Explores the evolution, principles, and applications of Deep Brain Stimulation, focusing on its history, mechanisms, electrode configurations, and future prospects.
Covers neuromorphic computing, challenges in ternary and binary computing, hardware simulations of the brain, and new materials for artificial brain cells.
Explores shock waves in medical treatments, including lithotripsy for kidney stones and record-breaking supercomputing performance in computational fluid dynamics.
Explores the control of movement, motor cortex characteristics, mirror neurons, brain-machine interfaces, and the role of basal ganglia in movement initiation and suppression.
