We are seeking passionate and talented students who are eager to shape next-generation products at ZEISS. Integrated within a team of scientists and engineers, you will work on research topics in 3D computer vision and robotics. The project is based on high-precision object tracking involving subtasks such as pose estimation, semantic segmentation and so on leveraging deep-learning methods from computer vision. Your role Familiarize with the state-of-the-art in pose estimation and tracking applications Development of the hardware experimental setup based on the use-case Implementation of prototype solutions relying on methods from both geometric and/ or deep learning methods in computer vision Validation of the results with test measurements Evaluation of the technical feasibility Documentation of the experimental outcomes & test results Your profile A background in the STEM area (computer science, robotics engineering, electrical engineering) Currently enrolled in a master’s degree program at a top university Prior experience with at least one programming language such as C++ or Python Good theoretical background in linear algebra, optimization, and computer vision methodologies Demonstrable applied experience with the computer vision (such as OpenCV, PCL, Open3D) and deep learning libraries (Tensorflow/ Pytorch) will be beneficial Self-motivated and independent working style along with a curiosity for diving into challenging topics that push the state-of-the-art As a student, you will work on an equal footing with your colleagues, you will gain deep insights into a company that creates products for the world of tomorrow, and you will create ideal conditions for your later career. Your ZEISS Recruiting Team: Franziska Gansloser