@ARTICLE\{IMM2006-03516,
    author       = "F. {\AA}. Nielsen and M. S. Christensen and K. M. Madsen and T. E. Lund and L. K. Hansen",
    title        = "fMRI Neuroinformatics",
    year         = "2006",
    month        = "mar",
    keywords     = "neuroimaging, image analysis, software",
    pages        = "112-119",
    journal      = "{IEEE} Engineering in Medicine and Biology Magazine",
    volume       = "25",
    editor       = "Tülay Adali and Vince D. Calhoun",
    number       = "2",
    publisher    = "IEEE",
    url          = "http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1607675",
    abstract     = "Functional magnetic resonance imaging (fMRI) generates vast amounts of data. The handling, processing, and analysis of fMRI data would be inconceivable without computer-based methods. fMRI neuroinformatics is concerned with research, development, and operation of these methods. Reconstruction, rudimentary analysis and visualization tools are implemented in software controlling modern {MRI} scanners. Research in advanced methods for analysis of subtle activation patterns, realistic physiological modeling, or for integration of data from multiple subjects etc., is the basis for a lively research field and has led to the development of a large number of tools.",
    isbn_issn    = "0739-5175"
}