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Domain: scholarpedia.org

Stories and comments across the archive that link to scholarpedia.org.

Stories · 3

  1. Ask Slashdot: DIY Computational Neuroscience?

    Science · Education · · posted by timothy · from the next-week-we-cure-all-known-diseases dept. · 90 comments
    An anonymous reader writes "Over the last couple years, I have taught myself the basic concepts behind Computational Neuroscience, mainly from the book by Abbott and Dayan. I am not currently affiliated with any academic Neuroscience program. I would like to take a DIY approach and work on some real world problems of Computational Neuroscience. My questions: (1) What are some interesting computational neuroscience simulation problems that an individual with a workstation class PC can work on? (2) Is it easy for a non-academic to get the required data? (3) I am familiar with (but not used extensively) simulators like Neuron, Genesis etc. Other than these and Matlab, what other software should I get? (4) Where online or offline, can I network with other DIY Computational Neuroscience enthusiasts? My own interest is in simulation of Epileptogenic neural networks, music cognition networks, and perhaps a bit more ambitiously, to create a simulation on which the various Models of Consciousness can be comparatively tested."

  2. Could We "Wikify" Scholarly Canons?

    News · Books · · posted by Unknown · from the infinite-copyright-bites dept. · 63 comments
    An anonymous reader writes "'We can enormously extend the record; yet even in its present bulk we can hardly consult it' wrote Vannevar Bush in a 1945 Atlantic Monthly article. Nearly 70 years later, academics are still wrapping research in inaccessible journal articles. Might they be doing it wrong?"

  3. A Better Thought-Controlled Computer Cursor

    Tech · Biotech · · posted by timothy · from the you-know-what-you-want-to-do dept. · 34 comments
    An anonymous reader writes "Stanford researchers have developed a new algorithm (Abstract only) that significantly improves the control and performance of neural prosthetics — brain-controlled computer interfaces for individuals suffering from spinal cord injury and neurodegenerative disease to aid interaction with computers, drive electronic wheelchairs, and control robotic arms and legs. With this algorithm, monkeys implanted with multielectrode arrays in motor regions of their brain controlled a computer cursor more quickly and accurately than ever before, including navigation around obstacles. Further, the system maintained this high performance across 4 years, demonstrating long-term reliability. These improvements in performance and robustness are crucial for clinically-useful neural prosthetics, and pave the way for success in clinical trails."