Here are some of the recent technological advances that allowed researchers to “crack” the human mind.
Neuroscientists at the University of California, Berkeley, led by Brian Pasley created a computer model capable of decoding activity in the auditory cortex of the human brain and then translating it into words.
The experiment involved 15 patients with epilepsy. Each of them was asked to read the text aloud first, and then silently. After analyzing their brain activity, the researchers developed an algorithm to decode and reconstruct the read words. Then these data were analyzed by a computational model, which accurately reproduced a number of single words.
Of course, this technology is at a very early stage, but the research team hopes that one day it will help patients with neurological disorders regain their ability to speak.
Researchers at the Nara Institute of Science and Technology in Japan managed to reconstruct the images appearing in the dreams of study participants with 60% accuracy. The study was aimed to find a link between the visual experiences in dreams and data from MRI scans of the sleeping brain.
Volunteers, whose brain activity was monitored as they were sleeping, were woken up and asked to describe what they had seen in their sleep. Their answers and brain scans were organized to a database and then correlated to new scans, obtained when the volunteers were awake and were shown a number of images on a computer.
The aim was to find which parts of their brains were active at that moment. When the study subjects were scanned again during sleep, the researchers were able predict what they were dreaming about 60% of the time.
Dr. Phillip Low from Stanford University invented a mind-reading device which was successfully tested on British astrophysicist Stephen Hawking.
The so-called iBrain belongs to the new generation of mobile devices designed to monitor and diagnose neurological disorders, such as Lou Gehrig’s disease that Hawking suffers from.
The device is basically an EEG headset which uses a single channel to monitor and record brainwaves while a person is doing some kind of activity, for example, sleeping or watching TV. Then the brainwaves are read by an algorithm and are transmitted to a computer.
During the tests, Hawking was asked to imagine that he was scrunching his right hand into a ball. As a result, the device managed to read the scientist’s mind and turn his brainwaves into a series of graphical representations.
The research initiated by the U.S. Army is developing the so-called synthetic telepathy technology that would make it possible to create text or voice messages and send them by thought. Just like the above, this idea is based on deciphering electrical activity in the brain using an electroencephalograph.
The first step is to compose a message using “the little voice in our head”. The next is to send it to a particular receiver by thought alone. It is the brain mapping technology that analyzes the sender’s brain activity and finds which word or phrase they are thinking about.
Similar technology has already been used in video games and is currently available in the market. According to Mike D’Zmura from the University of California, who leads the project, an invention like that could revolutionize our daily life, finding applications in mobile communications and gaming.
It was also mentioned that the technology might benefit paralysis and stroke patients; however, since the research is sponsored by the military, we can only guess what its real purposes are and how exactly this technology would be used in practice.
Scientists from the University of Washington, led by Dr. Eric C Leuthardt, built a device that connects people’s brains to a computer and enables it to ‘listen’ to their thoughts.
The technology, which is based on a technique used to identify epilepsy, allowed several patients to move a cursor on a computer screen by thinking of a series of words. However, the problem is that the patients had to undergo a craniotomy in order to have the electrodes placed onto their brains. These electrodes would emit signals, which would then be received and processed by a computer.
As a result of the trials, the study subjects managed to control a cursor speaking words aloud and in their head with 90% accuracy.
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hi anna, im in year 11 at school and had to pick a 'artist' as such to base my gcse work on. i have picked you for my work and was wondering if you could tell me what materials you use to make your images and what inspiers you and your ideas. thanks.
Interesting, but I have to disagree with the statement that mind-reading belongs to science fiction. Mind-reading is a fact, but it belongs within the activities of advanced seance groups. Psychics and spirit visitors know all about mind-reading.
Made a very important ( revolutionary and unpublished ) discovery - invention-the1.first practical device for reading human thoughts, AChM; 2.аппарат для чтения мыслей человека, АЧМ; 3.human mind reading machine;4.brain decoder; 5.brain decoding machine interface; 6.device for thoughts identification. I can not to publish my discovery and I invite partnership and need moral support. Thank you. Сурен Акопов. Email : tyristcheget@gmail.com
The use of fMRI to interpret thoughts originated with the 2004-2005 research of Donald H. Marks, published : Multidimensional Representation of Concepts as Cognitive Engrams in the Human Brain. The Internet Journal of Neurology [peer-reviewed serial on the Internet]. 2007. Volume 6, Number 1. Marks’ patent application on using fMRI for thought interpretation was filed 7/13/05, claiming priority benefit to 10/19/04.
Other work published subsequent to Marks 2007, which also validate Marks’ concept of a library of Cognitive Engrams, include Kay, Naselaris, Prenger & Galant 2007, and also Kriegeskorte et al 2007. The conceptual work first documented by Marks 2007 envisions a veritable Rosetta Stone, allowing two-way movement between actual imaging data and a database of activation maps created from neuroimaging studies. A wide range of faces, objects, places and concepts have unique activation map correlates, which are termed Cognitive Engrams. The presence of specific Cognitive Engrams within neuroimaging data allows for the identification of the actual thought which led to a specific brain activation – a form of applied mind reading. Applications under development include background and security checks, lie detection, and non-invasive interrogation (Marks DH et al: Determination of Truth from Deception Using Functional MRI and Cognitive Engrams. The Internet Journal of Radiology [peer-reviewed serial on the Internet]. 2006. Volume 5, Number 1).