Massachusetts Institute of Technology May / Massachusetts Institute of Technology / /
IndustryTerm
haptic device / post-processing step / 3D software / visualization tools / medical imaging / 3D display technology / force feedback device / fragment processors / stream-processors / display technology / Possible applications / stream-processing capabilities / content creation systems / precision computing / buffer algorithm / slowest improving technology / hologram computation algorithms / capture technology / 3D imaging / computing / decompression algorithm / /
Organization
Department Committee / Massachusetts Institute of Technology / Department of Electrical Engineering and Computer Science / /
Person
Arthur C. Smith / Becky Quentmeyer / Joe Duncan / Pierre St.-Hilaire / Sam Hill / Stephen Benton / V. Michael Bove / Jr. / Mike Bove / Wendy Plesniak / Won Chun / Steve Smith / /
Position
Thesis Supervisor / Sciences Thesis Supervisor / thesis advisor / Scientist / General / Author / Principal Research Scientist / Chairman / original thesis advisor / /
ProgrammingLanguage
Onyx / /
ProvinceOrState
Massachusetts / /
Technology
2004 Massachusetts Institute of Technology / fragment processors / Image Processing System / MRI capture technology / improving 3D display technology / 29 4.2 PROCESSOR / display technology / rendering algorithms / hologram computation algorithms / 5.2 Accumulation buffer algorithm / MRI / three-dimensional display technology / 7 1.1 MOTIVATION FOR IMPROVING 3D DISPLAY TECHNOLOGY / HPO / slowest improving technology / decompression algorithm / SCSI / MRI technology / medical imaging / /
Delivering Real-Time Holographic Video Content With Off-The-Shelf PC Hardware by Tyeler Quentmeyer Submitted to the Department of Electrical Engineering and Computer Science in Partial Fulfillment of the Requirements for