Zobrazeno 1 - 10
of 15
pro vyhledávání: '"Richard M. Marino"'
Autor:
Luke Skelly, Robert C. Knowlton, Alexandru Vasile, Michael E. O'Brien, M. Jalal Khan, Dan G. Fouche, Richard M. Marino, Richard M. Heinrichs
Publikováno v:
Advances in Visual Computing ISBN: 9783642331787
ISVC (1)
ISVC (1)
Data collected by 3D Laser Radar (Lidar) systems, which utilize arrays of avalanche photo-diode detectors operating in either Linear or Geiger mode, may include a large number of false detector counts or noise from temporal and spatial clutter. We pr
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::11fad149dc37fdf37342ef4fb9d9ecd4
https://doi.org/10.1007/978-3-642-33179-4_37
https://doi.org/10.1007/978-3-642-33179-4_37
Autor:
C. Siracusa, Richard M. Marino, L.J. Bickmeier, Jonathan M. Richardson, Robert Garnier, Patrick M. Quinn, David B. Ireland
Publikováno v:
SPIE Proceedings.
Laser-based remote sensing is undergoing a remarkable advance due to novel technologies developed at MIT Lincoln Laboratory. We have conducted recent experiments that have demonstrated the utility of detecting and imaging low-density aerosol clouds.
Autor:
Thomas Amoruso, John J. Zayhowski, Robert E. Freehart, Steven G. Blask, Joanne Pfannenstiel, Alex Vasile, Kevin Ingersoll, James G. Mooney, Byron M Stanley, Van Reynolds, Eui-In Lee, Brian F. Aull, Daniel Davidsohn, William M. Davis, Greg Rowe, Joseph L. McLaughlin, Robert Hatch, John Drover, Richard Cannata, Richard M. Marino, Carl Hart, Thomas Higgins, Jack Berenholtz, Ali-Khan Imran Dipl Chem Dr, Richard M. Heinrichs, Mohan Vaidyanathan, William Clifton, Ryan Carson, Prem Ramaswami, David R. Schue
Publikováno v:
SPIE Proceedings.
Jigsaw three-dimensional (3D) imaging laser radar is a compact, light-weight system for imaging highly obscured targets through dense foliage semi-autonomously from an unmanned aircraft. The Jigsaw system uses a gimbaled sensor operating in a spot li
Autor:
Brian F. Aull, Richard M. Marino
Publikováno v:
SPIE Proceedings.
Autor:
Joseph L. McLaughlin, Byron M Stanley, T. E. Square, E. I. Lee, Gregory S. Rowe, Robert Hatch, J. W. Burnside, Michael E. O'Brien, Richard M. Heinrichs, G. C. Rich, Alexandru Vasile, W. R. Davis, Richard M. Marino, Luke Skelly
Publikováno v:
SPIE Proceedings.
Situation awareness and accurate Target Identification (TID) are critical requirements for successful battle management. Ground vehicles can be detected, tracked, and in some cases imaged using airborne or space-borne microwave radar. Obscurants such
Autor:
Alexandru Vasile, Richard M. Marino
Publikováno v:
SPIE Proceedings.
We present a pose-independent Automatic Target Detection and Recognition (ATD/R) System using data from an airborne 3D imaging ladar sensor. The ATD/R system uses geometric shape and size signatures from target models to detect and recognize targets
Publikováno v:
SPIE Proceedings.
Recently-developed airborne imaging laser radar systems are capable of rapidly collecting accurate and precise spatial information for topographic characterization as well as surface imaging. However, the performance of airborne ladar (laser detectio
Autor:
P.J. Daniels, Marius A. Albota, Gregory S. Rowe, Michael E. O'Brien, A.H. Loomis, Bradley J. Felton, Berton C. Willard, Robert Hatch, David G. Kocher, Douglas J. Young, Daniel G. Fouche, Brian F. Aull, Brian E. Player, Alvin Stern, D.D. Rathman, Richard M. Heinrichs, Richard M. Marino, Larry L. Retherford, James G. Mooney, Zong-Long Liau, John J. Zayhowski, Debbie J. Landers
Publikováno v:
SPIE Proceedings.
Lincoln Laboratory has developed 32×32-pixel ladar focal planes comprising silicon Geiger-mode avalanche photodiodes and high-speed all-digital CMOS timing circuitry in each pixel. In Geiger-mode operation, the APD can detect as little as a single p
Autor:
Timothy Stephens, Gregory S. Rowe, Robert Hatch, Robert C. Knowlton, Stephen E. Forman, Joseph L. McLaughlin, Luke Skelly, W. R. Davis, Richard M. Marino, Joseph S. Adams, James G. Mooney, Michael E. O'Brien
Publikováno v:
SPIE Proceedings.
MIT Lincoln Laboratory continues the development of novel high-resolution 3D imaging laser radar technology and sensor systems. The sensor system described in detail here uses a passively Q-switched solid-state frequency-doubled Nd:YAG laser to trans
Autor:
Timothy Stephens, Alexander K. Mcintosh, John J. Zayhowski, Daniel G. Fouche, Richard M. Heinrichs, Richard M. Marino, Marius A. Albota, Brian F. Aull, Michael E. O'Brien
Publikováno v:
SPIE Proceedings.
MIT Lincoln Laboratory is actively developing laser and detector technologies that make it possible to build a 3D laser radar with several attractive features, including capture of an entire 3D image on a single laser pulse, tens of thousands of pixe