Bionic Artificial Limbs: Challenges and Innovations

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Related lectures (32)

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Motor Neuroprosthetics: Decoding and Control

Explores motor neuroprosthetics, covering peripheral nervous system, motor decoding, robotic hands, and sensory feedback through advanced techniques and implantable systems.

Brain-Computer Interfaces: Advancements in Systems Neuroscience

Covers brain-computer interfaces and their impact on systems neuroscience and neuroprosthetics.

Neural Signals and Signal Processing: Decoding Techniques

Explores decoding techniques for neural signals using invasive interfaces, regenerative electrodes, and intraneural electrodes to improve prosthesis control and reduce neuroma pain.

Neuroprosthetics: Enhancing Sensory Feedback in Limb Control

Covers neuroprosthetics, focusing on enhancing sensory feedback for improved limb control.

Bionic Prostheses: Restoring Sensory Feedback through Neuroengineering

Covers neuroengineering techniques for restoring sensory feedback in bionic prostheses, focusing on electrode design and targeted muscle reinnervation.

Peripheral sensory feedback

Explores the importance and organization of sensory feedback in the peripheral nervous system, including artificial implementations.

Motor Neuroprosthetics: Brain-Machine Interfaces

Explores Brain-Machine Interfaces for motor control and communication using neural signals.

Motor Neuroprosthetics: peripheral nervous system

Explores motor neuroprosthetics, covering topics like amputation causes, EMG decoding, robotic hands, sensory feedback, and advanced control techniques.

Extra Robotic Limbs

Explores human-robot augmentation through wearable robotics systems, focusing on extra limbs' embodiment and sensory feedback challenges.

Neurotechnology: Enhancing Sensory Feedback in Prosthetics

Covers advancements in neurotechnology for enhancing sensory feedback in prosthetic devices, focusing on texture perception and cognitive load effects on performance.