๐ŸŒ—NASA to test laser communication technology

by Nov 26, 2021๐Ÿ’ก Innovation, ๐Ÿ›ฐ Space

🌗NASA to test laser communication technology

Radio waves have been used for communications since 1900 and have been highly beneficial in human advancement. Yet it has one crucial limitation: speed. You've probably seen a news broadcast where a TV host asks a correspondent a question and there's a long delay before said correspondent responds.

Due to the relatively short distances on earth, said latency only tends to be a matter of seconds. However, in the vastness of space, delays can be much longer. When planning the movement of rovers on Mars, for example, the delay might be as long as twenty minutes, depending on the position of the red rock. Transmitting to the most distant man-made spacecraft to date, Voyager 1, and receiving a response takes 35 hours.

With goals of having a permanent presence on the moon and traveling to Mars, one might imagine the implications such a delay might cause. Not to mention that there's a need for higher bandwidth to transfer more data than what could be practical with radio communications.

Just as we've managed to speed up communications on earth by transmitting data through fiber-optic cables, NASA now intends to use lasers to communicate in space. According to NASA.gov, optic communications even have the advantage of being lighter and more compact, making more room for mission equipment and reducing the costs related to launches.

🌗NASA to test laser communication technology
Illustration of the LCRD. Image: NASA Goddart Space Flight Center

The mission at hand is called Laser Communications Relay Demonstration, or LCRD. Since 1983, NASA has been using relay satellites to enable spacecraft to communicate with ground control even without a direct line of sight. Thus, the mission's goal is to not only evaluate the feasibility of optical communications but to bounce data off of relay satellites.

The LCRD mission was initially intended to take place in 2019 but has been delayed for two years. As things stand right now, intentions are for a launch to take place after December 4, when it will be carried into space as part of the Department of Defence's Space Test Program Satellite-6 (STPSat-6) mission.

🌗NASA to test laser communication technology
STPSat-6 being examined by Northrop Grumman personnel before shipment to NASA for for final launch processing Image: Northrop Grumman

A drawback with optical communications is that they can't penetrate clouds. For this reason, LCRD's ground control stations are situated in places with low risk of weather interference:  Table Mountain, California, and Haleakalā, Hawaii.

The first intended practical use for the technology will be Integrated LCRD Low-Earth Orbit User Modem and Amplifier Terminal (ILLUMA-T), a terminal that will relay science data from experiments carried out onboard the International Space Station.

In light of the popularity of the SpaceX and Virgin Galactic's live streams, the general public might be more excited at another use of the technology: the Artemis 2 manned moon orbiting mission, currently planned for 2024, is likely to send live footage in UHD using optical communications.

More Stories For You From Warp News

Become Part of the Global Community!

Are you ready to be a
Warp Important Person?!

Learn More About WIP

Success! Welcome to Warp News!

Subscribe To Warp News

Be sure to get your weekly dose of fact-based optimism every week in your inbox.

You have Successfully Subscribed!