Category:Optical Communications: Difference between revisions
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{{red-header|size=200}}Optical Communications | |||
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| Part of the [[Optical Communications Team | Optical Communications]] series | |||
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{{red-header}} Team Goals | |||
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| [[Amateur Optical Communication Record]] • [[CubeQuest Challenge]] | |||
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{{red-header}} System Iterations | |||
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| [[OpComms System I]] • [[OpComms System II]] • [[OpComms System III]] | |||
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{{red-header}} Important Concepts and Technical Issues | |||
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| [[Beam Divergence]] • [[Scintillation]] • [[Precision Aiming]] • [[Fog]] • [[Long Range RF]] • [[Optical Internet Backhaul]] | |||
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{{red-header}} Field Test Locations | |||
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| [[W6YX]] (also see [[Amateur Radio]]) • [[Skyline Boulevard Overlook]] • [[Proposed Alternate OpComms Test Sites]] | |||
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{{red-header}} Optical Communications Satellites | |||
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| [[FitSat-1]] • [[LADEE]] • [[ARTEMIS and SPOT-4]] • [[OICETS]] • [[OPALS]] • [[JPL 1U Optical Communications Terminal]] | |||
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{{red-header}} Astronomy | |||
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| [[Las Cumbres Observatory Global Telescope Network]] • [[Stanford Astronomy Club]] • [[Stanford Student Observatory]] | |||
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Revision as of 17:36, 29 August 2015
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Optical Communications was a student-led project that aimed to develop the capability to establish high-bandwidth data links over free space. The group began work at the beginning of the 2014-2015 academic year, under the leadership of Thomas Teisberg and Logan Herrera. It was initially formed to investigate the possibility of space-based optical communications, with the intent to participate in the NASA CubeQuest Challenge, a competition for small satellite design, but later moved away from the competition design constraints.
The Optical Communications group evolved to focus on the establishment of long-distance optical links, with the eventual goal of integrating this technology into a CubeSat form-factor satellite for the purposes of space-based communication. In its first year of existence, the group developed a system involving mechanized altitude/azimuth mounts, an original receiver device consisting of a Fresnel lens and photodetector, and a MATLAB pointing algorithm based on reference point alignment. The group’s final test of the 2014-15 year resulted in the successful establishment of an optical lock over 10 kilometers. The group was able to successfully transmit encoded data over 10 kilometers in August 2015.
| Optical Communications |
|---|
| Part of the Optical Communications series |
| Team Goals |
| Amateur Optical Communication Record • CubeQuest Challenge |
| System Iterations |
| OpComms System I • OpComms System II • OpComms System III |
| Important Concepts and Technical Issues |
| Beam Divergence • Scintillation • Precision Aiming • Fog • Long Range RF • Optical Internet Backhaul |
| Field Test Locations |
| W6YX (also see Amateur Radio) • Skyline Boulevard Overlook • Proposed Alternate OpComms Test Sites |
| Optical Communications Satellites |
| FitSat-1 • LADEE • ARTEMIS and SPOT-4 • OICETS • OPALS • JPL 1U Optical Communications Terminal |
| Astronomy |
| Las Cumbres Observatory Global Telescope Network • Stanford Astronomy Club • Stanford Student Observatory |
Pages in category "Optical Communications"
The following 43 pages are in this category, out of 43 total.