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portfolio, with faculty conducting cutting-edge research across a broad spectrum of areas, including bioengineering; communications and networking; control systems and robotics; cyber-physical systems
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intelligence, trustworthy and explainable AI) Robotics and Autonomous Systems (medical and surgical robotics, autonomous vehicles, drones, human–machine collaboration, assistive systems) Quantum and Nano
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intelligence related to field robotics and autonomous vehicles. Last day to apply is November 15, 2025. Starting date is March 1, 2026, or by agreement. Project description Physics-based simulation is an
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vibrant and growing research portfolio, with faculty conducting cutting-edge research across a broad spectrum of areas, including bioengineering; communications and networking; control systems and robotics
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resources. Smart and Digital Mining Systems: Digital twins, mine automation, robotics, autonomous equipment, and advanced monitoring, sensing, and control systems, including image processing, particle
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resources. Smart and Digital Mining Systems: Digital twins, mine automation, robotics, autonomous equipment, and advanced monitoring, sensing, and control systems, including image processing, particle
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. Neuromorphic VLSI implementation. 4. Asynchronous multi-chip communication infrastructure. 5. Learning and state-dependent computation in autonomous behaving robotic platforms. Salary and conditions The salary
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engineering bio-statistics and AI-healthcare smart/semi-conductor manufacturing AI/robotics/autonomous systems aerospace and microelectronics engineering energy generation and storage digital business and
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action recognition, scene understanding, medical image analysis, self-supervised and unsupervised learning for vision, vision-based robotics and autonomous systems, and generative models for image
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of academia, industry, and government that leverages the power of artificial intelligence (AI), robotics, materials sciences, and high-throughput chemistry to create self-driving laboratories (SDLs