Lectures related to Prosthesis

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.

Extra Robotic Limbs

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

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.

Bionic Prostheses: Restoring Sensory Feedback and Functionality

Covers advancements in bionic prostheses, focusing on restoring sensory feedback and enhancing functionality for amputees.

Bionic Limbs: Bridging Neuroengineering and Prosthetics

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

Neuroengineering: Sensory Feedback and Prosthetic Control

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

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.

Modular Hand Prosthesis: G3

Details the creation of a modular hand prosthesis using 3D printing.

Advanced Manufacturing of Metals - Part I

Explores Laser Powder Bed Fusion of metals, showcasing AM advantages in aerospace, automotive, and biomedical applications, and discussing key process parameters for successful metal AM.

Restoring Sensation to Hand Amputees

Explores restoring sensation to hand amputees using innovative technology and draws parallels to the Sistine Chapel painting.

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.

Neural Signals and Prosthetic Control

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

Neural Signals and Signal Processing

Explores neural signals, EMG processing, muscle synergies, and prosthetic control using advanced signal processing techniques.

Shoulder Biomechanics: Numerical Methods

Explores the engineering of the shoulder joint, covering biomechanics, numerical methods, and clinical applications.

Motor Neuroprosthetics: peripheral nervous system

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

Polyethylene Wear in Shoulder Prostheses

Explores the impact of polyethylene wear on shoulder prostheses under various loading conditions and simulation techniques.

Control System Example: Prosthetic Arm

Presents a mind-controlled prosthetic arm that revolutionizes human-machine interaction.

The Magnetic Muscle: magnetic design challenge

Explores the creation of artificial muscles using magnetic polymer for enhanced nimbleness.

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.

Total Hip Arthroplasty: Biomechanics and Kinematics

Explores Total Hip Arthroplasty biomechanics, kinematics, and associated problems.