PPT-Real-time fMRI brain computer interfaces: Self-regulation of single brain regions to networks

Sergio Ruiz Korhan Buyukturkoglu Mohit Rana Niels Birbaumer amp Ranganatha Sitaram Biological Psychology 95 2014 Participant Scanner Task Offline Participant. A new approach to Artificial Intelligence. Why is creating an . Artifical. Bran difficult?. There are HUGE differences between brain architecture and computer architecture. The difficulty to emulate one system on another system increases linear with the number of differences in architecture between the two systems.. SESAPS October 2011. Research Team. 2. Linda Larson-Prior. Washington Univ.. Zang-Hee. Cho. Gachon. University. Seong. K. . Mun. Kenneth H. Wong. Alpay. . Özcan. Why should we study sleep?. 3. Fundamentals of Sleep. Shinji . Nishimoto. , An T. Vu, Thomas . Naselaris. , Yuval . Benjamini. , Bin Yu, Jack L. Gallant. Presented by Matthew Leming. Overview. Background. : What is fMRI? What is the vocabulary used in this paper? Now is it relevant to computer vision?. to Real-time Self . Dr. Evian Gordon. Chairman & Founder: Brain Resource Company. Director: . BRAINnet.net. Know and Train . Your Brain-. Body-Self . Essential Self . Quantified Self. War Related Illness and Injury Study Center (WRIISC). VA Palo Alto Health Care System. Clinical Assistant Professor (Affiliated) of Psychiatry and Behavioral Sciences. Stanford University School of Medicine, CA. 1Causal Mapping Framework and Initial FindingsJulienDubois14HiroyukiOya5 JMichaelTyszka2 MatthewHowardIII5 FrederickEberhardt1 and RalphAdolphs1231Divisionof Humanities and Social Sciences2Division of —a measure of X-ray absorption at several positions around the head, maps tissue density. Magnetic resonance imaging (MRI). gives higher resolution images in three steps:. Strong magnets cause protons in brain tissue to line up in parallel. A pulse of radio waves knocks protons over. Protons reconfigure themselves, emitting radio waves that differ by tissue density.. Ged. Ridgway. Wellcome Trust Centre for Neuroimaging. UCL Institute of Neurology. SPM Course. October 2011. Contents. Historical background. Positron emission tomography (PET). Statistical parametric mapping (SPM). Thomas J. Grabowski, Jr., MD. Professor, Radiology and Neurology (joint). Director, UW Integrated Brain Imaging . Center. Director, UW Alzheimer’s Disease Research Center. CSE/EE 577. October . 18. This document is published by the European Commission, DG Research and Innovation. Neither the European Commission nor any person acting on their behalf is responsible for the use which might be mad Encyclopedia of the Brain Functional Magnetic Resonance Imaging Robert Savoy Page 2 of 21I. Introduction It has long been known that there is some degree of localization of function in the human brain This is the first book on brain-computer interfaces (BCI) that aims to explain how these BCI interfaces can be used for artistic goals. Devices that measure changes in brain activity in various regions of our brain are available and they make it possible to investigate how brain activity is related to experiencing and creating art. Brain activity can also be monitored in order to find out about the affective state of a performer or bystander and use this knowledge to create or adapt an interactive multi-sensorial (audio visual tactile) piece of art. Making use of the measured affective state is just one of the possible ways to use BCI for artistic expression. We can also stimulate brain activity. It can be evoked externally by exposing our brain to external events whether they are visual auditory or tactile. Knowing about the stimuli and the effect on the brain makes it possible to translate such external stimuli to decisions and commands that help to design implement or adapt an artistic performance or interactive installation. Stimulating brain activity can also be done internally. Brain activity can be voluntarily manipulated and changes can be translated into computer commands to realize an artistic vision. The chapters in this book have been written by researchers in human-computer interaction brain-computer interaction neuroscience psychology and social sciences often in cooperation with artists using BCI in their work. It is the perfect book for those seeking to learn about brain-computernbspinterfaces used for artistic applications. Silvina G Horovitz, PhD. Human Motor Control Section. Medical Neurology Branch. National Institute of Neurological Disorders and Stroke. National Institutes of Health. Outline. EEG overview. . Why simultaneous EEG-fMRI?. Jan . Petr. MRI quick summary. Spin property of hydrogen atoms. Using strong B. 0. magnetic field. 1.5 T, 3T – clinical scanners. 7T – experimental scanners. MRI quick summary. Imaging magnetic properties of tissue.