Mars Telecommunications Orbiter
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| Organization: | NASA |
| Major Contractors: | JPL |
| Mission Type: | Planetary Science, Mars Exploration |
| Satellite of: | Mars |
| Launch: | Cancelled |
| Launch Vehicle: | Possibly an Atlas V(401) or a Delta-4M. |
| End of Mission: | Cancelled |
| Planned Mission Duration: | 1 year cruise plus 10 years on orbit |
| Mass: | 1,800 kilograms |
| NSSDC ID: | Undetermined |
| Webpage: | JPL's MTO web page |
| Orbital elements | |
|---|---|
| Semi-major axis: | 5,000 kilometers |
| Eccentricity: | Unknown |
| Inclination: | Unknown |
| Orbital Period: | Unknown |
| Aphelion: | Unknown |
| Perihelion: | Unknown |
| Orbits: | Unknown |
| Planned Instruments | |
| Electra : | Relay science data from future Mars missions |
| Optical Communications Payload: | Demonstrate laser communications to Earth |
| Narrow Angle Camera: | Support canister detection |
| Orbiting Sample Demonstration Canister: | Technology demonstration |
The Mars Telecommunications Orbiter (MTO) was a cancelled Mars mission that was originally intended to launch in 2009 and would have established an Interplanetary Internet between Earth and Mars.[1][2] The spacecraft would have arrived in a high orbit above Mars in 2010 and relayed data packets to Earth from a variety of Mars landers, rovers and orbiters for as long as ten years, at an extremely high data rate. Such a dedicated communications satellite was thought to be necessary due to the vast quantity of scientific information to be sent to Earth by such landers as the Mars Science Laboratory.[citation needed]
On July 21, 2005, it was announced that MTO had been canceled due to the need to support other short-term goals, including a Hubble servicing mission, Mars Exploration Rover extended mission operations, launch Mars Science Laboratory in 2009, and to prevent Earth science mission Glory from being cancelled.[3]
Data transfer technology
The Mars Telecommunications Orbiter was a project to demonstrate laser communication in space (optical communications), instead of usual radiowaves. "Lasercom sends information using beams of light and optical elements, such as telescopes and optical amplifiers, rather than RF signals, amplifiers, and antennas."[4]
Proposed successors
After the cancellation, a broader mission was proposed as the Mars Science and Telecommunications Orbiter.[5] However, this mission was soon criticized as lacking well-defined parameters and objectives.[6] Another mission has since been proposed as the 2013 Mars Science Orbiter.[7]
The communications capability provided by the Mars Reconnaissance Orbiter and Mars Express science missions has proven substantial, demonstrating that dedicated relay satellites may be unnecessary in the near future. The newest Mars telecomm orbiter is the MAVEN, which arrived at Mars on September 21, 2014 with an Electra transceiver.
As of 2015, the proposed Mars 2022 orbiter is to be a dedicated telecommunications orbiter with a robust science package.[8][9] It is anticipated to contain a laser communication subsystem, that was successfully tested abord the Lunar Atmosphere and Dust Environment Explorer mission in 2013.[10]
Concern in NASA is that the currently used relay satellite, Mars Odyssey, may fail, resulting in the need to press MAVEN science orbiter into use as the backup telecommunications relay,[11] but the highly elliptical orbit of MAVEN will limit its usefulness as a relay for operating landers on the surface.[12][13]
See also
References
- ↑ End-to-End Information System Concept for the Mars Telecommunications Orbiter; March, 2006. NASA JPL.
- ↑ NASA To Test Laser Communications With Mars Spacecraft; By Brian Berger, Space News, 25 May 2005.
- ↑ Text of a Letter from the President to the Speaker of the House of Representatives July 15, 2005 | SpaceRef
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- ↑ Newest NASA Mars Orbiter Demonstrates Relay Prowess. November 10, 2014.
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