Sunday, November 11, 2018

HD Video from the Moon in Near Real Time: LGS Innovations Develops Laser Communications Modem for NASA’s Orion Spacecraft

Artist's rendering of NASA’s Orion spacecraft in lunar orbit. Image Credit: NASA.

A new optical modem, capable of sending high-definition quality video significantly faster than standard radio frequency systems, is being developed for NASA’s Orion spacecraft. The hardware, offered by LGS Innovations, is expected to deliver near real time footage from the Moon and other space destinations.

Given that radio waves and light both propagate in vacuum at the speed of light, all communications between spacecraft and ground controllers is delayed when it comes to distant space missions. While it takes about 2.5 seconds to send data to the moon and back, the delay grows to several minutes in the case of Mars, and could reach even hours on missions to other planets.

While laser communications would not reduce the propagation time delay, it could be used to significantly increase the amount of data that can be transferred at once, revolutionizing future space exploration efforts. It can transmit data over long distances at rates up to one hundred times greater than radio frequency systems. 

The Herndon, Virginia-based company LGS Innovations, is currently developing the necessary hardware to make such high-speed communications available for the upcoming Exploration Mission-2 (EM-2). The mission, scheduled for 2023, is planned to be the first crewed flight of NASA’s Orion spacecraft, during which astronauts will make a fly-by of the Moon. LGS Innovations will provide an optical modem that will enable broadband data communications to and from the Orion vehicle. 

“The Orion optical modem will be central to providing broadband communication services when NASA next sends astronauts to the vicinity of the Moon. We are proud to support the agency’s mission and drive the evolution of photonics technology,” Linda Braun, Senior Vice President of Photonics Solutions at LGS Innovations, told

The modem is part of an advanced optical communications system named Optical to Orion (O2O). According to NASA, O2O is designed to provide duplex communications between the Orion and a ground station at forward rates up to 80 Mbps and return rates up to 20 Mbps. 

As a crucial part of the system, the modem will convert the data generated on the Orion spacecraft to an optical signal, which will be beamed from the vicinity of the Moon to a receiver on Earth. The instrument will also be capable of receiving the optical signal from Earth and converting it to data for the spacecraft. 

“Future exploration missions, both manned and unmanned, will require high bandwidth communication links to ground stations on Earth to support advanced scientific instruments, high definition video, and high-resolution imagery. This is one of three NASA’s optical communications projects that we were selected for to help the space agency meet the ever-increasing requirements for more bandwidth and faster connections,” Braun said. 

She noted that by increasing data transmission rates by many times over conventional means, optical technology in general will enable a wider range of future scientific inquiry than is currently possible. Hence, this technology is being considered also for the International Space Station (ISS), exploration of deep space asteroids, as well as for commercial satellite communications applications. 

LGS Innovations is expected to deliver the modem in late 2019, in accordance with EM-2 mission schedule. It will be the third laser payload the company has developed for NASA as the firm is also involved in two other programs: the Deep-Space Optical Communication (DSOC) program and the Integrated LCRD LEO User Modem and Amplifier-Terminal (ILLUMA-T). 

“This project cements LGS Innovations’ relationship with NASA as a provider of modems for lasercom-in-space systems,” Braun concluded.


  1. "Laser communications could almost totally reduce that delay, revolutionizing future space exploration efforts. It can transmit data over long distances at rates up to one hundred times faster than radio frequency systems. The technology would therefore allow a near real time communications for lunar missions."
    100 times faster than the speed of light? Really? How is that?

  2. 1. The Signout button below this blank is cutting your comments in half.
    2. The speed of light still applies, so this article needs an edit.

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  5. Thank you for your comments!
    There was an obvious mistake in the article and the story was corrected.

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