Conference on Neural assemblies

One of the current fundamental problems in neuroscience is to understand how the activation of large populations of neurons gives rise to the higher order functions of the brain including learning, memory, cognition, perception, action and ultimately conscious awareness. Electrophysiological recordings in behaving animals over the past forty years have revealed considerable information about what the firing patterns of single neurons encode in isolation, but it remains largely a mystery how collections of neurons interact to perform these functions. Recent technological advances have provided new glimpses into the global functioning of the brain. These technologies include functional magnetic resonance imaging, optical imaging and manipulation methods, high-density electroencephalography and magnetoencephalography, and multi-microelectrode array electrophysiology. These technologies have expanded our knowledge of brain functioning beyond the single neuron level. At the same time, our understanding of how neuronal ensembles carry information has allowed the development of brain-machine interfaces (BMI) to enhance the capabilities of patients with sensory and motor deficits. Knowledge of how neuronal ensembles encode sensory stimuli has made it possible to develop perceptual BMIs for the hearing and visually impaired. Likewise, research in how neuronal ensembles decode motor intentions has resulted in motor BMIs by which people with severe motor disabilities can control external devices. Read on.......