Mathematical and computer modelling of the human brain with reference to cortical magnification and dipole source localisation in the visual cortx
Hurdal, Monica Kimberly (1998) Mathematical and computer modelling of the human brain with reference to cortical magnification and dipole source localisation in the visual cortx. PhD thesis, Queensland University of Technology.
Find a copy in the QUT Library.
Citations:
Citation countsare sourced monthly from Scopus and Web of Science citation databases.
These databases contain citations from different subsets of available publications and different time periods and thus the citation count from each is usually different. Some works are not in either database and no count is displayed. Scopus includes citations from articles published in 1996 onwards, and Web of Science generally from 1980 onwards.
Citations counts from the Google Scholar™ indexing service can be viewed at the linked Google Scholar™ search.
| ID Code: | 36978 |
|---|---|
| Item Type: | QUT Thesis (PhD) |
| Additional Information: | System requirements: IBM PC or compatible, CD-ROM drive. Presented to the School of Mathematical Sciences, Queensland University of Technology. |
| Keywords: | Brain Mathematical models, Brain Computer simulation, applied mathematics, brain, brain reconstruction, calcarine fissure, common average reference, computer science, confidence intervals, confidence regions, computer model, co-registration, cortical magnification, data visualisation, dipole, EEG, electroencephalography, electrophysiology, evoked potential, forward problem, fMRI, human, inverse problem, imaging, least squares, magnetic resonance imaging, magnetoencephalography, map, mathematical model, mathematics, MEG, model, MR, MRI, neural source, neuroanatomy, neurobiology, neurophysiology, neuroscience, nonlinear minisation, parameter estimates, physics, primary visual cortex, psychology, reconstruction, retina, retinoptic map, segmentation, source localisation, statistics, three-shell model, TMS, transcranial magnetic stimulation, transformation, V1, VEP, vision, visual cortex, visual evoked potential, visual field, visualisation, thesis, doctoral |
| Institution: | Queensland University of Technology |
| Copyright Owner: | Copyright Monica Kimberly Hurdal |
| Deposited On: | 22 Sep 2010 23:06 |
| Last Modified: | 09 Feb 2011 23:55 |
Export: EndNote | Dublin Core | BibTeX
Repository Staff Only: item control page