Research Internships at Microsoft provide a dynamic environment for research careers with a network of world-class research labs led by globally-recognized scientists and engineers, who pursue innovation in a range of scientific and technical disciplines to help solve complex challenges in diverse fields, including computing, healthcare, economics, and the environment. Recent advances in AI have been driven in great part by developments in computer vision. However, geometric computer vision, a subarea of great importance to key applications such as autonomous driving, robotics, and augmented reality, has not benefited from this revolution - today, most problems in geometric computer vision are still solved through classical methods. In this project, we will explore how methods based on the formalism of geometric algebra can help in closing this gap. Specific topics include: + Geometric algebra methods for deep optical flow computation. + Direct application of deep learning in geometric algebra estimation. Microsoft’s mission is to empower every person and every organization on the planet to achieve more. As employees we come together with a growth mindset, innovate to empower others, and collaborate to realize our shared goals. Each day we build on our values of respect, integrity, and accountability to create a culture of inclusion where everyone can thrive at work and beyond. **Responsibilities** + **Develop and Implement Deep Learning Models** : Design, train, and optimize machine learning and neural network models for applications in computer vision and robotics, ensuring high performance and accuracy. + **Enhance Geometric Computer Vision Techniques** : Apply advanced algorithms for tasks such as visual odometry, feature extraction, and object recognition, leveraging geometric principles to improve system robustness and accuracy. + **Implement SLAM (Simultaneous Localization and Mapping)** : Develop and optimize algorithms for real-time environment mapping and robot localization, ensuring seamless navigation and object tracking in dynamic environments. + **Integrate Optical Flow and Visual Navigation Systems** : Design and integrate optical flow methods to enable precise motion estimation, visual-based navigation, and dynamic obstacle avoidance for autonomous systems. + **Leverage Geometric Algebra for Advanced Computing** : Utilize geometric algebra (Clifford algebra) to improve the efficiency and accuracy of spatial transformations, rotations, and other geometric operations in computer vision and robotics tasks. **Qualifications** Required Qualifications: + Must be registered to a PHD program. Microsoft is an equal opportunity employer. Consistent with applicable law, all qualified applicants will receive consideration for employment without regard to age, ancestry, citizenship, color, family or medical care leave, gender identity or expression, genetic information, immigration status, marital status, medical condition, national origin, physical or mental disability, political affiliation, protected veteran or military status, race, ethnicity, religion, sex (including pregnancy), sexual orientation, or any other characteristic protected by applicable local laws, regulations and ordinances. If you need assistance and/or a reasonable accommodation due to a disability during the application process, read more about requesting accommodations (https://careers.microsoft.com/v2/global/en/accessibility.html) .