Robot With A Biological Brain: New Research Provides Insights Into How The Brain Works

Main Category: Neurology / Neuroscience
Article Date: 15 Aug 2008 - 2:00 PDT

email icon email to a friend   printer icon printer friendly   write icon opinions  

Current Article Ratings:

Patient / Public:4 stars

4 (1 votes)

Healthcare Prof:4 stars

4 (1 votes)


A multidisciplinary team at the University of Reading has developed a robot which is controlled by a biological brain formed from cultured neurons. This cutting edge research is the first step to examine how memories manifest themselves in the brain, and how a brain stores specific pieces of data. The key aim is that eventually this will lead to a better understanding of development and of diseases and disorders which affect the brain such as Alzheimer's Disease, Parkinson's Disease, stoke and brain injury.

The robot's biological brain is made up of cultured neurons which are placed onto a multi electrode array (MEA). The MEA is a dish with approximately 60 electrodes which pick up the electrical signals generated by the cells. This is then used to drive the movement of the robot. Every time the robot nears an object, signals are directed to stimulate the brain by means of the electrodes. In response, the brain's output is used to drive the wheels of the robot, left and right, so that it moves around in an attempt to avoid hitting objects. The robot has no additional control from a human or a computer, its sole means of control is from its own brain.

The researchers are now working towards getting the robot to learn by applying different signals as it moves into predefined positions. It is hoped that as the learning progresses, it will be possible to witness how memories manifest themselves in the brain when the robot revisits familiar territory.

Professor Kevin Warwick from the School of Systems Engineering said "This new research is tremendously exciting as firstly the biological brain controls its own moving robot body, and secondly it will enable us to investigate how the brain learns and memorises its experiences. This research will move our understanding forward of how brains work, and could have a profound effect on many areas of science and medicine."

Dr Ben Whalley from the School of Pharmacy said "One of the fundamental questions that scientists are facing today is how we link the activity of individual neurons with the complex behaviours that we see in whole organisms. This project gives us a really unique opportunity to look at something which may exhibit complex behaviours, but still remain closely tied to the activity of individual neurons. Hopefully we can use that to go some of the way to answer some of these very fundamental questions. "

READING UNIVERSITY
Whiteknights
PO Box 217
Reading
RG6 6AH
http://www.rdg.ac.uk

Article adapted by Medical News Today from original press release.
Visit our neurology / neuroscience section for the latest news on this subject.
There are no references listed for this article.
Please use one of the following formats to cite this article in your essay, paper or report:

MLA
READING UNIVERSITY. "Robot With A Biological Brain: New Research Provides Insights Into How The Brain Works." Medical News Today. MediLexicon, Intl., 15 Aug. 2008. Web.
16 Feb. 2012. <http://www.medicalnewstoday.com/releases/118329.php>
APA
READING UNIVERSITY. (2008, August 15). "Robot With A Biological Brain: New Research Provides Insights Into How The Brain Works." Medical News Today. Retrieved from
http://www.medicalnewstoday.com/releases/118329.php.

Please note: If no author information is provided, the source is cited instead.


Neurology / Neuroscience

Most Popular Articles



Follow Our Neurology News On Twitter

Follow Us On Twitter
Get the latest news for this category delivered straight to your Twitter account. Simply visit our Neurology / Neuroscience Twitter account and select the 'follow' option.



View list of all 'What Is...' articles »