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14 June 2013 Random matrix-based dimensionality reduction for bioluminescence tomography reconstruction
Iain B. Styles, Hector R. A. Basevi, James A. Guggenheim, Hamid Dehghani
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Proceedings Volume 8799, Diffuse Optical Imaging IV; 87990J (2013) https://doi.org/10.1117/12.2033299
Event: European Conferences on Biomedical Optics, 2013, Munich, Germany
Abstract
We show how a random matrix can be used to reduce the dimensionality of the bioluminescence tomography reconstruction problem. A randomised low-rank approximation for the sensitivity matrix is computed, and we show how this can be used to reconstruct the bioluminescence source distribution on a randomised basis for the mesh nodes. The distribution on the original mesh can be found easily via a simple matrix multiplication. The majority of the computation required can be performed in advance of the reconstruction, and the reconstruction time itself is of the order milliseconds. This could allow for high frame rate real-time reconstructions to be performed.
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Iain B. Styles, Hector R. A. Basevi, James A. Guggenheim, and Hamid Dehghani "Random matrix-based dimensionality reduction for bioluminescence tomography reconstruction", Proc. SPIE 8799, Diffuse Optical Imaging IV, 87990J (14 June 2013); https://doi.org/10.1117/12.2033299
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KEYWORDS
Bioluminescence
Tomography
Reconstruction algorithms
Sensors
Computer simulations
Finite element methods
Inverse problems
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