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Lecture
Bionic Limbs: Bridging Neuroengineering and Prosthetics
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Related lectures (32)
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Introduction to Fundamentals of Neuroengineering
Covers neural prosthetics, brain-machine interfaces, and decoding motor signals for restoring sensory functions.
Neural Signals and Signal Processing
Explores neural signals, EMG processing, muscle synergies, and prosthetic control using advanced signal processing techniques.
Motor Neuroprosthetics: Brain-Machine Interfaces
Explores brain-machine interfaces for motor neuroprosthetics, covering recording techniques, EEG signals, and motor decoding.
Neural Signal Recording: Electrode Types and Applications
Explores neural signal recording methods using various electrode types for in-vivo and in-vitro studies.
Bionic Prostheses: Sensory Feedback and Control
Covers advancements in bionic prostheses, focusing on sensory feedback integration and closed-loop control systems for enhanced user experience.
Bionic Artificial Limbs: Challenges and Innovations
Explores the challenges and innovations in developing bionic artificial limbs to enhance the quality of life for upper limb amputees.
Hybrid Neural Models: Introduction and Applications
Covers hybrid neural models for neuroprosthetics, nerve stimulation optimization, and grasping restoration after spinal cord injury.
Neural Electrodes
Discusses the design and challenges of neural electrodes, focusing on reliability and interface mechanisms.
Motor Neuroprosthetics: peripheral nervous system
Explores motor neuroprosthetics, covering topics like amputation causes, EMG decoding, robotic hands, sensory feedback, and advanced control techniques.
Bioelectronic Medicine Fundamentals
Covers the basics of bioelectronic medicine, including ANS control, neural interfaces, and clinical applications.
