This is actually an FAA/NASA initiative.[1] They're trying to figure out how this can work.
The FAA's first round is out, with the proposed "drone pilot licenses" and coordination with existing ATC for drone operations in controlled airspace. That won't scale up to large numbers of drones, but can be done now. The FAA is considering fewer restrictions on very small drones (<2KG). They have a study indicating that in theory most 2KG drones won't damage large aircraft jet engines enough to destroy them. But as yet, that hasn't been tested on real engines. (Real engines are tested against bird strikes by firing frozen chickens of various sizes into the engine, using an air cannon. That's going to have to be done for drones, and it's not cheap.)
The FAA is trying to get this under control before some large quadrotor with motors with cobalt-neodymium magnets gets sucked into a jet intake.
Thank you for the information, most of which is new to me. However, one minor point of correction, is that I believe the birds are thawed, not frozen, when fired into jet engines to test them.
Today, we're still using AM line of sight radio, on a frequency that can only accept one transmission at a time.
First innovate a better system for drones. Then replace the legacy ATC system in stages for Class A, Class B, Class C, Class E IFR, and finally Class E VFR. And only then can the altitude restriction on drones be lifted, and integrated into the rest of the ATC system. But even getting Class A and B under the same modern and scalable system as drones, even if they aren't sharing airspace, is something pilots, airlines, ATC, and the FAA have needed/wanted for a long time.
Enabling Super Wi-Fi[1] nation-wide would be a good start to a better system for wireless communications for drones and other internet-connected devices
Does it work at 45000'? Seems ideal to have one comm system for low and high altitudes, but at least there should be at most two and no gap in coverage.
I would think so because analog TV over the air was able to travel more then 9 miles, but I don't think that toy drones can go that high, but that will probably change...
Analog TV transmitters were using serious wattage, and it was only transmitting. Wifi will have a lot less transmission wattage and it has to have a lot or reception sensitivity and hundreds maybe thousands of clients. So it's an interesting problem.
One thing i'd like to see from drones is a registration of the drones firmware signature. So as a drone is flying, it would broadcast the signature, and you can see above you what's flying around.
This. Alot of drone guys or people who dream of drones forget that there's GA planes up there. I've had to dodge stupid cameras on balloons while landing. That's so dangerous
ADS-B is effectively to replace Mode C. There's nothing in the mandate that expands Mode C required airspace. So that leaves a metric ton of space not covered by the rule for conventional airplanes, let alone drones. Drones of course need a totally different and scalable system.
Something possibly like a centralized flight plan, that's given an ack/nack/patch, and then the drone flies that plan on its own without needing constant comm like today's aircraft do (more like IFR plans where you're expected to complete the entire cleared flight plan, to the minute, in a comm failure). And then all drones share all flight plans that affect their routing. And all nearby drones rat each other out if any drone deviates from their flight plane. That'll scale. ADS-B may not.
1. For ADS-B out, you, of course, need all the requisite sensors (GPS, etc).
2. The correctness of ADS-B data protects human life. Naturally there will be much stricter requirements (certification of reliability) on something that produces this data and introduces it to the system, than for a "just for fun" receiver.
The idea of centralized air traffic control for drones seems completely backwards to me. Birds don't have air traffic control, they have eyes and a brain and avoid obstacles and each other autonomously.
Maybe there will be a need for some defined airways for drones, but they should be able to fly and navigate for themselves.
Whilst I appreciate a bird analogy as much as the next guy (and it makes sense from a mechanical perspective), I'm not sure if it works for regulation purely because birds aren't responsible to anyone or anything else if things go wrong. Drones are human products and thus someone, ie their creator or user, would need to be held accountable.
This is very exciting, and inevitable. This sort of infrastructure will lead to a lot of innovation because it alleviates many of the questions about operating drones in shared spaces.
It deals with drone on drone, but not really drone on non-drone. And also doesn't deal with the "virtual pilot" firmware drones will run, that should have an analog to FAR 91 rules such as the obstacle avoidance and being able to avoid injuring people and property on the ground. I have to be able to do that as a pilot, there's no good reason why an up to 55lb drone going up to 100mph should be exempt.
The FAA's first round is out, with the proposed "drone pilot licenses" and coordination with existing ATC for drone operations in controlled airspace. That won't scale up to large numbers of drones, but can be done now. The FAA is considering fewer restrictions on very small drones (<2KG). They have a study indicating that in theory most 2KG drones won't damage large aircraft jet engines enough to destroy them. But as yet, that hasn't been tested on real engines. (Real engines are tested against bird strikes by firing frozen chickens of various sizes into the engine, using an air cannon. That's going to have to be done for drones, and it's not cheap.)
The FAA is trying to get this under control before some large quadrotor with motors with cobalt-neodymium magnets gets sucked into a jet intake.
[1] http://utm.arc.nasa.gov/index.shtml