Max Brozynski
Max Brozynski
Senior Consultant at FTI Consulting, Inc.
Max Brozynski leads the advanced analytics capabilities of the Global Supply Chain Solutions Practice, advising clients in supply chain strategy, risk management, and optimization. Dr. Brozynski specializes in the application of complex methods in operations research and industrial engineering to solve a wide variety of business problems, including: • Energy system optimization problems, • Scenario analyses, • Network optimization problems, • Supply chain management, • Facility location problems, and • Scheduling problems. Dr. Brozynski’s sector expertise spans the energy, technology, and public sector industries. He has numerous publications in peer-reviewed academic journals including the European Journal of Operational Research, Applied Energy, and Sustainable Cities and Society. His publication on optimally-determined, least-cost climate mitigation strategies for public and private sector policy has been cited in the Sixth Assessment Report of the United Nations Intergovernmental Panel on Climate Change (2022). In addition to prospective business solutions, he has also provided quantitative analyses in assistance to forensic litigation matters involving financial statement audits, intellectual property disputes, and breach of contract claims. During his doctoral program, he instructed statistics and probability to undergraduate students at The University of Texas at Austin’s Cockrell School of Engineering. Dr. Brozynski received his Ph.D. and M.S.E. in Operations Research and Industrial Engineering from the Cockrell School of Engineering at University of Texas at Austin, specializing in the application of operations research methods to technology innovation and energy systems.
Track: Platforms and SaaS
Object-oriented Supply Chain Simulation Tool for Supply Chain Risk Measurement and Mitigation
Object-oriented discrete event simulation methodologies are well-positioned to effectively model the characteristics and operations of a supply chain network. This presentation will cover three key topics: (1) a brief introduction to supply chain risk assessment and mitigation strategy identification methodologies; (2) a tutorial on object-oriented discrete event simulation and its application to supply chain networks; and (3) a case study applying the method to a pharmaceutical company facing three supply chain risks.