Backed by billions of dollars from deep-pocketed investors, a new generation of satellite entrepreneurs plans to blanket the earth in the next few years with perhaps thousands of miniature satellites beaming cheap, ubiquitous broadband service.
LOS ANGELES — It’s been more than a decade since a handful of ambitious entrepreneurs saw their plans to provide global telecommunications service through massive satellite constellations blow up, doomed by runaway costs.
Now, a new generation is headed back to the launchpad. Backed by billions of dollars from deep-pocketed investors, they plan to blanket the Earth in the next few years with perhaps thousands of miniature satellites beaming cheap, ubiquitous broadband service.
What’s different? Launching one of these smaller satellites can cost a fraction of the price for a larger, school-bus-sized satellite. These will largely be mass-produced.
And consumers now demand high-speed internet connectivity pretty much everywhere, on airplanes, cruise ships and in the remotest village in Africa.
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Companies such as SpaceX, OneWeb and Boeing have recently proposed networks of satellites in low-Earth orbit to provide high-speed broadband access around the globe.
Even Facebook CEO Mark Zuckerberg has aspirations to bring internet to poorly connected areas. A plan derailed in September after a satellite set to beam high-speed service to areas including sub-Saharan Africa was destroyed in the explosion of a SpaceX rocket on a Florida launchpad.
If this latest wave of satellite networks gets off the ground, it could pose a challenge to a $224.6 billion industry dominated by telecom and cable companies with their miles of fiber-optic and copper wires.
“That’s going to shake up how these operators are controlling different regions, and it’s going to allow the consumer a little more of an option,” said Taylor Palmer, industry analyst at market research firm IBISWorld.
In mid-December, Arlington, Va.-based OneWeb said it secured $1.2 billion of funded capital in a round led by Japanese technology giant SoftBank Group, which contributed $1 billion of the total.
The money will fund construction of a Florida satellite-manufacturing plant, which is set to start production in 2018.
SoftBank is just one addition to OneWeb’s list of big-name investors, which includes Qualcomm, Airbus Group, the Coca-Cola Co. and Richard Branson’s Virgin Group.
“One of the main challenges is raising financing from investors, so this proves they are able to continue doing that and they’re still attracting money from these big, established companies,” said Bill Ostrove, aerospace and defense analyst at market research firm Forecast International. “That’s going to be really vital.”
Satellite-provided broadband service is still tiny. It generated revenues of $1.9 billion in 2015, according to a June report from the Tauri Group commissioned by the Satellite Industry Association trade group. That compares with $97.8 billion for satellite television.
But interest in satellite broadband is growing as consumers expect high-speed service in places that aren’t always well-served by fiber or cable.
Last month, Southwest Airlines said it planned to equip its entire fleet of more than 700 planes with Wi-Fi.
“There’s a competitive advantage for those that have that service available,” said Tom Stroup, president of the Satellite Industry Association. “Broadband has essentially become an expected fact of life.”
Analysts say satellite constellations could have the biggest effect in remote areas.
In 2014, almost half the world’s population lived in rural regions, which are largely unconnected to the internet, according to a report from ITU, a special agency of the United Nations that handles information and communication technologies.
“Internet access is fundamental for understanding of culture, cultural differences, civic understanding and participation,” said Greg Wyler, founder and executive chairman of OneWeb.
“It helps make the unconnected economically relevant to the developed world. When they’re economically relevant, we pay a lot more attention to them,” Wyler said.
The company has an ambitious timeline. It plans to launch the first 10 satellites into low-Earth orbit in early 2018 to test their capabilities. More launches will follow, with its broadband access beginning as early as 2019.
By 2022, OneWeb says it will connect every unconnected school to the internet. Eventually, OneWeb plans a 700-satellite constellation.
OneWeb’s manufacturing facility in Exploration Park, Fla., is key to these plans. The company will mass-produce its microsatellites with automated assembly capabilities similar to those used in aircraft-production facilities, eventually making three a day.
OneWeb has said the satellites will weigh about 330 pounds.
SpaceX, based outside Los Angeles, plans to eventually launch more than 4,000 satellites for its network. Each satellite would be about 13 feet long and 6 feet wide, with 19-foot-long solar arrays.
In 2015, the company received a $1 billion infusion from Google and Fidelity Investments and opened an office in Redmond to focus on developing the small satellites.
SpaceX Chief Executive Elon Musk has said the whole constellation could cost $10 billion to $15 billion.
After launching an initial 800 satellites, SpaceX said it could provide broadband coverage to the U.S., Puerto Rico and the Virgin Islands. By its final deployment, the company said it “will pass over virtually all parts of the Earth’s surface.”
Boeing’s proposed 2,900-satellite constellation is intended to provide broadband access to both commercial and government users worldwide. The aerospace giant said it planned to launch more than 1,300 satellites within six years of the license approval.
The satellite swarms are made possible by advances in miniaturized parts and microprocessors. They could also help shrink the price gap between satellite and terrestrial broadband access, said Palmer of IBISWorld.
In the past, satellite broadband was hampered by slower data transfer based on the long distance from Earth — a problem the companies hope to solve by putting their satellites in low-Earth orbit.
They will also launch extra satellites to ensure coverage if a few break down.
“If they’re really able to optimize the production … and get it out at a cost-per-unit measurement that makes sense for a household … then it really could expand satellite broadband into a major competitor for some of these terrestrial companies,” Palmer said.
Wyler, however, insists OneWeb will be a partner with the Earthbound networks, serving as an extension of current networks.
“We’re not competing at all,” Wyler said. “These are areas (where) the current broadband infrastructure are not designed to provide services.”
In some cases, he said, cellular operators might be able to put a tower in a rural area, but the location is too remote to lay cables or fiber to provide internet service. That’s where OneWeb could step in and beam service to the tower, Wyler said.
Ultimately, an expanding market for broadband probably can accommodate both technologies, said Ostrove of Forecast International.
“I think it’s just going to be another way … for the end user to get that service,” he said.