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Facebook’s solar-powered internet plane looks like a stealth bomber

Facebook’s solar-powered internet plane looks like a stealth bomber

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Meet the flying ISP

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Facebook's plans to become a flying internet service provider for the developing world are coming to fruition. The company today introduced Aquila, a high-flying, long-endurance plane that will bring basic internet access to the developing world. A working model of the plane is now ready for testing, Facebook said.

Facebook's shallow, V-shaped plane has the wingspan of a Boeing 737. But even fully loaded down with communications gear, Aquila only weighs between 880 to 1,000 lbs — about a third the weight of a Prius. "When deployed, it will be able to circle a remote region for up to 90 days, beaming connectivity down to people from an altitude of 60,000 to 90,000 [feet]," the company said in a blog post. This means the planes will be flying at an altitude above commercial aircraft, and even above the weather.

Flying above commercial aircraft and the weather

This is how it will work: Facebook will have lasers on the ground that can locate the dome-shaped optical head, located on the bottom of the plane, in the air — basically shooting a laser at a dime-sized target that is more than 10 miles away. The plane will first hone in on the general location of the laser on the ground, proceeding to target it further and lock onto the location so that it can start beaming down the internet. Because the plane requires a connection with the lasers on the ground though, you might experience a slower connection when it's raining or cloudy.

aquila

The plane is built from two layers of lightweight carbon fiber material that sandwich a layer of foam. The planes are intended to stay afloat for three months at a time — presently the record for an aircraft staying afloat is two weeks — which is why the entire outside shell will be covered in solar panels. During the day, when they are fully charged, the planes will fly at an altitude of 90,000 feet. But at night, in order to conserve power, they'll float down to about 60,000 feet, going back up again the following day. This ensures a constant connection to the internet, because they do not need to come down to be charged.

A breakthrough in laser performance

Facebook says it has also achieved a significant breakthrough in the speed and accuracy of how these lasers work — they've lab-tested a laser that can deliver data at tens of gigabits per second, which is 10 times faster than the current state-of-the-art lasers in the industry.

Facebook plans to use its Aquila fleet to create a linked network that will bring internet access to rural areas. Using a variety of data sources, Facebook can figure out where people are located physically, in order to then decide the most cost-effective way to bring them connectivity. As with its Internet.org project, Facebook won't provide access directly, and will instead partner with local carriers to offer services.

Correction, 6:31 p.m.: An earlier version of this story said the internet laser delivers data at 10 gigabytes per second. The correct measurement is 10 gigabits.

I'm excited to announce we’ve completed construction of our first full scale aircraft, Aquila, as part of our Internet.org effort. Aquila is a solar powered unmanned plane that beams down internet connectivity from the sky. It has the wingspan of a Boeing 737, but weighs less than a car and can stay in the air for months at a time. We've also made a breakthrough in laser communications technology. We've successfully tested a new laser that can transmit data at 10 gigabits per second. That's ten times faster than any previous system, and it can accurately connect with a point the size of a dime from more than 10 miles away.This effort is important because 10% of the world’s population lives in areas without existing internet infrastructure. To affordably connect everyone, we need to build completely new technologies. Using aircraft to connect communities using lasers might seem like science fiction. But science fiction is often just science before its time. Over the coming months, we will test these systems in the real world and continue refining them so we can turn their promise into reality. Here’s a video showing the building of Aquila.

Posted by Mark Zuckerberg on Thursday, July 30, 2015