Presentation is loading. Please wait.

Presentation is loading. Please wait.

High-Performance and Grid Computing for Neuroinformatics: EGI, UO, and Cerebral Data Systems Allen D. Malony University of Oregon Professor Department.

Published byRosalyn Cox Modified over 8 years ago

Similar presentations

Presentation on theme: "High-Performance and Grid Computing for Neuroinformatics: EGI, UO, and Cerebral Data Systems Allen D. Malony University of Oregon Professor Department."— Presentation transcript:

1 High-Performance and Grid Computing for Neuroinformatics: EGI, UO, and Cerebral Data Systems Allen D. Malony University of Oregon Professor Department of Computer and Information Science Director NeuroInformatics Center Computational Science Institute

2 Building Collaborations, OBA 2006March 8, 2006 High-Performance and Grid Computing for Neuroinformatics Computer / Computational Science Collaborations  Increasing importance of computer science and computational science in Oregon science industry  Build on research strengths in Oregon’s universities  High-performance, parallel, and grid computing  Informatics, database and data mining, semantic web  Computational science  Open source technologies  Leverage Oregon’s strong high-tech computer industry  Need to build the bridges for computer / computational science transfer to science industry  Research / business partnerships for technology transfer  Infrastructure investment

3 Building Collaborations, OBA 2006March 8, 2006 High-Performance and Grid Computing for Neuroinformatics Epilepsy  Epilepsy affects ~5.3 million people in the U.S., Europe, and Japan  EEG in epilepsy diagnosis  Childhood and juvenile absence  Idiopathic (genetic)  Can be “generalized” or multifocal  EEG in presurgical planning  Fast, safe, inexpensive  128/256 channels  Challenge is to localize seizure onset and networks

4 Building Collaborations, OBA 2006March 8, 2006 High-Performance and Grid Computing for Neuroinformatics EEG Methodology  Electroencephalogram (EEG)  EEG time series analysis  Event-related potentials (ERP)  averaging to increase SNR  linking brain activity to sensory–motor functions  linking brain activity to cognitive functions  Signal cleaning (removal of noncephalic signal, “noise”)  Signal decomposition (PCA, ICA, and other methods)  Neural source localization

5 Building Collaborations, OBA 2006March 8, 2006 High-Performance and Grid Computing for Neuroinformatics Electrical Geodesics Inc. (EGI)  EGI Geodesics Sensor Net  Dense-array sensor technology  64/128/256 channels  256-channel geodesics sensor net  AgCl plastic electrodes  Carbon fiber leads  Net Station  Advanced EEG/ERP data analysis  Stereotactic EEG sensor registration  Research and medical services  Epilepsy diagnosis, pre-surgical planning

6 Building Collaborations, OBA 2006March 8, 2006 High-Performance and Grid Computing for Neuroinformatics EGI in the Press Explores cutting-edge brain-imaging techniques and equipment that are helping researchers learn more about the mind. One research group is using EGI's Geodesic Sensor Net (GSN) to study the brain while it is in various meditative states. Researchers are using EGI's Geodesic Sensor Net (GSN) and other technologies to learn more about what the infant brain perceives.

7 Building Collaborations, OBA 2006March 8, 2006 High-Performance and Grid Computing for Neuroinformatics UO Brain, Biology, and Machine Initiative  Interdisciplinary and collaborative research  cognitive neuroscience, biology, physics, computer science  Focus on human neuroscience problems  Understanding of cognition and behavior  Relation to anatomy and neural mechanisms  Linking with molecular analysis and genetics  Created Neuroinformatics Center (NIC)  Informatics and computational methods  Integrated neuroimaging  advanced statistical signal analysis (PCA, ICA)  computational brain models (FDM, FEM)  source localization models (dipole, linear inverse)  Internet-based brain analysis and database services

8 Building Collaborations, OBA 2006March 8, 2006 High-Performance and Grid Computing for Neuroinformatics UO ICONIC Grid  NSF Major Research Instrumentation (MRI) proposal  “Acquisition of the Oregon ICONIC Grid for Integrated COgnitive Neuroscience Informatics and Computation”

9 Building Collaborations, OBA 2006March 8, 2006 High-Performance and Grid Computing for Neuroinformatics Cerebral Data Systems  Partnership between EGI and University of Oregon  Develop and market neuroinformatics services  Neurological medical data transfer, storage, and analysis  High-performance and sophisticated EEG and MR analysis  Telemedicine and distributed collaboration  Shared brain repositories  Target markets  Research and clinical  Epilepsy diagnosis and pre-surgical planning  MR image segmentation  Technology integration  Internet and computional grids  High-performance computing

Download ppt "High-Performance and Grid Computing for Neuroinformatics: EGI, UO, and Cerebral Data Systems Allen D. Malony University of Oregon Professor Department."

Similar presentations

The Event-Related Potential (ERP) Embedded in the EEG signal is the small electrical response due to specific events such as stimulus or task onsets, motor.

The Event-Related Potential (ERP) Embedded in the EEG signal is the small electrical response due to specific events such as stimulus or task onsets, motor.
Electroencephalogram (EEG) and Event Related Potentials (ERP) Lucy J. Troup 28 th January 2008 CSU Symposium on Imaging.

Electroencephalogram (EEG) and Event Related Potentials (ERP) Lucy J. Troup 28 th January 2008 CSU Symposium on Imaging.
Funding Opportunities at NSF Jane Silverthorne International Arabidopsis Consortium Workshop January 15, 2011.

Funding Opportunities at NSF Jane Silverthorne International Arabidopsis Consortium Workshop January 15, 2011.
Epileptic Seizure: prediction and prevention

Epileptic Seizure: prediction and prevention
Helena Chui, M.D. McCarron Professor and Chair of Neurology Director, Alzheimer Disease Research Center.

Helena Chui, M.D. McCarron Professor and Chair of Neurology Director, Alzheimer Disease Research Center.
Structural Genomics – an example of transdisciplinary research at Stanford Goal of structural and functional genomics is to determine and analyze all possible.

Structural Genomics – an example of transdisciplinary research at Stanford Goal of structural and functional genomics is to determine and analyze all possible.
Electroencephalography Electrical potential is usually measured at many sites on the head surface.

Electroencephalography Electrical potential is usually measured at many sites on the head surface.
NEUR 4850 Advanced Techniques in Cognitive Neuroscience.

NEUR 4850 Advanced Techniques in Cognitive Neuroscience.
Neuroinformatics Research at UO. NeuroInformatics CenterFeb 2005BBMI: Brain, Biology, Machine Initiative Experimental Methodology and Tool Integration.

Neuroinformatics Research at UO. NeuroInformatics CenterFeb 2005BBMI: Brain, Biology, Machine Initiative Experimental Methodology and Tool Integration.
3-D Visualization of Functional Brain Map Data A.V. Poliakov; E.B. Moore; J.F. Brinkley, Structural Informatics Group Department of Biological Structure.

3-D Visualization of Functional Brain Map Data A.V. Poliakov; E.B. Moore; J.F. Brinkley, Structural Informatics Group Department of Biological Structure.
Neuroinformatics, the ICONIC Grid, and Oregon’s Science Industry Allen D. Malony University of Oregon Oregon’s 2004 Bioscience ConferenceMay 10, 2004 Professor.

Neuroinformatics, the ICONIC Grid, and Oregon’s Science Industry Allen D. Malony University of Oregon Oregon’s 2004 Bioscience ConferenceMay 10, 2004 Professor.
ICONIC Grid – Improving Diagnosis of Brain Disorders Allen D. Malony University of Oregon Professor Department of Computer and Information Science Director.

ICONIC Grid – Improving Diagnosis of Brain Disorders Allen D. Malony University of Oregon Professor Department of Computer and Information Science Director.
The Neural ElectroMagnetic Ontology (NEMO) System: Design & Implementation of a Sharable EEG/MEG Database with ERP ontologies G. A. Frishkoff 1,3 D. Dou.

The Neural ElectroMagnetic Ontology (NEMO) System: Design & Implementation of a Sharable EEG/MEG Database with ERP ontologies G. A. Frishkoff 1,3 D. Dou.
David L. Spooner1 IT Education: An Interdisciplinary Approach David L. Spooner Rensselaer Polytechnic Institute.

David L. Spooner1 IT Education: An Interdisciplinary Approach David L. Spooner Rensselaer Polytechnic Institute.
IMAGING THE MIND Direct methods –Electrical activity (EEG, MEG) –Metabolic activity (EROS) Indirect methods –Changes in regional Cerebral Blood Flow (rCBF)

IMAGING THE MIND Direct methods –Electrical activity (EEG, MEG) –Metabolic activity (EROS) Indirect methods –Changes in regional Cerebral Blood Flow (rCBF)
Cognitive Science and Cognitive Neuroscience PSY 421 – Fall 2004.

Cognitive Science and Cognitive Neuroscience PSY 421 – Fall 2004.
Neuroinformatics, the ICONIC Grid, and GEMINI Allen D. Malony University of Oregon Professor Department of Computer and Information Science Director NeuroInformatics.

Neuroinformatics, the ICONIC Grid, and GEMINI Allen D. Malony University of Oregon Professor Department of Computer and Information Science Director NeuroInformatics.
Allen D. Malony Performance Research Laboratory (PRL) Neuroinformatics Center (NIC) Department.

Allen D. Malony Performance Research Laboratory (PRL) Neuroinformatics Center (NIC) Department.
OMICS Group Contact us at: OMICS Group International through its Open Access Initiative is committed to make genuine and.

OMICS Group Contact us at: OMICS Group International through its Open Access Initiative is committed to make genuine and.
ERP DATA ACQUISITION & PREPROCESSING EEG Acquisition: 256 scalp sites; vertex recording reference (Geodesic Sensor Net)..01 Hz to 100 Hz analogue filter;

ERP DATA ACQUISITION & PREPROCESSING EEG Acquisition: 256 scalp sites; vertex recording reference (Geodesic Sensor Net)..01 Hz to 100 Hz analogue filter;

Similar presentations

Ads by Google