MERL is looking for a highly motivated and qualified intern to work on computer vision for robotic grasping. The ideal candidate would be a Ph.D. student with a strong background in deep learning and robotics. There are several available topics for consideration including goal-driven grasping of novel objects, grasping for bin picking, and grasping in clutter. The project requires development of novel algorithms which can be implemented and evaluated on a robotic platform. Experience in working with a physics engine simulator like PyBullet, Mujoco, or Gazebo is preferred. Proficiency in Python programming is necessary and experience with ROS is a plus. Successful candidate will collaborate with MERL researchers and publication of the relevant results is expected. Start date is flexible and expected duration of the internship is 3-4 months. Interested candidates are encouraged to apply with their recent CV and list of publications in related topics.

MERL seeks a highly motivated intern to perform original research on advanced dynamic control for high-precision robotic assembly. The research will involve developing new model-based algorithms for task planning, path planning, and hybrid nonlinear control of contacts and collisions that occur during assembly operations, specifically using a new type of low mass, programmable impedance direct-drive delta robot with integrated touch sensing. Masters or Ph.D. students with knowledge and expertise in control theory and robotics, and strong working knowledge of C programming and high-level languages such as Julia or Matlab, and with experience and interest in conducting experimental research are encouraged to apply. Publication of results is expected in both leading conferences and journals. The internship is expected to be 3-6 months in duration, preferably in the summer 2022. This internship requires work that can only be done at MERL, so a remote working arrangement will not be considered. This internship requires work that can only be done at MERL.

MERL is looking for a highly motivated individual to develop planning and control algorithms for multi-agent systems. The internship will also include experimental validation of the proposed algorithms in various robotic testbeds (quadrotors and mini-cars) at MERL. The ideal candidate is experienced in multi-agent motion planning and control, and has successfully demonstrated some of their prior work on hardware testbeds. The candidate must be proficient in ROS and C/C++, and at least familiar with Python and MATLAB. Prior experience with crazyflies and/or hamster robots will be considered a plus. The expected duration of the internship is 3-6 months, and the start date is Summer/Fall 2022.