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planning, spacecraft rendezvous, docking, and proximity operations. Utilize physics-based robotic simulation tools (e.g., Gazebo, Matlab/Simscope) and space mission analysis software (e.g., GMAT, STK
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trajectory planning, spacecraft rendezvous, docking, and proximity operations. Utilize physics-based robotic simulation tools (e.g., Gazebo, Matlab/Simscope) and space mission analysis software (e.g., GMAT
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. Utilize physics-based robotic simulation tools (e.g., Gazebo, Matlab/Simscope) and space mission analysis software (e.g., GMAT, STK) for simulating and studying spacecraft systems operations. Utilize
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-based human motion tracking, analysis, and prediction for enhancing robotic safety. • Familiarity with imitation learning and advanced techniques for human-robot collaboration. Compensation and
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, cryo-EM, etc. An understanding of protein modeling and simulation. Additional Qualifications Considered May require experience with specialized software programs such as PyMol, Chimera and others