Lectures related to Bionic Prostheses: Restoring Sensory Feedback through Neuroengineering

Neural Interfaces: Fundamentals of Neuroengineering

Explores the fundamentals of neural interfaces, covering design principles, evolution of cortical interfaces, and innovations in electrode technology.

Peripheral sensory feedback

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

Neural Signals and Prosthetic Control

Explores intramuscular EMG signals, targeted muscle reinnervation, and neural interfaces for prosthetic control.

Optimization of Neuroprosthetic Systems

Explores the optimization of neuroprosthetic systems, including sensory feedback restoration and neural stimulation strategies.

Sensory Feedback in Neuroprosthetics

Explores the importance of real-time sensory feedback in enhancing the control and functional impact of prosthetic hands through various neuroengineering methods.

Neuroengineering: Sensory Feedback and Prosthetic Control

Delves into sensory feedback mechanisms and biomimetic encoding for artificial limbs.

Hybrid Neural Models: Introduction and Applications

Covers hybrid neural models for neuroprosthetics, nerve stimulation optimization, and grasping restoration after spinal cord injury.

Neural Signal Recording: Electrode Types and Applications

Explores neural signal recording methods using various electrode types for in-vivo and in-vitro studies.

Neural Signals and Signal Processing

Explores neural signals, EMG control, muscle synergies, and HD-EMG for prosthetic devices.

Neural Engineering: Fundamentals and Applications

Covers neural engineering fundamentals, brain-computer interfaces, neuroprosthetics, and deep brain stimulation for enhancing human function.

Motor Neuroprosthetics: Brain-Machine Interfaces

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

Bionic Limbs: Bridging Neuroengineering and Prosthetics

Discusses advancements in neuroengineering for developing bionic limbs and enhancing sensory feedback for improved user experience.

Neural Interfaces: Decoding Signals for Neuroprostheses

Explores decoding neural signals for neuroprostheses, including muscle force production and spike detection.

Neuralink & Visual Prostheses

Explores the advancements in brain-machine interfaces and visual prostheses, addressing challenges and future prospects.

Neural Interfaces: Electrodes

Delves into the world of neural interfaces, focusing on the implementation of invasive and non-invasive electrodes and the evolution of electrode technologies.

Neural Signals and Signal Processing

Explores neural signal processing for brain-computer interfaces, including decoding techniques like Kalman filters and spike sorting.

Miniaturized CMOS Interfaces

Explores miniaturized CMOS interfaces for neural signals processing and neurostimulation.

Cortex-Wide Opto-Electrophysiological Recordings: eSee-Shells

Focuses on the development of 'eSee-Shells', chronic multimodal neural interface devices using transparent, inkjet-printed electrocorticography (ECoG) arrays.

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.

Neural Signal Recording: Electrode Types and Applications

Explores various electrode types for neural signal recording and their applications in in-vivo and in-vitro settings.