National University of Ireland, Maynooth

National University of Ireland, Maynooth
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The Callan Building
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Department of Computer Science

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Mr. Thomas Naughton

Homepage
Room 2.104 Callan Building,
National University of Ireland, Maynooth,
Maynooth,
Co. Kildare,
Ireland.
Email:
Phone: +353-1-7084599


Research Profile

Thomas Naughton has research interests at intersections of computer science, optics, and biology. In the field of optical information processing, he is interested in the processing and analysis of three-dimensional scenes encoded in digital holograms and computational complexity analysis of analog optical computing architectures. At the intersection of computer science and biology, he is interested in biocomputation (computing with molecules) and bioinformatics (for example, applying distributed computing to genome analysis). At the intersection of all three areas, he is interested in novel digital holographic three-dimensional imaging modalities for living cells and bioorganisms, and designing image analysis tools for the resulting data.


Recent Publications

  • Karen M. Molony, Bryan M. Hennelly, Damien P. Kelly, Thomas J. Naughton Reconstruction algorithms applied to in-line Gabor digital holographic microscopy Optics Communications 283 903–909 2010
  • Lukas Ahrenberg, Andrew J. Page, Bryan M. Hennelly, John B. McDonald, and Thomas J. Naughton Using commodity graphics hardware for real-time digital hologram view-reconstruction Journal of Display Technology 5 1 2009
  • C.P. McElhinney, B.M. Hennelly, B. Javidi, and T.J. Naughton Extraction of three-dimensional information from reconstructions of in-line digital holograms (Invited) in Bahram Javidi, Ed., Three-dimensional Imaging, Visualization, and Display, chap. 15, pp. 303-332, Springer, New York. 2009
  • D. Woods and T.J. Naughton Optical computing (Invited) in Robert A. Meyers, Ed., Encyclopedia of Complexity and Systems Science, pp. 6388-6407, Springer, New York. ISBN: 978-0-387-75888-6. 2009
  • Lukas Ahrenberg, Andrew J. Page, Bryan M. Hennelly, John B. McDonald, and Thomas J. Naughton Using commodity graphics hardware for real-time digital hologram view-reconstruction Journal of Display Technology 5 1 2009
  • D. P. Kelly, N. Pandey, B. M. Hennelly, and T. J. Naughton Quantization Noise: An Additional Constraint for the Extended Sampling Theorem in Digital Holography and Three-Dimensional Imaging, OSA Technical Digest (CD) (Optical Society of America, 2009), paper DWB12. 2009
  • Lukas Ahrenberg, Andrew J. Page, Bryan M. Hennelly, John B. McDonald, and Thomas J. Naughton Using Commodity Graphics Hardware for Real-Time Digital Hologram View-Reconstruction J. Display Technol. 5, 111-119 2009
  • Nitesh Pandey, Bryan M. Hennelly, Damien P. Kelly and Thomas J. Naughton Speed up of Fresnel transforms for Digital holography using pre-computed chirp and GPU processing. China Ireland Conference 2009
  • Nitesh Pandey, Damien P. Kelly, Thomas J. Naughton and Bryan M. Hennelly Speed up of Fresnel transforms for digital holography using precomputed chirp and GPU processing Proc. SPIE 7442 2009
  • D. P. Kelly, B. M. Hennelly, T.J. Naughton, W.T. Rhodes Resolution limits in practical digital holographic systems Opt. Eng. 48, 095801 2009
  • List all publications for :Thomas Naughton

Computer Science Department , NUI Maynooth
Tel: +353-1-708 3847 | Fax: +353-1-708 3848| Email: admin@cs.nuim.ie