Bastian Schumacher
About Bastian Schumacher
Bastian Schumacher serves as the Director of Data Analysis and Simulation at SSI SCHÄFER, a position he has held since 2021. He previously worked as a Researcher and Program Manager in Global Production Engineering at Technische Universität Berlin from 2012 to 2020.
Work at SSI SCHÄFER
Bastian Schumacher has been serving as the Director of Data Analysis and Simulation at SSI SCHÄFER since 2021. In this role, he focuses on leveraging data analysis and simulation techniques to enhance operational efficiency and optimize processes within the organization. His expertise contributes to the development of innovative solutions that address the complexities of modern logistics and automation.
Previous Experience at Technische Universität Berlin
Before joining SSI SCHÄFER, Bastian Schumacher worked at Technische Universität Berlin as a Researcher and Program Manager in Global Production Engineering from 2012 to 2020. During his eight years in this position, he contributed to various research initiatives and managed programs aimed at advancing production engineering practices. His work involved collaboration with academic and industry partners to foster innovation in production systems.
Education and Expertise
Bastian Schumacher holds a Dr.-Ing. degree in Production Engineering from Technische Universität Berlin. He also earned a Master of Science (M.Sc.) in Industrial Engineering from the same institution, completing his studies from 2010 to 2012. His educational background equips him with a strong foundation in engineering principles, data analysis, and production systems, which he applies in his current role.
Academic Background
Bastian Schumacher's academic journey is rooted in Technische Universität Berlin, where he pursued advanced studies in production engineering and industrial engineering. His rigorous training and research experience have shaped his analytical skills and understanding of complex engineering challenges, enabling him to contribute effectively to both academic and industrial settings.