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EI2GYB > ASTRO    09.09.21 09:22l 47 Lines 4374 Bytes #999 (0) @ WW
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Subj: NASA's Deep Space Network Upgraded
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Sent: 210909/0816Z 14250@EI2GYB.DGL.IRL.EURO BPQ6.0.22

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NASA's Deep Space Network Upgraded

NASA is upgrading its Deep Space Network to keep up with the demands of modern interplanetary communications.

A key piece of interplanetary communications infrastructure is getting an overhaul. NASA recently revealed how its venerable worldwide Deep Space Network (DSN) is upgrading as more missions depart for points across the solar system, and how it will keep communications running in the future.

Established in 1963 at the beginning of the Apollo era, the DSN is made up of three sites, offering worldwide coverage: outside Madrid, Spain; Goldstone, outside of Barstow California; and the only southern hemisphere site, in Canberra, Australia. If a spacecraft is anywhere in the solar system beyond Earth, it's almost always in view of at least one DSN site.

Each site is actually a collection of several radio antennas: one main 70-meter dish in Goldstone, three 34-meter dishes in Canberra and Goldstone, and four smaller dishes at Madrid.

Generally, the DSN is supporting 39 missions across the solar system at any given time, with an additional 30 missions in the development pipeline. As missions fly farther afield, data rates come at a premium: For example, typical data rates from Mars run at an average of 500 to 32,000 bits per second, roughly half as fast as a standard home modem. New Horizons had to relay data at a miserly 1,000 bits a second after its 2019 flyby of Arrokoth.

"Capacity is a big pressure, and our antenna-enhancement program is going to help that out," says DSN Deputy Director Michael Levesque (JPL) in a recent press release. "This includes the building of two new antennas, increasing our number from 12 to 14."

One new 34-meter dish (DSS-56) went operational at Madrid in January 2021. The dish is an 'all-in-one' receiver and transmitter, capable of spanning the full range of communications frequencies, rather than only talking to missions allocated to specific frequencies as in the past. This ability is specific to the new 34-meter dishes.

The team also completed upgrades of the massive 70-meter dish at Canberra, the only receiver currently capable of talking to the Voyager 2 spacecraft, now more than 127 astronomical units (a.u.) from the Sun in the direction of the southern hemisphere constellation Pavo, the Peacock.

Next up are planned upgrades for the main Madrid and Goldstone receivers. These newer systems can handle multiple signals on one antenna and split them with a digital receiver, a handy capability for tracking, say, multiple missions at Mars.

New approaches have also streamlined resources available to the DSN as well. For example, in the past, each site tended to operate locally; now, the DSN operates under a "follow the Sun" mantra, where the day shift at each site controls the entire network, in a perpetual globe-spanning hand off.

"Each site works with other sites, not just during handover periods, but also on maintenance and how antennas are performing on any given day," Levesque says. "We've really turned into a globally operating network."

Future missions may also feature other types of communications. For example, NASA has tested optical laser line-of-sight communications on the LADEE lunar orbiter mission in 2014 and is planning several additional missions to test infrared laser relays.

It's great to see the iconic large Deep Space Network dishes that guided Apollo crews to the Moon and back carry on guiding spacecraft, rovers, and eventually humans through the solar system.



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