Explores how neural networks can help understand proprioception and muscle contraction.
Explores machine learning models for neuroscience, focusing on understanding brain function and core object recognition through convolutional neural networks.
Covers the basics of bioelectronic medicine, including ANS control, neural interfaces, and clinical applications.
Explores TRP channels' role in sensory perception, focusing on their activation by various stimuli and their implications in disease pathogenesis.
Discusses the neural mechanisms of locomotion and the role of electrical stimulation in restoring movement in individuals with spinal cord injuries.
Explores the importance of real-time sensory feedback in enhancing the control and functional impact of prosthetic hands through various neuroengineering methods.
Explores the importance and organization of sensory feedback in the peripheral nervous system, including artificial implementations.
Delves into collective behavior in Drosophila, highlighting social interactions, mechanosensation, and odor avoidance.
Covers advancements in bionic prostheses, focusing on sensory feedback integration and closed-loop control systems for enhanced user experience.
Delves into mechanosensory interactions driving collective behavior in Drosophila, exploring odor responses, group movement, and touch-triggered reactions.
