V. Senger, R. Tetzlaff, Jens Müller, Nico Hoffmann, Julia Hollmach, C. Schnabel, Yordan Radev, M. Kirsch, U. Petersohn, G. Steiner, E. Koch
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Motion correction of thermographic images in neurosurgery
Neurosurgery relies strongly on medical imaging techniques. However, many state-of-the-art diagnostic tools such as computer tomography (CT) and magneto-resonance imaging (MRI) cannot be applied during ongoing surgery in general. Our aim is to realize a multi-purpose imaging platform capable of real-time assistance to the surgeon. Therefore, we apply thermography: a non-invasive, contactless, marker-free technique that has been used in various medical applications, albeit some challenges remain. In this paper, we propose a Cellular Nonlinear Network-based image pre-processing for feature enhancing and extraction followed by a cepstrum-based motion correction algorithm allowing a real-time removal of breathing artifacts from thermographic images.
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