P. St.-Hilaire S. A. / Jr.1 1 Media Laboratory / MIT Media Laboratory / NVIDIA / GPU / McGraw-Hill / /
Country
United States / / /
Facility
Brigham Young University / Communication System Design Using DSP Algorithms / MIT Media Laboratory / Massachusetts Institute of Technology / /
IndustryTerm
mode-coupling device / diffraction-specific stereogram algorithms / software-based implementation / temporal carrier frequency fT / conventional bulk-wave acousto-optic devices / software implementation / holographic video systems / carrier frequency f0 / spatial carrier frequency / space-bandwidth product / spatial carrier frequency f0 / electronics / anisotropic leaky-mode modulator devices / anisotropic leaky-mode devices / carrier frequencies / spatial carrier frequencies / holographic video imaging / anisotropic leaky-mode device / guided-wave device / temporal carrier frequencies / /
Movie
The Mark IV / /
MusicGroup
MHz / /
Organization
Brigham Young University / Society of Photo-Optical Instrumentation Engineers / Department of Electrical and Computer Engineering / Department of Electrical / Massachusetts Institute of Technology / /
Person
Y. J. Smithwick / MARK IV HOLOGRAPHIC / V. M. Bove / Jr. / C. Della Silva / S. Jolly / D. Smalley / D. E. Smalley / J. Kollin / J. Barabas / V. Michael Bove / Jr. / M. L. Jepsen / Practical Holography IV / v / H. Yoshikawa / M. Lucente / J. Barabas / V / Y. J. Smithwick / V / S. A. Benton / /
Position
Full-Color General / dual-head / Corresponding Author / /
ProvinceOrState
Utah / New York / Massachusetts / /
Technology
Communication System Design Using DSP Algorithms / time-division multiplexing / laser / given 3-D scene.12 The algorithm / amplitude modulation / diffraction-specific stereogram algorithms / STATUS Our algorithm / /