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MAN: The HVI is on the move.
NARRATOR: Drones.
These aerial robots are replacing manned planes.
They're revolutionizing warfare
by allowing us to see and kill from half a world away.
And they're making science fiction a reality.
Now, with unprecedented access
to drone scientists, engineers, and pilots,
NOVA reveals the technologies that make drones so powerful,
and the breakthroughs that are leading us into the future.
Will drones soon replace
even the most sophisticated manned planes
and become a part of our everyday lives?
It started out as a toy for my dogs to chase.
RAND PAUL: The worry is that we'll have
30,000 drones crisscrossing the sky
accumulating all this information.
NARRATOR: They generate opposition both overseas and at home.
I speak out on behalf of the rule of law.
NARRATOR: Now, enter a new chapter in aviation history
as NOVA takes you inside the "Rise of the Drones."
Three, two, one...
(beeping)
Major funding for NOVA is provided by the following...
Supporting NOVA and promoting public understanding of science.
And by the Corporation for Public Broadcasting.
And by contributions to your PBS station from:
Additional funding from:
Inspiring tomorrow's engineers and technologists.
And Millicent Bell through:
NARRATOR: This is the ultimate melding of man and machine.
The U.S. has more than 2,300 manned fighter planes,
and pilots like Matt McDonough have long been our heroes.
McDONOUGH: The best fighter pilots that I've seen
are the ones that can make a quick decision
when things are happening very quickly.
NARRATOR: But a revolution is underway
as manned planes are replaced by drones.
Are we approaching a time
when movies like The Terminator become our reality?
Oh God, it's the machines.
They're starting to take over!
NARRATOR: A time when machines fly, think, and even kill on their own.
Drones are aerial robots that carry visual sensors,
navigation systems,
and sometimes even weapons.
They come in all shapes and sizes
and go by a variety of names.
DAVID DEPTULA: The United States Air Force
uses the term "remotely piloted aircraft."
They are also known as
unmanned aerial vehicles,
or, as the media likes to call them, drones.
NARRATOR: Already the Pentagon relies on
a family of more than 10,000 drones,
usually to spy, but sometimes to kill.
Small enough to fit in a soldier's backpack,
the three-foot-long Raven
is the most widely used spy drone in the world.
The stealthy Sentinel provided crucial intelligence
in the raid to kill bin Laden.
The killer Predator
has flown thousands of missions since 2001,
and the giant Global Hawk
can stay aloft and spy for up to 35 hours.
The military uses drones to support troops on the ground.
The CIA maintains a covert drone program
to find and target individuals.
The government claims drones have helped to eliminate
up to 70% of al Qaeda's top leadership.
They have been so effective,
the Air Force predicts
nearly a third of its attack and fighter planes
will be drones within a decade.
Planes can fly longer, they can pull more Gs,
they can be more precise when they bomb
if a human is not in the cockpit.
NARRATOR: We're entering a new era
y of even
is being challenged
as engineers take the pilot out of the cockpit.
Holloman Air Force Base in southern New Mexico
is the largest Air Force training base
for operators of remotely piloted aircraft.
CHAD: My name is Chad,
and I'm a captain in the United States Air Force.
For security reasons we've been asked to cover our last names
to prevent us from potentially becoming a target of any kind.
NARRATOR: Captain Chad has flown remotely piloted aircraft
in combat for three years
and now teaches pilots
to fly the world's most famous killer drone.
It's known as the MQ1, or more commonly, the Predator.
The Predator has changed warfare,
but it's just a hint of what's to come.
DEPTULA: Where we are
in terms of unmanned aerial vehicles
is about the same place we were with biplanes
right after World War I.
We are at the very, very early stages of realizing
what the potential of unmanned aerial vehicles are.
NARRATOR: Unlike complex fighter planes
that are engineered for speed and agility,
the Predator is built for endurance,
so it needs to be light and efficient.
CHAD: It's the weight of a pick-up truck or so, about 2,000 pounds.
And it's balanced pretty evenly on the wheels.
With one hand here,
I can lift it up and set it back down.
NARRATOR: The propeller-driven Predator
cruises at only 84 miles per hour,
and its four-cylinder engine
burns about 300 times less fuel than a fighter jet.
CHAD: I can't say exactly how long it can stay up,
but it is possible to stay up over 24 hours.
NARRATOR: A typical fighter plane
ut two hours
and short, angled wings keep it fast and maneuverable.
But the Predator hovers five miles up,
often in uncontested airspace,
and its long wings maximize lift.
CHAD: As you can see, it's got some flex to it.
NARRATOR: With no pilot to protect, a remotely piloted aircraft
is much lighter and simpler than a manned plane.
On a fighter, the pilot's support equipment
and ejection system alone weigh as much as a Predator,
which in place of a cockpit has a satellite control system.
CHAD: It's essentially the brains of the aircraft
that gives us the ability to communicate, control,
to keep link with the aircraft and navigate it.
NARRATOR: The Predator's sensor ball
carries daylight and infrared cameras.
CHAD: We can easily make out people from five, six miles away.
NARRATOR: The sensor ball also guides
the Predator's two Hellfire missiles.
CHAD: From right here we fire the laser
and the laser spot hits the ground,
the eeker,
so this seeker will find that laser spot on the ground
and travel to that spot,
giving us a very precise capability of employing weapons.
NARRATOR: When conducting missions,
remote pilots work out of small trailers on the ground.
They control the Predator by satellite.
This link is what makes it possible
ckpit
and fly from virtually anywhere on the planet.
CHAD: It's tight, about the size of a normal shipping container.
A shift can be anywhere from two or three hours
up to eight or more hours depending on the situation.
NARRATOR: From trailers like this,
pilots of the Predator and its larger cousin, the Reaper,
have killed thousands of individuals since 2001.
In this clip from Iraq,
a Predator pilot sees two insurgents firing mortars
towards a coalition airbase.
He tracks them and finally shoots.
WOMAN: Splash.
NARRATOR: The pilot's role is to support troops on the ground
and go after threats
while trying to minimize civilian casualties.
We got a new altimeter for you.
NARRATOR: With such high stakes, pilots like Chad need ongoing training.
Today, he'll be flying the Reaper
in an exercise 50 miles away, in the New Mexico desert.
MAN: All right, Greg, you're going to be my HVI.
I have... Shadow 1 station is going to be watching you.
NARRATOR: A group of former soldiers
working for a company called Rally Point
will run an exercise
in which Chad will hunt down insurgents in a mock village.
We'll strike you there, and once you die,
stay there, drive...
NARRATOR: Two will play insurgents,
and one will be a soldier on the ground communicating with Chad.
CHAD: Have to take off now, so we are going to push the throttle up.
And there, we're up in the air.
NARRATOR: The training mission offers
a rare glimpse into the mechanics
of how the U.S. uses drones to support troops
and prosecute its war on terror.
The goal is to make it as realistic as possible
so pilots can avoid mistakes when in battle.
They should be checking in here
probably in the next 20 minutes ore so.
It's going to be an MQ-9, a Reaper.
If they're at 25,000 feet, which they generally work,
we're not going to be able to see them at all.
NARRATOR: It takes about half an hour to reach the mock village.
Drones like the Reaper can fly on their own
using autopilot and pre-set GPS locations.
But the Air Force still keeps human hands on the controls
at all times.
People have this concept of either,
"It's a manned plane
and the pilot's doing everything,"
or, "It's an unmanned plane
and it's something out of the Terminator movies."
The reality is it's in the middle right now
for both the manned and the unmanned planes.
Our mind tries to put it in terms of robot or human,
but the reality is a mix.
NARRATOR: As Chad pilots the Reaper,
his sensor operator, Jay, controls the cameras and lasers.
On the ground, the fake insurgents enter the village
as the Reaper hovers miles above.
Bones 3-4, Rally 2-0, say status.
Rally from Bones 3-4.
We have eyes on the target.
NARRATOR: Chad gets direction from the soldier,
whose handheld receiver and computer
allow him to see what Chad sees.
Chad's call sign is "Bones."
The soldier goes by "Rally."
CHAD: Rally from Bones, we have two packs moving around
inside the northwest corner of the compound.
Bones 3-4 from Rally 2-0, continue to shadow.
NARRATOR: The soldier directs Chad and Jay to follow an HVI,
or high value individual, dressed in black.
CHAD: Rally from Bones 3-4.
Looks like the one individual wearing black
is now getting on the motorcycle and departing the group.
NARRATOR: Depending on the situation, the decision to kill
comes from an intelligence officer who could be anywhere,
a battle commander on the ground,
or sometimes the pilot.
Bones 3-4 from Rally 2-0.
Looks like that personnel is stopping.
CHAD (on walkie talkie): Bones 3-4, that's what we've got up here.
Would like to go ahead and prosecute.
Nine line, bravo, one.
Copy, master arm.
NARRATOR: The sensor operator targets using the laser.
CHAD: This will be a run against the target under our crosshairs.
Ten seconds release.
Copy.
CHAD: Three, two, one, rifle.
Bones 3-4, weapons away.
25 seconds time of flight.
NARRATOR: The Predator uses laser-guided Hellfire missiles.
DEPTULA: The weapons that can be used
operate with an error distance of less than nine feet.
You can put a weapon through a window-sized opening with ease.
CHAD: Five, four, three,
two, one...
Splash.
Rally, it's Bones, we have a splash.
Stand by for BDA.
Bones, Rally-- Looks like a good splash.
Copy, lasers off, and master arm is now safe.
NARRATOR: The efficiency of having a single craft
able to find, follow and eliminate
a target like this in real time
represents a revolution in warfare.
DEPTULA: Let's go back to the middle of the last century.
During World War II, it took on the order of months
to assemble intelligence from a variety of different sources,
whether it be airborne or on the ground,
to assimilate that information
and then determine what targets might be hit.
Then it took hundreds of aircraft
and literally thousands of bombs
to go out and attack a target using that information
that had been developed over a period of months.
Today, with the capabilities all wrapped up into one vehicle,
the Predators and the Reapers in particular,
you can accomplish that "find, fix, finish" cycle
in a matter of single-digit minutes.
NARRATOR: Before the Predator,
to design
for intelligence-gathering and attack.
Reconnaissance was key, and after World War II,
engineers built ultra-sophisticated spy planes.
They went faster and higher than ever before
to make sure the pilots
and the information they gathered
didn't fall into enemy hands.
MAN: The SR-71 was triple sonic.
In other words, it could go over mach three.
Max recorded altitude was 85,200-some feet.
And there's several of us that have gone higher than that.
NARRATOR: Pilot Tony Bevacqua
roup of men
a titanium spy plane
built during the height of the Cold War
that could take photos of the ground
with 12-inch resolution from 90,000 feet.
Literally faster than a rifle bullet,
even missiles were too slow to catch it.
BEVACQUA: I was the first person in the SR-71
to get shot at, and it was over Hanoi.
You got an airplane that's going 2,200, 2,300 miles an hour,
and it's very, very difficult to even come close.
They figure that the missile exploded about a mile below me,
and we're in and out of there in no time.
(laughing): Thank God.
NARRATOR: The cost of such speed was that the SR-71
needed to be refueled every two hours.
But there was a slower alternative called the U-2.
Bevacqua is one of only 12 pilots
to have flown both operationally.
BEVACQUA: I was very proud of being a U-2 pilot
because of what we have done and what we're still doing.
It's just a magnificent platform
and does excellent reconnaissance.
oday
nearly 60 years after its introduction,
pilot endurance limits U-2 flight time to 12 hours.
McDONOUGH: It's pretty demanding on their bodies.
They have to wear a special high altitude suit for it.
And then it wipes them out for a good couple of days.
It fatigues them quite a bit to go that high.
NARRATOR: Manned spy planes are not only limited by human endurance,
they also bring the risk of pilot loss.
In 1960, Bevacqua's friend, Francis Gary Powers,
was shot down while flying a U-2 over the Soviet Union.
REPORTER: It was a propaganda field day for the Russians.
NARRATOR: Powers' cover story was that he was on a meteorological flight.
BECQUA: Frank Powers tried to say
it was a weather flight,
but there's miles of film.
And so it was easy to discern what he was doing.
REPORTER: And Khrushchev denounced the United States
with every epithet in his vocabulary.
He summarily rejected all attempts of the West
of reconciliation.
NARRATOR: Powers was imprisoned in Russia for more than two years,
creating a major international incident
and clearly demonstrating the need for unmanned spy planes.
REPORTER: It was a development from the pilotless aircraft principle.
Guidance was by radio from an accompanying aircraft.
After reaching altitude...
NARRATOR: As early as World War II,
once at altitude,
airplanes could be controlled by radio signals
after the pilot bailed out.
But for decades afterwards, before GPS, drones were limited
by primitive autopilots and navigation systems.
In the '60s and '70s, drones crashed constantly,
including the most advanced unmanned aerial vehicle, or UAV:
the Aquila drone that averaged a crash every 20 hours.
SINGER: It was a small propeller drone
that would fly over the battlefield
and gather information
and beam it back to you.
The problem is, back in the '70s the technology wasn't ready yet.
It was a billion-dollar program
by the time they got just a couple of prototypes.
MAN: I was frustrated that the U.S.
could not make UAVs really work.
NARRATOR: Abe Karem is the father of the Predator.
KAREM: This is one of two small UAVs
built in my garage between 1980 and 1983.
I was borrowing $18,000 a year from family, that's all we had.
Everything was built with the lowest possible technology.
We were trying to show that if you design the best you can,
then you are going to get performance by design.
NARRATOR: On his first prototype, the Albatross,
Karem placed the engine and propeller in the rear
so they wouldn't interfere with the delicate sensors up front.
And the inverted tail is also still visible
on its famous descendant.
KAREM: Down-deflected tails are there to protect the prop,
so when it tilts back,
it's hitting the skids and not hitting the propeller.
NARRATOR: An ex-fighter jet engineer,
today Karem designs and builds planes
at his company in California.
In the '70s, when he started working on drones,
he realized that without a pilot in the seat,
a whole new world of design possibilities opened up.
Other unmanned aerial vehicles of the time
were still too closely modeled on manned aircraft.
I said, "I don't like what I see."
op,
I'm not taking the landing gear, I'm not taking the computer."
NARRATOR: Karem believed that efficiency and lightness were the key
to creating an affordable, high endurance UAV,
so first he gave his craft long wings
to prioritize lift over speed.
KAREM: When you want to be efficient,
you want to be like the soaring birds with very long-span wings.
The albatross is the best gliding bird;
it has 20 times more span than the chord.
And my Albatross, the UAV Albatross, was close to that.
NARRATOR: Karem built the Albatross from scratch in his garage.
He modified a go-kart engine
to burn only 1/10th of a gallon of fuel an hour.
And Albatross soon evolved into Amber,
a 15-foot-long, 28-foot-span UAV with 38-hour endurance.
Karem relied on seed money from DARPA--
the Defense Advanced Research Projects Agency.
Its early investments
in artificial intelligence and other technologies
led to countless civilian uses and made modern UAVs possible.
MAN: In the 1970s and 1980s,
with significant DARPA impetus and some DARPA funding,
a variety of new technologies emerged,
including the Global Positioning System, long-range data links,
lightweight computer equipment and composite materials,
as well as satellite communications
and digital flight controls.
The Albatross, the Amber were the harbingers
of the modern era of UAVs.
KAREM: We were a total team of three people.
And we proved a lot of what we wanted to prove.
The Secretary of the Navy and the head of DARPA, they said,
"Okay, you fly 500 hours, how many are you going to crash?"
We ended up not crashing any
in the 500 hours we did for the military.
NARRATOR: Karem's Amber prototype never went into full production,
but after a number of incarnations,
by the mid '90s his design became known as the Predator.
MAN: Do not handle the missile by the strikes,
wings, fins, seeker head, rocket motor, nozzles,
umbilical connector, or housing during loading
to prevent damage to equipment and/or injury to personnel.
KAREM: My UAVs were not meant to be armed.
It was really built for the Cold War,
when we had the big tactical challenge
with so much artillery on their side
and so much artillery on our side.
NARRATOR: With two large armies facing off,
UAVs could be used for espionage, but not attack.
Then, after 9/11, America started targeting individuals.
KAREM: Now we are fighting non-state enemies,
so it starts making sense to arm the UAV,
which is not my intention in the beginning.
NARRATOR: In October 2001,
an armed Predator changed warfare forever.
DEPTULA: I was the commander of the air operations against Afghanistan
where we actually used for the first time
a weapon off the MQ-1 Predator.
The advantages were enormous, an order of magnitude beyond
where remotely piloted vehicles had been
just ten years prior in Desert Storm.
NARRATOR: Since this initial strike, drones have proven so effective
that the Air Force is now training more remote pilots
than manned fighter and bomber pilots combined.
So play on the scenario.
NARRATOR: At Holloman Air Force Base in New Mexico,
Instructor Major Jason teaches this new generation of pilots.
Adam zero three, loud and clear.
NARRATOR: The stakes are high when operational,
so they begin on video simulators.
He invents practice scenarios
programmed using X-box video game controllers.
Adam zero nine from Viking zero one, you are cleared hot.
Stuff that we can't do in the real plane,
I can do anything here.
The world's whatever I want it to be.
STUDENT: Three, two, one, rifle.
JASON: It's a controlled environment
and we really want them to learn here
so that when they do go operational, you know,
they've already made all those mistakes.
STUDENT Uh, pilot, it doesn't look like I ever turned the laser on,
so I don't know where the missile went.
JASON: How did that happen?
If that would have happened in the real world,
that would be a really, really bad day.
NARRATOR: Unlike fighter pilots who train for a minimum of two years,
remote pilots learn to fly their increasingly automated drones
in less than one.
CUMMINGS: The FAA did a study recently that showed that pilots
with real flight experience in manned aircraft
are actually worse UAV pilots
than those that have no flight experience
and really come in off the street.
n n't need
and a set of expectancies that you shouldn't have
when you're flying a UAV
if you came from a manned aircraft.
So the Air Force is taking officers off the street
with no flight training
and putting them through the program,
and they've been very successful.
JASON: They come here, they never went to pilot training like I did.
They're here for a few months
and then they have to go operational,
so it happens real fast.
MAN: Rifle time of flight 15 seconds.
NARRATOR: And when pilots go operational,
despite being half a world away from the action,
it all feels very real.
JASON: Copy, splash.
CHAD: It's not like a video game at all.
There's no reset button, there's no turning it off.
NARRATOR: In real strikes, like this one in Iraq,
technology actually allows drone pilots
to see more than manned pilots ever have.
CHAD: Because we have such a long motor time,
there's potential to have eyes on the target
that we are going to blow up for hours ahead of time.
Then we employ on it-- strike the target.
And then stick around for another few hours
to watch what happens afterwards.
And you have to stay there and then stay plugged in
and stay focused on the destruction
ed
NARRATOR: In 2012 alone, the U.S. carried out hundreds of drone strikes
across four countries.
Afghanistan is the only publicly authorized war,
while strikes in Pakistan, Somalia and Yemen
are covert CIA operations
performed without putting American lives on the line.
SINGER: The technology has enabled us
to set aside some of the risk factors
of sending a pilot in harm's way.
So, it's meant that we've conducted a lot more strikes
that would have been more problematic
if we were using manned systems.
NARRATOR: The U.S. claims
drones have decimated al Qaeda's top leadership
while causing limited civilian casualties,
but the facts are hard to come by.
SHUJA NAWAZ: We know fairly well how many strikes are occurring.
What we don't know
is the details-- who the targets were,
whether they were actually eliminated,
or whether some other people were killed--
because verification is very difficult.
NARRATOR: There are no fully reliable counts of civilian deaths,
but some critics claim that as many as 30% of those killed
in the broader drone wars are civilians
and that the strikes turn people against the U.S.
and violate international law.
After more than ten years of attacks,
the U.S. officially acknowledged its use of drones
to target al Qaeda members in April 2012
when presidential advisor John Brennan gave a speech.
The United States government conducts targeted strikes
against specific al Qaeda terrorists
sometimes using remotely piloted aircraft,
often referred to publicly as drones.
NARRATOR: He was met with a strong reaction.
...hundreds of innocent people we are killing
with our drone strikes in Pakistan and in Yemen
and Somalia.
They deserve an apology from you, Mr. Brennan.
I speak out on behalf of the Constitution,
on behalf of the rule law.
I love the rule of law.
I love my country.
You're making us less safe
by killing so many innocent people around the world.
Shame on you!
BENJAMIN: Thank you.
NAWAZ: It's very critical that the U.S. public understand
what is happening with the use of this technology,
because it is being done in the name of the United States.
NARRATOR: Drone technology enables America to strike virtually anyone,
anywhere, with ease,
regardless of national boundaries.
ontroversy kes
in places like Pakistan, or Yemen, or Somalia,
and a whole new series of questions for international law.
The fact that you are not flying a human being
across a national boundary
still makes it an invasion of a country.
We've entered an era where we're conducting
an array of operations using unmanned systems
that in a previous generation we would have called war
and we would have treated like war.
When you're conducting more than 300 air strikes into a country,
you're conducting the equivalent
of at least an "air war" campaign.
But we don't call it that now.
NARRATOR: Drones can strike with pinpoint precision,
but their visual sensors are limited
in ways that can lead pilots to make mistakes.
CHAD: As they stand now,
the limitations they have with the Predator
is not being able for the pilot to look around
and see what's going on.
NARRATOR: When the operator zooms in to see detail,
it's like looking through a soda straw
and the pilot loses the broader picture.
DEPTULA: These individual little small sensor balls could generally see
only a very small area on the earth,
even if you're up at 20,000 feet.
d see
that maybe there's something else going on
outside and around me.
NARRATOR: So the crew's grasp of the situation can be limited
and when they zoom in,
they sometimes lose sight of key details on the ground.
This secret 2010 transcript obtained by journalists
through the Freedom of Information Act
reveals what can go wrong.
While supporting forces on the ground, a Predator team mistook
a convoy of Afghan civilians, including women and children,
for militants.
The pilot asks, "Is that a... rifle?"
The answer is, "Can't really tell."
After hours of monitoring,
the ground commander calls in a strike...
and 23 civilians die,
in part because of limitations of the sensors.
But engineers are working to create new sensors
that can see more, in greater detail, than ever before.
DEPTULA: Today we've developed sensors
that can watch with an "all-seeing" eye
and see an area about the size of a small city
all at one time.
YIANNIS ANTONIADES: This is the next generation of surveillance.
For the first time,
we actually have permission from the government
to show the basic capabilities.
It is important for the public to know
that some of these capabilities exist.
NARRATOR: Engineer Yiannis Antoniades designed the new sensor,
known as ARGUS.
With 1.8 billion pixels,
it's the world's highest resolution camera.
ARGUS fits inside this pod that attaches to the belly of a UAV.
But because much of the work is classified,
we can't see the sensor itself.
ANTONIADES: Because we are not allowed to expose
some of the pieces that make up the sensors,
so you get to look at pretty plastic curtains.
NARRATOR: Also known as "wide area persistent stare,"
ARGUS is the equivalent of having up to 100 Predators
look at an area the size of a medium-sized city at once.
This image was taken 17,500 feet above Quantico, Virginia,
and covers 15 square miles.
This whole image is at a very, very fine resolution,
so if we wanted to know what is going on in any spot
along this image, say near this building, at this intersection,
we can generate a moving image that shows
what's going on in the area.
NARRATOR: Simply by touching the screen,
Antoniades has opened up a window showing a detailed area,
while still maintaining the broader context.
ANTONIADES: And everything that is a moving object
is being automatically tracked.
The colored boxes represent
that the computer has recognized the moving objects.
You can see individuals crossing the street,
you can see individuals walking in parking lots.
There's actually enough resolution to be able to see
the people waving their arms, or walking around,
what kind of clothes they wear.
And you could pick the location of where you produce
these images anywhere in the entire field of view.
NARRATOR: Antoniades can open up to 65 windows at once
and can see objects as small as six inches on the ground.
ANTONIADES: From even 17,500 feet,
the white thing that you see flying around is a bird.
NARRATOR: ARGUS streams live to the ground and also stores everything--
a million terabytes of video a day, which is the equivalent
of 5,000 hours of high-definition footage.
ANTONIADES: So you can go back and say,
"I would like to see what happened
"at this particular location
three days, two hours, four minutes ago,"
and it would actually show you exactly what happened
as if you were watching it live.
NARRATOR: To create the world's highest definition camera,
Antoniades needed to design a new imaging chip,
but DARPA, the project's funder, wanted to move fast
and keep costs down, so he borrowed technology
that most people have in their pockets.
ANTONIADES: Inside this cell phone we find a tiny little camera.
So if you were to take off the majority of it,
you'd be left with an imaging chip.
If you were to take 368 of these
and make a big mosaic out of them and start shooting images,
now you have Argus.
NARRATOR: Unlike the Predator camera that limits field of view,
ARGUS melds together video from each of its 368 chips
to create a 1.8 billion pixel video stream.
This makes it possible to zoom in
and still see tremendous detail.
Whether ARGUS has been deployed in the field is classified.
ANTONIADES: I'm not at liberty to discuss plans with the government.
But if we had our choice,
we would like ARGUS to be over the same area
24 hours a day, seven days a week.
That's not very easily achievable
with manned platforms.
This is where UAVs come in,
and they're absolutely the perfect platform.
NARRATOR: Argus may be mounted on an armed UAV like the Predator,
a long-range platform like the giant Global Hawk,
or a development craft called the Solar Eagle
that may someday stay aloft for years at a time.
CUMMINGS: The U.S. Air Force right now has the ability to archive
every single video that comes off of every single UAV.
We're moving to an increasingly electronic society
where our movements are going to be tracked.
NARRATOR: While technologies like ARGUS
are expanding the reconnaissance power of UAVs,
unmanned aircraft remain vulnerable in other ways.
The Air Force's large drones still crash
more often than manned planes.
The $100 million Global Hawk
is nearly three times more likely to crash
than the U-2 it was designed to replace.
Even if there's no pilot to lose, when a drone goes down,
it can still be a problem.
DEPTULA: It doesn't take a thermonuclear brain surgeon to figure out
that if you are operating
a highly advanced, technologically capable system
that you'd prefer not for it to fall into adversary hands.
NARRATOR: In 2011, an American spy drone, the RQ-170 Sentinel,
was lost over Iran.
There was a problem with the aircraft, and it landed
in an area it shouldn't have landed in,
and that's about all I'm going to say.
NARRATOR: The Iranians claimed they hacked into the drone's control system
and took over the craft.
And in theory it is possible
to take over any computerized system.
SINGER: You could never call up Maverick, in his F-14,
in the movie Top Gun, and say, "Maverick..."
Talk to me, Goose.
SINGER: "Recode all American jets as Russian jets."
Tom Cruise would have laughed his weird cackle and said,
"No way, man."
With a computer, you can do that--
either jam it, or even more so, co-opt its operations.
And it's a whole new era in war.
It opens up a lot of new possibilities
and, of course, huge new dangers to think about.
NARRATOR: Why the Sentinel went down remains classified.
But experts point out that drones often crash
for very basic reasons.
UAVs sometimes aren't that smart,
their self-diagnosis isn't all that smart,
and by the time they have a problem, it's too late.
You lose a link, lose power, and you're gone.
NARRATOR: Control can be lost for a number of reasons.
When Reaper pilot Chad simply banks too sharply,
he loses the satellite link.
CHAD: Uh-oh.
NARRATOR: The picture freezes,
and he's momentarily flying blind.
CHAD: That was me turning.
(system beeps)
NARRATOR: He quickly levels the craft and restores the link.
CHAD: I was turning aggressively
and it had trouble keeping up the satellite link.
DEPTULA: There is a degree of vulnerability involved
with remotely piloted aircraft that have a command link--
where they're actually operated by operators--
that you can overcome by having a human in the cockpit.
PILOT: Dark Star, Dark Star...
McDONOUGH: If for some reason
I all of a sudden hear an increase in airspeed,
I start to feel a roll,
and I'm not intending for that to happen,
well, something is going wrong
and I need to make sure
that I am doing what I need to be doing.
NARRATOR: Unlike manned planes, drones depend on control links
that can be lost, or potentially,
w
even taken over by the enemy.
But what if a craft could operate on its own,
free of any links, and even make its own decisions?
In a lab at the University of Pennsylvania,
Vijay Kumar is funded in part by the military
to create autonomous drones that don't need external links
and, like us, can sense their environment.
What you see on this robot are these two chips here,
which are essentially rate gyroscopes.
These play the same role
as the semicircular canals in the human body
located near the ears, which essentially tell us orientation.
So the rate gyroscopes that are on board can actually measure
these angular velocities at thousands of times a second.
This chip here is the accelerometer
and this allows the robot to sense accelerations
in the lateral direction
so these are analogs to the otolith organs
that measure acceleration in the human head.
NARRATOR: When a human pilot feels
change
he knows to adjust the aircraft.
KUMAR: The robots do exactly the same thing.
NARRATOR: The sensors adjust the craft by changing the relative velocities
of the rotors and allow the drones to follow a leader
with precision.
KUMAR: A fundamental problem in coordinating multiple robots
is the ability to maintain formations.
What a robot has to do
is determine where its neighbors are and figure out
what the relative position is
and then monitor the relative separation very carefully.
You only need to tell one robot how to move
and the other robots essentially maintain formation
by just keeping a specified relative distance.
In the Figure 8, they come within inches of each other
so they have to combat aerodynamic effects
from their neighbors
and they have to have very, very precise control.
And all that is done autonomously.
NARRATOR: The precision of the robots allows them to do some things
more quickly and accurately than human pilots can,
like predict the movement and the shape of an object
and adjust accordingly.
KUMAR: In terms of acrobatics,
I think it'll be hard to beat what a robot can do.
The neuromuscular system in the human body,
there may be delays of the order of 80 milliseconds
or 200 milliseconds before you actually take an action
in response to what you see.
Well, robots have this unfair advantage.
They can do these computations hundreds of times a second.
So your delays are of the order of a millisecond,
and perhaps even less.
NARRATOR: In the lab, the drones communicate
with a central computer that uses motion capture--
an optical system
that tracks silver reflective markers on the robots
and tells them where they are at all times.
But soon it may be possible to cut the cord.
And they've already developed another autonomous drone
that can go anywhere on its own.
The holy grail is to do all of this
without any kind of external sensing, without GPS,
and in principle, we can do it.
These bigger robots actually rely on observations
of external features to tell them where they are
in the environment.
NARRATOR: This drone carries a laser range finder
that determines distance to obstacles
and a depth camera that reveals 3-D information
about the surroundings.
KUMAR: They carry on board the processing power, the sensors
that are necessary to look at the environment,
to reason about the environment.
So they can take their relative location
and the location of the features
to build a three-dimensional map.
I'd like to see this technology
being used for humanitarian purposes.
Imagine there is a 911 call from the building.
I think we will soon have the technology
that enables, let's say, 20 UAVs
to just swoop through the building and within a minute
find out who is in each room
and then communicate that to firefighters
who are waiting outside.
But any technology that you develop, there are always people
who are going to use it in ways
that the designer never intended them to be used.
NARRATOR: And the key components of drone technology are already available
to virtually anyone.
MAN: Go over there.
MAN: I got into the hobby about four years ago.
It started out as a toy for my dogs to chase.
I'm pretty obsessed with the hobby.
I am currently single, have been for 30 years.
No kids, I just live here with my three dogs
and I get to spend nearly every night and every weekend
working on these things.
NARRATOR: Corey Brixen of Orange County, California,
is one of tens of thousands of drone hobbyists
across the country.
BRIXEN: The basic quadcopter
is about $500, which is the frame,
the motors, the speed controllers,
the electronics that you need.
This is actually the GPS sensor
and that's sending the signals out to the satellites.
The cameras, as small as they are,
TEST.
but drones small and large
TEST.
TEST.
TEST.
TEST.
and thousands of individuals use them for their own,
sometimes political, ends.
We don't consider ourselves to be animal rights activists.
We're investigators.
Some of our targets are pigeon shooters in Pennsylvania.
So we had the copter up filming what's going on.
There were a couple of shots, and it's slowly losing altitude,
and then it takes one more shot and it's down in the trees.
You can hear the shooters start cheering and laughing
and all that kind of thing.
What they didn't know is that we had more.
(laughs)
NARRATOR: This incident is the first known shoot-down
of a domestic drone.
But it may not be the last.
The spread of drones has raised concerns about privacy
and even led one senator to propose legislation
limiting domestic use.
RAND PAUL: I think anybody that can use a device
to peer into your activities,
even if it's from the air outside your window
or the air above your property,
I think there is a right to privacy.
And I'm all for making sure that, you know, all these drones
don't come back from Afghanistan and Iraq
and get put to a purpose here
that isn't consistent with our Constitutional bearings.
The worry is that in two to three years,
we'll have 30,000 drones crisscrossing the sky,
accumulating all this information.
It's a game changer, but it's not just an American revolution.
There are more than 55 other countries right now
that are building, buying or using military robotics,
particularly in the air.
NARRATOR: Iran recently announced it has its own armed drone,
with a range of over a thousand miles.
It's not known whether any of the technology was adopted
from the lost U.S. Sentinel.
But in the drones arms race,
the U.S. is constantly developing new technologies,
like a small flying camera with a twist called Switchblade.
The Switchblade will launch out of this tube
and the wings, the tail, the propeller will all spring open;
that's why it's called Switchblade.
And so when the operator finds the target
by looking into the viewing screen,
command
that will enable the Switchblade
to basically hone in on that target
and detonate its explosive charge upon contact.
It's a tool that our customers are very excited about
and it's a tool we think will protect our forces
and help save innocent lives.
NARRATOR: Switchblade's already been deployed.
And a killer drone that may someday replace a manned fighter
is on the horizon.
It's really about a decade ago,
some folks got together and they said,
"What if we want to put
"unmanned aircraft on an aircraft carrier?
How do we do that?"
NARRATOR: This X-47B prototype
is the world's first tailless fighter-sized drone.
But it's still a year or two away from its first goal:
to take off and land on an aircraft carrier.
MATT FUNK: We're maturing the technology required
to take this unmanned vehicle
to land on the flight deck autonomously.
We're focusing on the mechanics of landing the aircraft
where you have a predetermined position
that you're targeting to
and the aircraft can react very quickly
to changes in that environment
to put itself on that preplanned position.
The system has a lot of sensors, a lot of instrumentation on it,
so it knows how all of its subsystems are behaving,
it knows how its engine and all of its control surfaces
are performing at any time.
It'll turn where we expect it to turn,
it'll come back when we expect it to come back,
and it'll land on the runway that we planned.
NARRATOR: Drones are no longer just eyes in the sky,
and someday UAVs like the X-47B may be involved
in sophisticated attacks alongside manned jets.
It's the idea of the mix, the team working together.
That's probably the future.
We won't see every plane on the aircraft carrier
be one of these.
So right now, the vision is, oh, we'll just have one or two,
but when they get them and maybe they prove more useful,
then it may be: "Well, we don't want one or two,
we want a squadron."
It's a lot like if you look
at the first use of mechanized forces.
Originally, it was lots of horses
and just couple of trucks and tanks,
and you saw things change and change and change over time.
We'll probably see the same thing happen with robotics.
NARRATOR: As drones like the X-47B mature, they'll become more autonomous,
likely conducting bombing runs,
then more complicated air-to-air operations.
Even as policymakers debate the rules of engagement for drones,
technology is moving forward,
toward a time when drones might operate
with intelligence that more closely resembles our own.
But for now, they can't do what a pilot can.
FUNK: When you get an aircraft like this over hostile territory,
you'll have potential targets or threats
that will pop up unplanned.
So what we haven't done yet is develop the technology
that would then react to those unplanned targets or threats.
Thank you very much for coming to Pax River today.
EREMENKO: I think UAVs of the future will certainly be able to exhibit
increased levels of autonomy.
But I think
if you were to ask most autonomy researchers,
or most AI researchers,
about whether the Rise of the Machines type scenario
is a real concern, their response would be,
"We should be so lucky."
In fact, if we could get little slivers
of that kind of adaptive and cognitive capability
into systems, that would be a very significant breakthrough
over where we stand today.
McDONOUGH: I've flown about 2,000 hours
and the missions that I've flown seldom go as planned.
There's a lot of pieces that you cannot plan for.
KAREM: Nothing can replace the human being
in a tactical environment
saying what to do next and why not this and why not that.
KAREM: An Airbus 320 with 150 passengers
goes into a flock of Canadian geese
and needing to land...
KAREM: "I can't do it-- I'm going on the Hudson."
You want to be in a robotic 320 in that situation,
or do you want Sullenberger to land you?
Because you can't anticipate everything.
NARRATOR: This ability to respond to the unknown may be the final hurdle
if drones are ever to fully replace manned planes
and start making decisions on their own.
KAREM: I think we're far,
but let me say I am the last guy who says impossible.
NARRATOR: As human ambition drives innovation forward,
the only thing that's certain
is that the Predator and other drones of today
are nothing compared with what's to come.
Ultimately DARPA's mission is
the creation and prevention of strategic surprise,
so if we are successful, we will all be surprised.
CHAD: Historically you look at when the Wright brothers first flew
in 1903.
A hundred years later, we are actively flying
remotely piloted aircraft.
So we're kind of on the ground floor now.
There's nowhere to go but up.
They called him "Lucky Lindy."
Then the ultimate tragedy struck.
MAN: These are hardcore guys,
daring enough to kidnap the Lindbergh baby
and risk the death penalty.
But was justice served?
Two people, three people...
For sure, it is not one person.
And what can modern forensics reveal?
MAN: A computer can do a lot more than a document examiner can do.
"Who Killed Lindbergh's Baby?"
Next time on NOVA.
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