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I was thinking, same thing.
This is Sad
From who?
Yes i did thanks
IN TIME THIS WILL GO UP.
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On amazon.com they have two neursync 60hz an 50hz what dose this mean?
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How Mind-Controlled Devices Will Change Our Future
SEP 18, 2012
Qualcomm products mentioned within this post are offered by Qualcomm Technologies, Inc. and/or its subsidiaries.
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On a Sunday night nine years ago, I arrived home for a family dinner, greeted at the door by my sister. It took no more than a few seconds for her to notice that I wasn’t my usual cheery self. She knew the exact remedy to liven me up: a bowl of Mum’s delicious soup and our favorite '80s playlist, which got both of us grooving and singing along. Before long, I was laughing joyfully, my worries and concerns temporarily suspended.
These simple steps were so obvious to my sister, yet completely out of the realm of possibility for a computer. Computing applications primarily respond to what you explicitly direct them to do. They can’t observe your mood or feelings and respond intuitively. I couldn't help but wonder back then whether it might be possible to introduce this whole realm of human interaction to human-computer interaction. Could technology be developed that not only understands what you direct it to do, but also knows how to respond to your facial expressions, moods, and emotional cues?
Interpreting Brainwaves
The human brain is made up of billions of active neurons. When these neurons interact, the chemical reaction emits an electrical impulse, which can be measured. By observing the fluctuations in electrical impulses and how groups of neurons interact and then shift rhythm to coordinate with other subsets of neurons, we can glean some insight into the emotional and cognitive states of a person and even deduce his or her facial expressions.
This idea led to the creation of Emotiv and developing our EPOC neuroheadset, which reads and interprets your brainwaves. The headset's multisensor "arms," which extend to the front and back of your head, pick up electrical signals from different functional parts of the brain. Both subconscious and conscious mental states can be detected using advanced algorithms, allowing the computer to react more naturally to the user’s mental state and even to accept direct mental commands.
That's the technical explanation of how the technology works, but what does it really mean to our daily lives? For one, it can actually help improve your mood the way my sister did on that Sunday night. A device like the neuroheadset can determine what movies, photos, and music make you happy or sad, for example, by picking up your brainwaves. It observes electrical fluctuations while you're experiencing them, then uses mathematical algorithms to apply emotional tags to them. So if you happen to come home feeling down after a long day at work, you put on the headset, and it picks up on your mood and then begins playing songs it knows will make you relax and feel better. Or, if you want to search for that particular part of a movie that makes you laugh out loud, the device can easily find it when you recall that happy moment. The technology is still in its infancy, but there are already some fun applications.
Moving Objects With Your Mind
The possibilities extend far beyond the emotional-tagging of playlists. A young woman who was severely immobilized from a car accident almost a decade ago struggled for years to regain the ability and confidence to communicate with her loved ones. Through her own perseverance and the commitment and dedication of her caregivers, she has been able to slowly build her ability to manipulate objects simply with her mind. Wearing the neuroheadset, she can move a virtual cube on the computer screen forward, lift it up, and let it return to its default position. The mental commands may seem simple, but the tears of joy and smile that beams across her face for the first time in a decade is priceless. There is still much work to do in refining the algorithms and building on the capacity of this technology, but the potential for life-changing applications is already there.
In the Midwest, a doctor reported he was working with the family of a coma patient who had been in a presumed vegetative state for nearly 10 years. Her family insisted she was still mentally active although the classic neurological indicators pointed to a complete coma. The doctor fitted the patient with a standard EPOC headset and was amazed to discover that the patient was able to issue mental commands despite being completely immobilized. Since then the patient has developed a means of communication to interact with her family. The life-changing potential of this technology and the groundbreaking research that can be accomplished are our driving passions.
Taking Brain Research to New Levels
What’s most exciting about this technology as we look into the horizon is the opportunity it has to revolutionize brain research. A fundamental shift is happening in the way in which brain data is being collected. Each of these neuroheadsets is a high-resolution, multi-channel EEG system, taking in more than 2,000 samples of data every second. They're not patients going into hospitals or clinics to get their brains imaged; they're simply everyday people, in the comfort of their own homes or workplaces, doing everyday tasks and activities. And they're contributing brain data at a much greater frequency and wider range of circumstances than what is feasible in a clinical context.
This opens up immense potential for longitudinal monitoring and observation of neuroplasticity and development, and also for users to improve aspects of their mental performance through monitoring and feedback. EEG signatures for focused activity, concentration, relaxation, memory, learning, and linguistic skills already exist and can be used to help users to improve their mental performance. Leveraging this dataset will give us fantastic opportunity to develop new and much better measures across the population or those targeted to specific users, and will be invaluable in developing new ways to detect and monitor undesirable mental conditions.
One of the most humbling aspects of being a pioneer in this area is seeing the steady and gradual adoption of this technology from all fields of endeavor, from psychology to psychiatry, from computer science to machine learning, from artists to musicians, from tinkerers to hackers. The human brain is a frontier worth exploring, and with an interdisciplinary, cross-cultural approach, the possibilities seem endless.
This article is commissioned by Qualcomm Incorporated. The views expressed are the author's own.
Invention
Opinions expressed in the content posted here are the personal opinions of the original authors, and do not necessarily reflect those of Qualcomm Incorporated or its subsidiaries ("Qualcomm"). The content is provided for informational purposes only and is not meant to be an endorsement or representation by Qualcomm or any other party. This site may also provide links or references to non-Qualcomm sites and resources. Qualcomm makes no representations, warranties, or other commitments whatsoever about any non-Qualcomm sites or third-party resources that may be referenced, accessible from, or linked to this site.
Some articles appearing on Spark have been commissioned, and in some cases paid for, by Qualcomm. However, these articles are not intended and should not be construed as endorsements of Qualcomm or its products or services. The views expressed in such articles are solely those of the respective authors, and each author has editorial control and sole responsibility for the content of his or her article.
Tan Le
«Top News
Vegetative patient "talks" using brain waves
Wed Feb 3, 2010 5:35pm EST
By Kate Kelland
LONDON (Reuters) - A man in a deeply unconscious state for five years has been able to communicate with doctors using just his thoughts in a study scientists say is a "game changer" for care of vegetative state patients.
British and Belgian researchers used a brain scanner called functional magnetic resonance imaging to show the man, who suffered a severe traumatic brain injury in a road accident in 2003, was able to think "yes" or "no" answers to questions by wilfully changing his brain activity.
Experts say the result means all patients in coma-like states should be reassessed and it may change the way they are cared for in future.
After detecting signs of awareness, the doctors scanned the man's brain while he was asked to say "yes" or "no" to questions such as "is your father's name Thomas?." The results showed that by changing his brain activity, the man communicated his answer.
"We were astonished when we saw the results of the patient's scan and that he was able to correctly answer the questions that were asked by simply changing his thoughts," said Adrian Owen, co-author of the study from the Medical Research Council.
"Not only did these scans tell us that the patient was not in a vegetative state but, more importantly, for the first time in five years it provided the patient with a way of communicating his thoughts to the outside world."
The man, now 29 years old, was one of 23 patients diagnosed as being in a vegetative state who were scanned using functional magnetic resonance imaging (fMRI).
The scans detected signs of awareness in four of the patients, the researchers wrote in their study published in the New England Journal of Medicine on Wednesday.
The fMRI method used can decipher the brain's answers to questions in healthy people with 100 percent accuracy, but it has never been tried before in patients unable to move or speak.
Nicholas Schiff, a neurologist from Weill Cornell Medical College in New York, said the findings were a "game changer" that could "have a profound impact across medicine."
In comments sent by email, he said the results called for the reassessment of all patients currently in so-called "minimally conscious" or "vegetative" states.
Allan Ropper of Brigham and Women's Hospital in Boston said the study suggested such scans may be one more test doctors can use on people who recover from a coma but remain unresponsive.
In an online commentary on the study, Ropper stressed that brain activation was detected in very few patients and only those with a traumatic injury, not in cases where the whole brain had been damaged by oxygen starvation.
A bitter right-to-die row erupted in the United States in 2005 over the fate of Terri Schiavo, a 41-year-old woman who had been in a vegetative state since a heart attack in 1990.
Schiavo's case went back and forth through the U.S. courts and even prompted then President George W. Bush to intervene as her husband fought for doctors to halt feeding and let her die.
Experts say traumatic brain injury can heal better than injury from stroke or heart attack, such as Schiavo suffered.
A similar case in Italy involved a comatose woman whose father had battled for 10 years to have her feeding tube disconnected. Eluana Englaro died last year.
(Additional reporting by Gene Emery; Editing by Charles Dick)
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