It was in England, it wasn’t far from Amazon’s warehouse, it’s daylight/good weather only, and it’s available to only two customers at the moment. But Amazon says that it will soon expand availability to dozens of UK customers, then hundreds, and then—regulations willing—the world.
Don’t expect to get 30-minute Amazon Prime Air delivery in the US any time soon, though. Amazon’s ambitions are being thwarted by the FAA, which has yet to approve Amazon’s drone-delivery plans here.
There are plenty of questions about delivering packages by automated drone. How will it work? Will the skies become black with drones? Will they collide with planes? What about apartment dwellers?
So when I reported my story about the current legal status of drones for “CBS Sunday Morning” (you can watch the story here), Amazon, of course, was one of my first stops. In October 2015, I interviewed Paul Misener, Amazon’s vice president for global public policy.
In honor of Prime Air’s first successful package delivery, I thought that maybe it’d be worth re-posting the edited transcript of my interview with Amazon’s Misener.
David Pogue: First of all, tell the unenlightened about Amazon Prime Air.
PM: Well, soon after I joined Amazon in early 2000, my young son was sitting on my lap. And we ordered something from Amazon, and he hopped off and ran up to the front door, waiting for the brown truck to show up on the spot. That was a high-delivery expectation. (LAUGH) I had to explain that just because we’d bought this thing doesn’t mean it’s at the front door yet.
So Prime Air is a future delivery service that will get packages to customers within 30 minutes of them ordering it online at Amazon.com.
The characteristics of these drones that we have set as goals for ourselves are: the range has to be over 10 miles. These things will weigh about 55 pounds each. But importantly, they’ll be able to deliver parcels that weigh up to five pounds. And it turns out that the vast majority of the things we sell at Amazon weigh less than five pounds.
DP: OK, a few questions pop up right away. What if I’m not home?
PM: It gets delivered to your doorstep, or wherever you want in your yard, just as like it would be if it were delivered by the UPS truck.
DP: What about if there’s some guy with a shotgun who sees that I’m getting a TV and wants to shoot it down?
PM: I suppose they could shoot at trucks, too.
We want to make the deliveries. And we believe that these Prime Air drones will be as normal as seeing a delivery truck driving down the street someday. So the novelty will wear off.
DP: Would it help Amazon, not having to pay shipping companies? To have it under your own control?
PM: Well, that’s not the purpose of it. It’s really to fulfill a need that we believe our customers have.
Usually they need that delivery in a few days, and that’s sufficient. But for example, let’s say your grandchildren are visiting you at the end of the month. You want to stock up on batteries. So you go to your computer, your laptop, your tablet or your smartphone, go to the internet, go to Amazon.com, and stock up on batteries. They’ll be delivered a few days later, and that’s fine.
But what if one of your grandchildren is already visiting you, and she’s playing with an electric truck on the floor, and the battery wears out? On one hand, you could get her all bundled up, put her in the car and drive to the store to get the battery replacement, and drive all the way back. Wouldn’t it be so much better if you could just go online from Amazon and order it, have it delivered in 30 minutes?
DP: I mean, sure. But you would understand if people would say, “Are you kidding? That is a huge technological, geological, geographic, regulatory problem to solve!”
PM: Well, it’s actually not as difficult as you might think. The automation technologies already exist.
DP: So which problem is harder to solve? The technological ones or the red tape?
PM: Well, the regulatory issues to which you refer are difficult. And once we demonstrate the safety of the system, we believe that the regulations will quickly follow.
DP: Do you have the drones you’ll be using?
PM: We have different prototypes we’re working on simultaneously—different kinds of drones for different kinds of delivery circumstances. Our customers in the United States live in hot, dry, dusty areas like Phoenix, but they also live in hot, wet, rainy environments like Orlando, or up in the Colorado Rockies.
Likewise, obviously, our customers live in a wide variety of buildings. Some live in a rural farmhouse. Some live in a high-rise city skyscraper. And then everything in between. In suburban and ex-urban environments. We want to be able to serve all those customers. And it may take a different kind of a drone to best work in each one.
DP: You’re designing and building your own drones? So these aren’t off-the-shelf?
PM: No; these are quite different than the drones that you can buy in a store and fly around. These are highly automated drones. They have what is called sense-and-avoid technology. That means, basically, seeing and then avoiding obstacles.
These drones are more like horses than cars—and let me explain why. If you have a small tree in your front yard, and you want to bang your car into it for some reason, you can do that. Your spouse might not be happy with you, but you can do it.
But try riding a horse into the tree. It won’t do it. The horse will see the tree, and go around it. Same way our drones will not run into trees, because it will know not to run into it.
DP: How do you solve the apartment-building problem?
PM: We’re working on it. And again, it might be changing the design of the drones, so that they better serve that kind of an urban environment.
DP: Or maybe the apartment-building owners could designate, you know, a spot on the roof, or in the courtyard?
PM: That’s entirely possible. We’re thinking through those.
DP: Amazon ships millions and millions of packages a week. Won’t it be loud to have the sky filled with buzzing Amazon drones?
PM: Well, it’s not gonna be some science fiction, Hitchcock scenario; that’s a bit of an exaggeration. But if we design these correctly, they won’t be loud and obnoxious and noisy. It’s a really cool engineering challenge, it turns out. I mean, there are a bunch of challenges. But dampening the noise is one of them.
DP: And how will you keep these drones from interfering with air travel?
PM: Well, we’ve proposed to regulators around the world, including the F.A.A., a certain kind of an airspace design that would keep the drones separated from the aircraft.
We were thinking: Manned aircraft above 500 feet. Between 400 and 500 feet there’d be a no-fly zone—a safety buffer. Between 200 and 400 feet would be a transit zone, where drones could fly fairly quickly, horizontally.
And then below 200 feet, that would be limited to certain operations. For us, it would be takeoff and landing. For others, it might some aerial photography. The realtors, for example, wouldn’t need to fly above 200 feet to get a great shot at a house.
DP: How have the F.A.A. and NASA reacted to this proposal?
PM: I think they welcome the thinking that has gone into it. So I’m hopeful that this will spur discussions about exactly how to get this right.
DP: How does this proposal, the layers idea, differ from what NASA’s working on?
PM: It’s with a similar goal in mind. We presented this proposal at a NASA conference, and we’re of the same mind. We need to figure out this airspace.
DP: My impression is that the FAA and Amazon haven’t exactly seen eye to eye on your plan.
PM: In deference to the FAA., or in sympathy with the FAA, it turns out that they have a limited ability to regulate amateur drones, but they have full powers to regulate commercial drones. To my way of thinking, at least, that imbalance doesn’t make sense. At the very least, they ought to be treated the same, to give the F.A.A. the same authority to regulate both amateur and commercial drones.
Arguably, you would want to regulate the amateurs even more, because they have less training, their drones are less sophisticated, and so forth. So certainly that part of the law needs to be clarified, at a minimum.
We believe that they must begin, in earnest, planning for the rules that are more sophisticated, that go to the kinds of operations that Amazon Prime Air will encompass. And other countries already are doing this.
DP: Well, what happens if the technology is ready, everything’s ready, but the FAA still doesn’t have regulations in place for Amazon?
PM: Well, we have customers all around the world, of course. There’s no reason why the United States must be first. We hope it is.
DP: When you tell people what you do at parties, what do they say?
PM: Well, I’m an engineer and a lawyer. They don’t talk to me at parties. (LAUGH)
But when they do deign to talk to me, and ask me about Prime Air, they always ask me the questions you led with. “Is it real? Or is this science fiction? Is this just all some big marketing thing?”
I can tell you, it is very real. We’ve beefed up a team at Amazon Prime Air that includes aeronautical engineers, roboticists, a former NASA astronaut. These folks are completely focused on making this a reality. And demonstrating that it is safe before we begin operations.
Challenges are there, for sure, but once we demonstrate that this is safe, we’ll be able to take it to the regulators and hopefully deploy it for our customers quickly. I’ve seen it. It’s gonna happen. It’s coming.
An earlier version of this article ran in January 2016.
David Pogue, tech columnist for Yahoo Finance, welcomes non-toxic comments in the Comments below. On the Web, he’s davidpogue.com. On Twitter, he’s @pogue. On email, he’s [email protected]. Here’s how to get his columns by email.