winter simulation: driving innovation
Distributed Simulation: A Case Study in Design and Verification of Distributed Programs
IEEE Transactions on Software Engineering
Proceedings of the Winter Simulation Conference
Proceedings of the Winter Simulation Conference
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Integrating Discrete Event Simulation (DES) and System Dynamics (SD) simulation methods require synchronization of their simulation clocks to ensure that actions are executed in an orderly manner. This paper presents a synchronization methodology for integrating DES and SD models. A hybrid simulation-based method consisting of SD components at the higher decision level and DES components at the lower decision level is expected to benefit from the developed method. The proposed methodology integrates DES and SD models on a single platform, which enhances the simulation of construction operations. It consists of three elements: 1) advancing mechanism, 2) DES advancing algorithm, and 3) messages sequence mechanism. The paper provides a description of the three elements of the synchronization method. An illustrative preliminary experiment that utilizes DES and SD engines is presented to demonstrate the use of the developed synchronization method and to illustrate its capabilities.