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Archive for the ‘neuroscience’ category: Page 1004

Jul 18, 2015

Monkey ‘brain net’ raises prospect of human brain-to-brain connection

Posted by in category: neuroscience

In two separate experiments, scientists have formed a network from the brains of monkeys and rats, allowing them to co-operate and learn as a “superbrain”.

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Jul 17, 2015

Drug perks up old muscles and aging brains

Posted by in categories: biotech/medical, life extension, neuroscience

Irina Conboy is making some amazing advances in aging and rejuvenation research at Berkley. The Conboy lab has been steadily making progress in regenerative medicine and is potentially a few years from having something viable in terms of regenerative medicine. It would be amazing if the community could get behind a single breakthrough project like Irina is working on and making sure this technology arrives soon.

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Jul 17, 2015

A Researcher Made an Organic Computer Using Four Wired-Together Rat Brains

Posted by in categories: computing, neuroscience

The internet of brains is here.

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Jul 13, 2015

Interconnected Rat Brains Create Organic Computer

Posted by in categories: bioengineering, bionic, biotech/medical, computing, neuroscience

Linked rat brains

Scientists have been experimenting with brain-to-brain interfaces for years. Miguel Nicolelis, a neurobiologist at Duke University Medical Center, has created a “Brainet” or a network of interconnected brains with four rats. With electrodes implanted directly in the cortex rodents exchange information to create an organic computing device. Collectively, they were able to solve computational problems including image processing, storing and recalling information and even predicting precipitation.

Read the full story by Mona Lalwani at Engadget

Jul 12, 2015

Scientists Can Now Meld Minds

Posted by in category: neuroscience

Duke scientists successfully linked the brains of two rats and three monkeys this week—bringing us one step closer to a superbrain that could harness the power of collective thought.

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Jul 10, 2015

Neuroscientists create organic-computing ‘Brainet’ network of rodent and primate brains — humans next

Posted by in categories: computing, electronics, futurism, neuroscience

Experimental apparatus scheme for a Brainet computing device. A Brainet of four interconnected brains is shown. The arrows represent the flow of information through the Brainet. Inputs were delivered (red) as simultaneous intracortical microstimulation (ICMS) patterns (via implanted electrodes) to the somatosensory cortex of each rat. Neural activity (black) was then recorded and analyzed in real time. Rats were required to synchronize their neural activity with the other Brainet participants to receive water. (credit: Miguel Pais-Vieira et al./Scientific Reports)

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Jul 5, 2015

Google’s Dream Robot Is Running Wild Across the Internet

Posted by in categories: information science, neuroscience, robotics/AI

Remember a few weeks back, when we learned that Google’s artificial neural network was having creepy daydreams, turning buildings into acid trips and landscapes into Magic Eye pictures? Well, prepare to never sleep again, because last week, Google made its “inceptionism” algorithm available to the public, and the nightmarish images are cropping up everywhere.

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Jul 4, 2015

These are the projects Elon Musk is funding to prevent killer AI

Posted by in categories: futurism, neuroscience, robotics/AI

Elon Musk has donated millions to the Future of Life Institute, and now the organization is putting that money to use by funding research into keeping artificial intelligence “robust and…

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Jun 30, 2015

Google’s artificial-intelligence bot says the purpose of living is ‘to live forever’

Posted by in categories: neuroscience, robotics/AI

Human: What is morality?

Machine: What is altruism?

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Jun 30, 2015

Swedish scientists create an artificial neuron that mimicks an organic one

Posted by in categories: electronics, futurism, neuroscience

Chemical-to-electrical-to-chemical signal transmission. A conventional neuron (upper panel) senses chemical signals (orange circles), which trigger an electrical pulse of membrane depolarization (action potential) along the axon, causing chemical release at the axon terminals (blue circles). This process can be mimicked (lower panel) by a chemical biosensor (for glutamate or acetylcholine) connected to an axon-mimicking organic electronic ion pump that transmits electrons/ions and generates chemicals — forming an organic electronic biomimetic neuron. (credit: Daniel T. Simon et al./Biosensors and Bioelectronics)

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