This course is a shorter version of my medical school-caliber course, Medical Neuroscience. Like its parent course, this shorter course covers the organization and physiology of the human central nervous system. The focus of Foundational Neuroscience for Perception and Action is on the basic components of the brain and spinal cord, the means by which nerve cells generate electrical signals and communicate, the neural mechanisms of synaptic and circuit plasticity, and the organization of the sensory and motor systems that integrate experience and motivate behavior. Unlike its parent course, this shorter course is not so clinically focused. Rather, it aims to explore foundational mechanisms in neuroscience without emphasizing the competency of localizing lesions in the human central nervous system (a major focus of Medical Neuroscience).
The overall goal of this course is to equip learners to be successful in our specialization, Perception, Action and the Brain. To help you get the most out of our specialization, this course will teach you the basic neural mechanisms that makes it possible for the human brain to contend with an onslaught of sensory signals and generate successful behavior for survival and flourishing in a complex world. Thus, the other two courses in Perception, Action and the Brain will introduce you to the phenomenology of what we see and the means by which the brain generates visual representations (Visual Perception and the Brain), and challenge you to understand how the brain creates our sense of spatial location from a variety of sensory and motor sources, and how this spatial sense in turn shapes our cognitive abilities (The Brain and Space). The role, then, of Foundational Neuroscience for Perception and Action is to give you a "look under the hood" so that you can understand the neural mechanisms that operate at the level of synapses, circuits, and sensorimotor systems. You will then use this intimate knowledge of the inner workings of the human central nervous system as you take on the final project in our specialization.
This course is for advanced baccalaureate and prospective or current graduate students who are pursuing degrees in the brain sciences. It is also for students or professionals in technical fields concerned with human factors in computing, virtual reality, or gaming who are interested in understanding how the brain generates perceptions and actions. Teachers who are interested in understanding how the brain works as a means to enhance their curriculum in science education, or just to enhance student learning more generally will benefit. As will anyone who is simply curious about how the brain contends with sensory information and produces action.