If the idea of physicalism is correct — that all of our mental states can be described in purely physical terms — then neuroscience is not only the study of our brains, but the study of our entire existence. Neuroengineering, defined as the application of engineering principles to neurological problems, then becomes how we engineer our relationship with existence itself.
Fifty years ago, nobody but computer programmers knew the personal computer was being developed, and the primary market for the device was thought to be scientists. Today, computers are a ubiquitous.
Digital technology has revolutionized nearly every facet of our lives. Today, neuroengineering is in a similar infancy. While most people would understand the basic idea of using engineering techniques to alter, improve, repair, and study neural systems, most people would lack for ideas on the application.
This article is part of a series sponsored by The Hertz Foundation. Discover more of what remarkable students can do in the sciences: — From Space Elevators to Drone Delivery, Looking for Failure Inspires Innovation
Dr. Ed Boyden is somebody who does not lack for those ideas.
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Brain Science: Optogenetics and Expansion Microscopy
MIT Professor, Media Lab Synthetic Neurobiology Group Leader
As professor of Biological Engineering and Brain and Cognitive Sciences at the MIT Media Lab, Boyden has launched an award-winning series of classes at MIT which teach principles of neural engineering, starting with the basic principles of how to control and observe neural functions. While studying neuroscience at Stanford University as a Hertz Foundation Fellow, Boyden discovered that human memories are stored by a specific molecular mechanism, and that the content of a memory determines the mechanism used by the brain.
His work focuses on dramatically improving how the brain is imaged, opening a world of opportunities for people who wish to study the neural pathways that make our brains work. Dr. Boyden’s high resolution 3-D maps of the brain, unlike prior 2-D maps, allow researchers to pinpoint exactly what part of the brain they wish to…
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