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SpaceX to offer Starlink public beta in six months, Musk says
As much of the world has slowed down amid COVID-19, the same cannot be said for the burgeoning small satellite broadband industry. In recent weeks, SpaceX CEO Elon Musk announced he hopes to move the company’s Starlink broadband service to public beta in about six months. And that very same day, the Federal Communications Commission unanimously approved new rules for preventing orbital debris and collisions in space (those rules have been revised so as to not hamper NASA, but they still require more analysis, tracking, and disclosure from satellite companies). It’s a small snapshot of what’s been an ongoing debate: astronomy advocates say we are running out of time to preserve pristine views in the night sky, companies sending satellite constellations into space say they are mitigating the threat their satellites could pose to skywatchers.
SpaceX to offer Starlink public beta in six months, Musk says
The fleets of low-cost satellites will certainly be beneficial for telecommunications and Earth observation customers, particularly those living in remote areas. Crowds of satellites decrease the “revisit time” between satellite passes and make it easier to stay in touch, or to get frequent images during natural disasters.
Yet astronomers warn that without care, the satellites could ruin science observations and also make it difficult for groups like Native Americans who see the sky as part of their culture. Space organizations in Europe and the United States are already sounding alarm bells in reports and press releases. The European Southern Observatory (which operates the Very Large Telescope in Chile, among others) recently warned their observatories would be “moderately affected” if constellations launch at current rates. The National Science Foundation’s Vera C. Rubin Observatory in northern Chile said nearly every image obtained during twilight “would be affected by at least one satellite trail.”
Before, these astronomical observatories could dodge Iridium flares and other bright satellites because machines were only occasional intruders into observatory views. Satellite constellations, however, are proving harder to avoid.
“Obviously, satellites are not new; they’ve been a presence in the sky for 60 years. But what has changed is the quantities we are talking about,” said John Barentine, director of public policy for the International Dark-Sky Association (IDA).
In March, IDA submitted a comment to the US Council on Environmental Quality regarding proposed changes to the National Environmental Policy Act (NEPA) implementing regulations, the first such changes since 1978. With the assistance of Chicago-based Mudd Law, IDA argues that the satellite constellations—like construction activities on Earth, for example—should undergo standard NEPA environmental assessments. To IDA, outer space needs protection, just like our planet. But it could be a long road to get that point of view accepted.
“We’re kind of operating in a wild west sort of space,” Barentine told Ars. Most of the global convention for space law devolves from the United Nations’ Outer Space Treaty of 1967, which he said was in large part constructed to avoid territorial claims on the moon—a target of US and Soviet space exploration at the time. The treaty was signed long before commercial claims could be imagined, since only big governments were playing in space at the time.
That said, Barentine pointed to more recent actions by the Trump administration that he says supports IDA’s argument to tighten environmental restrictions where possible, to serve as a control on actions the Trump administration says are meant primarily to serve business.
In early April, for example, US President Donald Trump signed an executive order to support using lunar resources for eventual moon settlements. Trump’s actions are in line with previous presidential administrations. The United States has not signed the 1979 UN Moon Agreement that heavily restricts non-scientific use of resources in space. Additionally, Congress passed a law in 2015 supporting American companies in their bid to mine the moon, as well as asteroids, for human activities.
“The executive order tipped its [the US government’s] hand in terms of how it thinks of space … that it’s the policy of the United States that space is not a global common,” Barentine said. “If space is not a global common, and for each individual country to exploit, under the obligations of the United States treaty there is no liability on the impacts of astronomy, the impacts of the night sky, and the cultural implications around that.”
These days, the most notorious worry for astronomers is SpaceX, which promises to launch at least 12,000 satellites in the coming years to build out its broadband Starlink constellation. In mid-April, sharp-eyed amateurs spotted Starlinks in photos taken from the International Space Station, adding to ongoing concerns about bright Starlinks seen from the ground.
At the 2020 SATELLITE conference in Washington, DC this March (held just before shelter-at-home guidance), SpaceX CEO Elon Musk said in a presentation that he is “confident that we will not cause any impact whatsoever to astronomical discoveries.” But the entrepreneur quickly changed his track when the audience laughed. SpaceX, he added, is “working with senior members of the science community and astronomers to minimize the potential for reflection of the satellites.” (SpaceX did not respond to a request for comment from Ars Technica.)
Musk’s company is not alone in constellation ambitions, of course. OneWeb had started to launch its own satellite constellation, but it filed for bankruptcy and announced plans to sell the business last month due to the pandemic halting funding associated with the project. Amazon subsidiary Kuiper Systems filed its own application with the Federal Communications Commission in July 2019, and it continues planning for eventual launches.
“We’re still finalizing plans for our constellation and have yet to share anything beyond what’s included in our application,” Amazon spokesperson James Watkins told Ars via e-mail. “That said, I’d note space safety and sustainability are top priorities for the Kuiper team, and that considerations like reflectivity and orbital debris inform many of our satellite and mission design decisions.”
Other satellite companies were equally quick to tout the fact they’re taking astronomy into consideration. Lynk, which aims to launch a “cell tower in space” for better mobile phone connectivity, says their satellites will create much less light pollution than Starlink due to the Lynk satellites’ diminutive size, for instance. “I also think that some of the steps SpaceX is taking, such as darkening the surface of the satellite, seem like reasonable mitigations,” said Lynk CEO Charles Miller in an email interview.
“I have not been contacted by even one professional astronomer about their concern about light pollution from satellites,” he added. “I am very interested in the nature and size of the problem from their perspective. The first step to solving a problem, is to understand the problem.”
Potential smaller players in the constellation business include Facebook, Space Norway, and Canadian company Telesat. In an interview, Telesat said it plans to put 78 satellites in a polar orbit to increase coverage in these remote areas—starting with launches in 2022—and 220 satellites in an inclined orbit over more populated areas, beginning in 2023.
While Telesat has had no direct discussions with the astronomy community, the company’s engineers and manufacturers are making the satellites as dim as they can, said Erwin Hudson, the company’s vice-president of low-Earth orbit. For example, Telesat satellites have angled sides to better reflect light into space, and they will be oriented to keep the flattest pieces towards the sun.
Hudson pointed to existing practices Telesat undertakes for its satellites—such as carefully deorbiting those that are low on fuel—as proof the company takes its space environmental stewardship seriously.
“We consider ourselves good citizens of outer space, and have been in the satellite business for 50 years,” Hudson said. “We have been maintaining the various satellite orbits, and doing it in a way that is responsible for those who come before us, and those who come after us, and those we share orbits with. It is incredibly important to us, and we have always done a good job of that.”
To IDA, Barentine says the organization does not mean to make satellites completely invisible to observers. Amateurs do enjoy seeing the occasional pass of a human-made object, he said, especially the International Space Station. On social media, NASA regularly advertises its “Spot the Station” opportunities for those countries that lie underneath the orbital complex’s path.
Rather than completely removing satellite passes from the sky, therefore, IDA wants to limit them to “something infrequent,” Barentine said. Ideally, they’d be rare enough to provoke a reaction in observers about how cool individual satellites are.
In current conversations with companies, IDA works to collaborate on solutions rather than to point to problems, he added. He encourages companies to be transparent in publishing satellite orbital paths and to make efforts to dim satellites to help the astronomy community avoid photographic streaks.
“We encourage them [companies] to commit to a sense of shared stewardship of the night sky,” Barentine added, “so that it’s not an us-versus-them situation. We all share the sky together and can determine the best ways to manage it.”