Success! Solar Impulse 2 completes trans-Pacific flight

Solar-powered plane lands in Santa Clara county after nonstop, 62-hour trip

Solar Impulse flies over Golden Gate Bridge
Source: Solar Impulse

Imagine you are piloting a plane the size of a 747. But unlike a 747, this plane has an unheated, unpressurized cockpit in which temperatures fall as low as -40°. Moreover, you have to fly for over 60 hours straight, without ever getting up to stretch. And as for sleep, don’t count on getting much. You can take naps, but only about 6 a day, each lasting 20 minutes.

Sound like your kind of challenge? If so, you should sign up to join the Solar Impulse team. Because that’s exactly the kind of endurance needed to pilot Solar Impulse 2, the solar-powered plane that has just completed the latest leg of its historic round-the-world flight.

Last Thursday, Solar Impulse 2 took off from Kalaeloa, Hawaii, with pilot Bertrand Piccard at the helm. (This is the same Piccard who, in 1999, became the first person to complete a non-stop balloon circumnavigation of the earth.) Sixty-two hours later, the plane touched down on Moffett airfield, in Santa Clara county. From there, it will fly to several points across the U.S. before it takes off from New York for a non-stop flight across the Atlantic Ocean.

Solar Impulse 2 has four propellers, but doesn’t sip an ounce of fuel. Instead, it relies solely on the power of the sun. As such, it is a testament to modern technology. But as I’ve already hinted, it is also a testament to the depths of human endurance and stick-with-it-ness. If you were impressed that anyone could pilot a plane for over 60 hours straight, consider the plane’s nonstop solo flight from Japan to Hawaii, which took 120 hours from start to finish!

QNX Software Systems is proud to be the official realtime OS partner for the Solar Impulse team. The plane uses the QNX Neutrino OS for several control and data communication functions.

Read my previous posts on this groundbreaking project and check out the Solar Impulse website.

Solar Impulse returns to the skies

Crew of QNX-equipped solar plane set to resume historic flight

Solar Impulse: powered only
by the sun  Source: Solar Impulse

In case you missed it, Solar Impulse, the solar-powered airplane that is flying around the world to promote green energy, has returned to the skies.

The Solar Impulse team suffered a temporary setback last summer, when the plane’s batteries overheated during a five-day flight between Japan and Hawaii. Battery problems notwithstanding, the 120-hour trip set a world record for longest non-stop solo flight.

The team has since upgraded the plane with a newer (and cooler) battery system and has successfully completed three test flights. If all goes as planned, the plane will take off from Hawaii in mid-April for a four-day journey to the continental United States. Once the plane completes its U.S. crossing, it will fly non-stop across the Atlantic.

The plane’s round-the-world trek began on March 9, 2015, when it took off from an airport in Abu Dhabi. It then completed several hops, totaling 18000 kilometers, before landing in Kalaeloa on June 28.

Solar Impulse may be powered by the sun, but it can fly at night, using energy stored in its lithium-ion batteries — all 17250 of them. The plane is massive, with the wing span of a Boeing 747, yet weighs no more than a family car.

Solar Impulse bootup screen. Screen-grab from video.

QNX Software Systems is the official realtime OS partner for the Solar Impulse team. The plane uses the QNX Neutrino OS for several control and data communication functions.

I’ve been tracking the progress of the Solar Impulse project since 2009. Read my previous posts, which include a look at the plane’s virtual cockpit. And remember to check out the Solar Impulse website.

Behind the controls of the Solar Impulse

Virtual cockpit lets you follow progress of round-the-world flight in real time.

What’s it like to get behind the controls of a solar-powered plane — a plane now in the process of circumnavigating the globe? You and I will never really know, but we can enjoy the next best thing: a virtual cockpit that provides a pilot’s eye view of the plane’s instrument panel.

Just point your browser to the Solar Impulse website whenever the plane is in the air, and you will see real-time updates to the plane’s flight instruments. For instance, in this screen capture, you can see the current position of the ailerons, airbrakes, elevators, and rudder, along with the airspeed (in knots), vertical speed (rate of climb or descent), heading, and altitude:



And in the following screen capture, you can see much of the same information, presented in a different fashion, along with the attitude indicator, which shows whether the wings are level and whether the nose is pointing above or below the horizon:



I've covered only a subset of the real-time information displayed on the Solar Impulse website. For example, you can also view a map of the plane’s progress, a video feed of the mission-control center, and the current power mode of the plane’s electrical system:



QNX Software Systems is the official realtime OS partner for the Solar Impulse team, and the plane uses the QNX Neutrino OS for several control and data communication functions.

Flying in the dark on solar energy

Crew of QNX-equipped Solar Impulse plane gears up for historic flight.

The Solar Impulse 2, aka SI2
Source: Solar Impulse

The countdown has begun. On Monday, March 9, the Solar Impulse 2, a one-of-a-kind airplane that runs exclusively on solar power, will take off from an airport in Abu Dhabi. The destination? Abu Dhabi!

That’s right, this is a round trip — but not just any round trip. It is, in fact, the first attempt to fly around the world using only the power of the sun. On board will be André Borschberg, the former jet pilot who, together with Bertrand Piccard, cofounded the Solar Impulse project 12 years ago. (Piccard’s name may ring a bell — as well it should. In 1999, he became the first person to complete a non-stop balloon circumnavigation of the earth.)

The Solar Impulse can fly at night, using energy stored in its lithium-ion batteries. But it’s no fly-by-night operation. Borschberg and Piccard have spent the last 12 years on this project and have set 8 world records in the process, including longest uninterrupted flight (26 hours, 10 minutes) and highest altitude (9235 meters) for a solar-powered plane. That’s pretty impressive, but then, everything about this plane is remarkable, from the wingspan (72 meters) to the number of voltaic cells (17250) that power its electric motors.

Solar Impulse bootup screen. Screen-grab from video.

The human element is equally impressive. To cross the Pacific or Atlantic ocean, the plane, which has a cruise speed of 90  km/h, will need to stay airborne for about 5 days, nonstop. And that means the pilot also needs to stay airborne for 5 days, in an unheated, unpressurized cabin with temperatures ranging from -40°C to +40°C. Yes, the pilot is allowed to take naps, but only 6 a day, each lasting 20 minutes. Not surprisingly, both pilots (Borschberg and Piccard will each take turns flying the plane), have learned self-hypnosis and meditation techniques to help them enter and exit deep sleep as quickly as possible. The plane can accommodate only one pilot at a time, and the team plans a total of five stops to allow changes of pilots.

As mentioned in previous posts, QNX Software Systems is the official realtime OS partner for the Solar Impulse team, and the plane uses the QNX Neutrino OS for several control and data communication functions. So, as you can imagine, come next Monday, my browser will be tuned to the Solar Impulse website. I hope yours will, too.

Until then, here's a “making of” video of the Solar Impulse 2. Enjoy.

Why do I work at QNX? Reason #3: We enable cool

My previous post focused on pride. Not the selfish kind (see hubris), but rather, the pride in contributing to a company that helps create things that matter, be they systems that deliver electricity to your home, the Internet to your home, or, in the case of emergency, an ambulance to your home.

But enough with the serious stuff. Let’s focus on some seriously cool stuff instead. I also like being part of QNX because we help people create things…

like this (Audi A8 MMI system):



and this (Solar Impulse solar-powered plane):



and this (JamMan guitar pedals; jump to 1:25):



and this (Asimov Lunar rover):



and, of course, this (I never leave home without one):



For more examples of cool (and important) QNX-powered stuff, check out this overview on the QNX website.

Stay tuned for next post: “I hate being bored”
Previous post: "We help make a difference"

 

CNN airs video of Solar Impulse solar-powered plane

It has the wingspan of a Boeing 777, but weighs only as much as a family car. It has four propellers, but doesn’t consume an ounce of fuel. It's called the Solar Impulse, and it's the first plane designed to fly round the clock using only solar power.

I've already posted several articles on the Solar Impulse, which uses the QNX OS for a variety of control and data management functions. But this CNN video has some particularly nice shots of the plane. Enjoy!


 

QNX-powered flight simulators help airline pilots earn their wings

As a pilot, how do you learn to handle a critical problem, such as a hydraulic failure in mid-flight, when that problem may occur only once (if ever) in your career? And how do you practice difficult maneuvers until you get them right, without endangering yourself or anyone else? In a flight simulator, of course!

Mechtronix is one of the biggest, and fastest growing, flight simulator vendors in the world. And to get there, they've taken the road (or should I say flight path) less traveled. Rather than equip their simulators with all the hardware deployed on actual planes — the traditional method — they use software to replicate most of an airplane's behavior.

Eliminating hardware offers numerous benefits. It cuts costs dramatically. It makes the simulators lighter and easier to transport. And it makes them easier to maintain, since the customer no longer needs a specialized avionics engineer. But enough from me — let's hear Thomas Allen, VP of Technology at Mechtronix, describe the company's approach and how the QNX OS helps make it possible:



Two things stand out for me. The first is QNX's talent for juggling many concurrent tasks and gazillions of I/O points. This ability to support intense multitasking, while delivering fast and predictable response times, is essential to replicating the experience of flying a real plane.

Second, I was fascinated to hear how the system design adopted by Mechtronix parallels the architecture of the QNX OS. Years, ago, someone explained to me how the QNX OS isn't simply a well-designed, modular OS; it also encourages well-designed, modular systems. In Mechtronix, we have an example.