Max Polzin
About Max Polzin
Max Polzin is a Software Engineer currently working at Seervision AG in Zürich, Switzerland, where he has been employed since 2018. He focuses on advancing software engineering methods for high-quality robotic products and conducts research on autonomous navigation for mobile robots at EPFL's CREATE Lab.
Work at Seervision
Max Polzin has been employed at Seervision AG as a Software Engineer since 2018. In this role, he contributes to the development of software solutions for robotic systems. Prior to his current position, he worked as a Research Engineer at Seervision AG for seven months in 2017. His experience at Seervision spans multiple years and includes a focus on advancing software engineering methods to enhance the quality of robotic products.
Education and Expertise
Max Polzin holds a Master of Science in Robotics, Systems, and Control from ETH Zürich, where he studied from 2013 to 2016. He also earned a Bachelor of Science in Electrical Engineering and Information Technology from Technische Universität Darmstadt, completing his studies from 2010 to 2013. His academic background provides a strong foundation for his research and engineering work in robotics and software development.
Research Focus
Max Polzin conducts research at the Ecole polytechnique fédérale de Lausanne (EPFL) as a Doktorand since 2021. His research is centered on autonomous navigation for mobile robots, particularly in agricultural applications within extreme terrains. He is affiliated with EPFL's CREATE Lab, where he aims to develop innovative solutions that address challenges in robotics.
Previous Experience
Before his current roles, Max Polzin gained experience as a Summer Researcher at the University of Toronto in 2016, where he worked for three months. He also served as a Research Scientist at TwingTec for two months in the same year. These positions contributed to his understanding of research methodologies and practical applications in the field of robotics.
Professional Goals
Max Polzin aims to advance modern software engineering methods to deliver high-quality robotic products. He focuses on creating ecologically sustainable and ethically valuable robotic systems. His work involves leading innovation and translating research into practical applications, particularly in the industrial robotic systems sector.