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Bauman Moscow State Technical University (BMSTU) stands as one of Russia's most distinguished technical institutions, with a robotics and AI research portfolio that spans autonomous systems, multi-agent coordination, advanced manufacturing, and intelligent control. With deep roots in engineering excellence, BMSTU has cultivated research groups that consistently push the boundaries of applied robotics, making the university a compelling destination for both prospective students and international collaborators. At the heart of BMSTU's robotics work is a sustained focus on multi-agent robotic systems, evidenced by multiple highly cited publications exploring collaborative architectures, distributed control, and autonomous decision-making. The university's development of Mivar-based expert systems for autonomous robots reflects a distinctive commitment to AI-driven intelligence, while work on autonomous radioactive source detection and earthquake rescue robotics underscores the life-critical applications driving much of this research. Parallel contributions to path planning, optimal control theory, and hybrid walking robots reveal a program equally at home in theoretical rigor and practical deployment. BMSTU's ambitions extend well beyond locomotion and coordination. The institution has made notable inroads into advanced manufacturing, particularly composite 3D printing for aerospace applications using multi-axial robotic arms, and laser-induced breakdown spectroscopy for in-situ quality monitoring in additive processes. Emerging work on nanocolloidal hydrogels, polysaccharide-based functional materials, and wearable electromyography devices for rehabilitation robotics signals a growing interdisciplinary reach into biomaterials and human-robot interaction. Space robotics adds yet another dimension, with research addressing the dynamic challenges of debris capture via telescopic robotic arms — a timely contribution to orbital sustainability. Across all these domains, BMSTU's citation record, including papers accumulating over 60 citations within just a few years of publication, reflects genuine global impact and positions the university as a vital hub for collaborative, mission-driven robotics research.