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EDUCATION
  • PhD, Cal Tech, 1990
  • MS, Cal Tech, 1986
  • BA, Macalester College, 1984

David J Brady
  • Office Location: 2537 CIEMAS
  • Office Phone: (919) 660-5394
  • Email Address: dbrady@duke.edu

    • David Brady leads the Duke Imaging and Spectroscopy Program (DISP), which builds computational optical sensor systems. DISP projects include hyperspectral microscopy, Raman spectroscopy for tissue chemometrics, optical coherence sensors and infrared spectral filters.

    Specialties
    • Sensing and Sensor Systems
      Photonics
      Medical Imaging
      Optical imaging

    Research Areas

      David Brady leads the Duke Imaging and Spectroscopy Program (DISP), which builds computational optical sensor systems. DISP projects include hyperspectral microscopy, Raman spectroscopy for tissue chemometrics, optical coherence sensors and infrared spectral filters.

    Recent Publications More Publications

    1. A. Portnoy and N. Pitsianis and X. Sun and D. Brady and R. Gibbons and A. Silver and R. T. Kolste and C. Chen and T. Dillon and D. Prather, Design and characterization of thin multiple aperture infrared cameras, Applied Optics, vol. 48 no. 11 (2009), ppt. 2115 -- 2126 [abs]
    2. S. Uttam and N. A. Goodman and M. A. Neifeld and C. Kim and R. John and J. Kim and D. Brady, Optically multiplexed imaging with superposition space tracking, Optics Express, vol. 17 no. 3 (2009), ppt. 1691 -- 1713 [abs]
    3. A. Wagadarikar and R. John and R. Willett and D. Brady, Single disperser design for coded aperture snapshot spectral imaging, Applied Optics, vol. 47 no. 10 (2008), ppt. B44 -- B51 [abs]
    4. M. Shankar and R. Willett and N. Pitsianis and T. Schulz and R. Gibbons and R. T. Kolste and J. Carriere and C. Chen and D. Prather and D. Brady, Thin infrared imaging systems through multichannel sampling, Applied Optics, vol. 47 no. 10 (2008), ppt. B1 -- B10 [abs]
    5. Fang, Jian-Shuen and Hao, Qi and Brady, David J. and Guenther, Bob D. and Hsu, Ken Y., A pyroelectric infrared biometric system for real-time walker recognition by use of a maximum likelihood principal components estimation (MLPCE) method, Optics Express, vol. 15 no. 6 (2007), ppt. 3271 - 3284 , [OE.15.003271] [abs]

    Awards, Honors, and Distinctions

    • Aerojet Program for Advanced Technologies Fellow
    • ARCS Foundation Fellow, ARCS Foundation
    • Beckman Fellow in the Center for Advanced Study, Beckman Foundation
    • Bush Foundation Fellow
    • David and Lucile Packard Foundation Fellow, David and Lucile Packard Foundation
    • Fellow, Society of Photo-Instrumentation Engineers (SPIE)
    • Fellow, Optical Society of America
    • Junior Xerox Award for Faculty Research
    • Office of Naval Research Graduate Fellow, Office of Naval Research
    • Senior Xerox Award for Faculty Research