3D Robotics
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Cross-posted from the 3DR blog.

This past March, Mark Jacobsen (pictured above holding an Ed Ansley Peace Drone prototype), a PhD candidate in Political Science at Stanford, spent a week in Turkey conducting field research among Syrian refugees and activists. At that time the sieges by the Syrian government were at their worst, and the refugees Mark spoke with told him tragic stories, venting their frustration with the U.S. for not airdropping food and other supplies to the besieged areas. Mark, an active-duty C-17 pilot in the U.S. Air Force, explained why the U.S. can’t do airdrops in Syria: Manned cargo planes are vulnerable to anti-aircraft fire, so you can’t conduct airdrops without also launching a major combat operation to take down those air defense systems.

Normally the discussion would end there. That night, though, moved and troubled by the stories he’d heard and the people he’d met, Mark couldn’t sleep. The more thought he gave the issue, the more absurd it seemed that in the 21st century we still don’t have a way to deliver critical humanitarian aid through contested airspace so it gets to those who need it most. Mark wouldn’t let the problem go, and a few months later he launched the Syria Airlift Project.

The project

The Syria Airlift Project (SAP) seeks to end the use of mass starvation and medical deprivation as weapons of warfare. The group and its partners are exploring creative ways to deliver humanitarian aid in conflict zones that are inaccessible to traditional aid organizations. They’ve focused their initial efforts on Syria, where according to a 2014 report by the Office of the High Commissioner for Human Rights, an estimated 240,000 people have been besieged and deprived of both food and medicine, and seven million more are considered difficult to access because of violent and chaotic conditions on the ground.

Mark, however, believes that fleets of small, inexpensive and easy-to-use drones can cheaply and safely deliver critical humanitarian aid—via a large amount of small packets—where larger aircraft cannot. “Imagine an army of ants stealing a picnic lunch, bite by bite,” Mark says. Or perhaps more constructively, an army of people contributing to a massive encyclopedia, byte by byte.

The project aims to use swarming principles and simple airdrop mechanisms to unload bundles of food or medicine outfitted with parachutes at pre-programmed GPS coordinates. The drones are small and quiet and will fly at night so that hostile actors won’t be able to track them; if they do, the drones wouldn’t even be worth shooting down one at a time. Because there are hundreds of them and they’re so small and cheap, no one aircraft is all that important, and it’s Mark’s bet that almost all will complete their mission.

The technology

The whole premise of the Syria Airlift Project is that effective drones can be built cheaply and in large numbers. Made of a simple airframe built from Dollar Tree foam board, packing tape, and hot glue, each aircraft (all-in, with servos, motors, props, autopilot and batteries) costs less than $500. Mark chose to use 3D Robotics APM 2.6 autopilots because they’re inexpensive and widely available, and also because the open-source software can be customized for specific purposes. The SAP’s autopilot modifications include a self-destruct mechanism to prevent the technology from falling into the hands of hostile actors, as well as special navigation instructions in the event of GPS loss or jamming.

The SAP also needed a low-cost way to coordinate simultaneous flights of dozens or even hundreds of these drones, so they created Swarmify, a custom mission planning tool. Mark says that if you give Swarmify one original flight plan, the software can create any number of slightly different flight plans that are randomized by altitude, route and timing. This allows them to quickly create and upload nearly identical and simultaneous flight plans for a whole swarm of drones, while also ensuring safe and collision-free flight.

When a mission comes up, a core team of experts will initiate mission planning and deploy select mobile field crews in Turkey to launch and recover the drones. In flight, the drones will maintain relatively low altitudes as they cross the border into Syria, where they’ll drop their cargo by parachute at the designated coordinates before returning to Turkey. These missions will be coordinated with both the Turkish government and with an extensive network of both Syrians and international aid organizations.

The people

The simplicity of the aircraft offers other advantages, too. Because the drones are built from common materials like foam board and hot glue, refugees need no special skills to take part in assembly, and once trained by visiting instructors, a four-man team can build ten a day. To that end, the Syria Airlift Project also partners with People Demand Change (PDC), a U.S. nonprofit based in Turkey that seeks to empower local populations, who will oversee the employment of Syrian refugees in assembling these airframes.

In this way, Mark hopes his project will also empower Syrian refugee communities, providing meaningful work to those who otherwise have limited means to contribute to their own cause. Aircraft construction will take place in schools and refugee camps in Turkey, where children will have the opportunity to decorate the airframes. The drones will then deliver parcels of food and medicine labeled not only with national and corporate sponsors, but also with symbols and language communicating a shared positive vision of Syria’s future.

The path

Obviously, the challenges the project faces aren’t exactly minimal, among them assessing and minimizing risk of of military retaliation or escalation, preventing unwanted technology transfer, and complying with U.S. and Turkish law to secure a sound legal basis for entering Syria. But the project is still in an early phase. Until now their work has primarily been exploratory, but this weekend Mark will publicly unveil the Syria Airlift Project at a pitch contest hosted by the Defense Entrepreneurs Forum (DEF), a private organization that exists to encourage innovative thinking in the Department of Defense. In the coming months the SAP plans to incorporate as a nonprofit organization, publicize their efforts and begin fundraising.

You could conservatively call Mark’s vision ambitious. At one point he tried to build a drone made entirely of granola, flying food that could be eaten upon crashing. He convinced his wife to cook up a prototype, but they never got the Granola Wing off the ground. (Visit the original 3DR blog post to see a pic.)

“What we’re proposing is insane, I know,” says Mark. “It likely can’t be done. But I keep reminding myself that perhaps it can, and if so, it might save thousands of lives and have a real impact on the Syrian civil war, creating a positive foundation for cooperation on which a shattered society can begin to build.”

We here at 3DR are proud to sponsor Mark and the Syria Airlift Project. If you’d like to help, too, you can contact them at info@syriaairlift.org.

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Comments

  • Moderator

    Can a deltaplane carry a 50KG (110lb) payload?   I'm not sure about what plane you would be talking about.  Certainly a full sized airplane could carry the load, but I'm trying to think of something that could be implemented easily and perform automated flights.  

     

  • Bill Piedra

    Deltaplane is best

  • Moderator

    Why not build an RC Paraglider.  A paraglider, with a gas engine power supply, and a Pixhawk setup to fly it could bring in payloads of 50KG or more very easily.   There are plenty of examples of RC Paragliders.  Here's a video of what I'm talking about. 

    https://www.youtube.com/watch?v=a_ngjzUZXb0

    This might be a usable payload to transport bulk foods, medicine, and even small amounts of water.

  • Alex- We've actually talked about that. We looked at everything we could think of, including rail guns. But I think we're capable of building a fleet of small drones, and I'm not so sure we're capable of building a railgun.

  • mP1: As I said, we are going to focus in the beginning on medical supplies and low-mass, high-value goods like vitamins, water purifiers, and baby milk. The symbolic value also cannot be quantified.

    As for weaponization, we are acutely aware of that risk. That is why we are building custom failsafes like APM self-destruct mechanisms that trigger if the planes go down in Syria. And we will start with just are a few planes to validate security and control processes before expanding.

  • Seems a rail gun (to reduce the g force) with a ballistic object full of food and a parachute set to deploy xx seconds after firing would be much better and cheaper in the long run. You'd just wheel it up 10 miles away and start firing into the city. It'll be raining food in no time.

  • mP1,

    With water purifying tablets, multi-vitamins, and medicines like antibiotics, etc, a typical human can survive for months on end.

    Might just be enough to hold on and win, or just stay alive, damn sight better than endless politicians endlessly blabbing about what should be done.

    As stated, my proven drone comes back......

  • Puffed rice might be a good material! ;) Thumbs up, great project! I would be happy to donate a few bucks, if that helps.

  • This has to be one of the dumbest ideas ive heard about utilising drones. Even for small towns with hundreds of people, it would take thousands of todays drones to deliver at most a day or two supplies. The last thing thats needed is to give thousands of drones to the bad guys so that can carry small explosives.

  • A very real and humane way to show that drones are a great tool for helping people in disaster areas.

    Lots of respect to Mark and his associates.

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