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Push a Button, Land on a Carrier
sane? writes "Putting an aircraft down on a carrier in bad weather is the stuff of melodramatic Hollywood films. Automated systems for conventional aircraft and big carriers has been done for a while, but getting a hovering Harrier, helicopter, or future JSF to land on a pitching deck of a smaller ship is a different matter. This week QinetiQ demonstrated a complete autoland - a significant step towards making the future JSF work."
10 cm errors are still significant enough to cause an aircraft to be damaged landing, or to cause damage landing. It sounds like the news article is actually a press release/prospectus in disguise.
Nyekulturniy... Proudly confusing readers and editors since 1981!
yeah, yeah but it's close enough
"God Bless the idiot proof air force" -- Side show Bob
Not trying to troll, but how is this "News for Nerds."?
Foxed Design
The correct headline sould be: Push a button and land on a carrier as long as there is no software "glitch" or any single thing unforseen by the programmers, because unlike a real pilot, the computer will not quickly learn new skills to survive. Or are they going to make the system perfect, just like ABS, or ATMs, or PC software? Good luck.
Karma: Positive (probably because of superiour intellect)
Well, this, combined with that fake windows patch, would result, in well, a very, very fatal day for airplanes
Your skill in reading has increased by one point!
From TFA
The simplicity of the new system was aptly demonstrated when a pilot with no previous fast jet experience, safely landed a STOVL aircraft unaided - a feat unimaginable before.
That's pretty amazing! Wonder if similar technology will one day pave the way for the 'flying car'. Automatically controlling landing and takeoff for a domestic 'flying car' will go a long way in making it practically feasible...
So help me, when I saw the reference in the write-up about landing a JSF, I first thought "Jedi Starfighter." I must need help...
Call me stupid, but I thought that in naval terms, having land on a carrier would be a bad thing. "Wouldn't Push a Button, Dock a Carrier" be better?
The weather looked quite ideal for a flawless landing. Since the whole idea is for a craft to land in adverse weather conditions, I don't see how this means much of anything. And how about when the automated landing system gets destroyed by say a midair collision, ground fire, etc. They are quite far away from a system that could be deployed in everyday carrier operation, let alone a combat situation.
Pilots probably wont use this. Pilots dont use the autoland available to them now for STOLs, so why would they for VTOLs (Vertical Take-off and Landing)? Some pride thing.
/reads Tom Clancy books too much //got above info from a non-fiction one, back off
It is pretty neat though.
-Eric Smith
"Today," you takee kamikaze airprane far up into sky, over Yankee aircraft carrier, then takee kamikaze prane...down fast! crashing on the deck, killing yourself and all aboard!
Before we have a ceremonial sake toast, are there any questions?"
"Honorable general-san!"
"Hai?"
"Are you out of your fucking mind?"
You're using her as bait, Master!
until those 'smart' aircraft start taking over. Be afraid!
land on a pitching deck of a smaller ship is a different matter.
....
Or do it the Canadian Way. Hover just above the ship and slap a haul-down winch onto the aircraft, and pull it onto the ship
While the article does tell of 'all weather' capabilities, the cruel sea is often outside the bounds of normally accepted 'weather'.
Its worth remembering that the decks of RN carriers are extremely confined spaces, I would hope that if the system can't cater itself for the 1 in a Million chance wave that pitches the carriers superstructure towards the landing aircraft (causing damage to both) that it will still allow the pilot to assume control and direct his broken aircraft to the best of his ability over the side before pulling the handle and praying to Martin Baker for safe delivery.
A burning aircraft on the deck / superstructure is generally thought to be a Bad Thing(tm).
Indeed, in 1982 during the Falklands campaign when the Harrier had just entered service, it was operated in some very nasty weather conditions from the RN Thru Deck Cruisers (Carriers) by nothing more than human RN Pilots and the seat of their pants.
Ripping an new rectum in the fabric of spacetime.
In the underrated, underappreciated film Bridges at Toko-Ri: "Where do we get such men? They leave this ship and they do their job; then they must find this speck, lost somewhere on the sea, and when they have found it they have to land on its pitching deck. Where do we get such men?"
You can already see the military placing a side bet in unmanned drones. What would you rather have? 100 drones or one F22? The dogfight is no longer a central aspect of warfare, ground-to-air missile technology is adequately cheap and effective enough to remove any threat from the air...and by cheap I mean you can fire ten missiles at a target (rest assured one will hit it) for the cost of one manned sortie.
One-click carrier landings are currently covered under a Jeff Bezos patent.
Since the 60s we've been winching down our SeaKings, that is, when they're weren't falling out of the sky on their own...
r ap/
http://www.readyayeready.com/timeline/1960s/beart
Hmm. Now that I think about it, I may be wrong. An aircraft's altitude is controlled significantly by its forward speed. (Go faster, you go higher; go slower, you go lower.) Perhaps it is mainly a one-dimensional problem. Still, I don't see how landing a jet is markedly easier than landing a helicopter.
I guess I can summarize this post by saying, "I'm ignorant. Someone with more than a handful of hours of flight time, please enlighten me." (Yes, I have flown single-engine Cessnas, but only the aforementioned handful of hours. Takeoff but not landing, and certainly not on an aircraft carrier. My "knowledge" there is mainly from my father, who was a Navy fighter pilot in the late 1940s, so that "knowledge" doesn't even extend to jets.)
I'm sure I'm not the only one who got a wife who can't navigate the car into a driveway. Having an automatic parking for women would save the grass and garage from further damage.
-1, Flamebait, but I guess you're not married.
No way that a human pilot trapping could consistently hit within 10 cm of the optimal landing spot. They're given a margin for a reason. It's not like the seperation between the meat-ball (fresnel lends system that helps pilot judge glideslope) and the tower of the island is equal to 1cm + wingspan of F14.
10 cm is phenomenal.
The technology could also be used on helicopters, frigates and destroyers.
When are we going to see frigates and destroyes landing on carriers?-)
I've worked with the triumvirate of engineers, officers, and soldiers/airmen/sailors during trials of new military technology and I can say it'd be pretty good odds that this automatic ship landing on the STOVL aircraft wasn't tested under extreme conditions such as enemy and weather. I wonder if it was tested on high seas, massive winds or snow?
I know /. likes to think about the "oooh wow gosh!" factor of shiny technology but a lot of the time new military technology gets tested under the easiest of conditions by risk fearing engineers. It then gets pumped up by career minded military officers (who resemble business marketers) and then left for the end users in combat to deal with the bullshit. Try repost the article when this new automatic button has been tested under extreme conditions, seen numerous deployments and used by actual end users not in a sterile environment.
As swashbuckling as fighter jocks can be (I've known a few) if an automated landing system proved near perfect there would be quite a few who would be happy to sign up for it.
Even the most self assured pilots hate landing (read: controlled crash-landing) on carriers at night in adverse conditions. Scares the crap out of them.
But there would be some resistance. As there are people who are better coders than others there are pilots who are better at landing on an aircraft carrier than others. As a matter of fact naval pilots on a carrier are constantly graded and ranked according to their landing performance. And I can't see the good ones wanting to give up control over the aircraft or wanting to give up their status as a top naval pilot.
US Navy Spruance[1], Ticonderoga, and Perry class ships have a Recovery Assist, Securing, and Traversal system that reels in an SH60B, locks it in place on the deck, and then can pull it into the hangar, once the origami is done.
Sometimes, a good ol' fashioned electro-hydraulic system is OK.
[1]Didn't fact-check to discover if any remain in commission.
Get thee glass eyes, and, like a scurvy politician, seem to see things thou dost not.--King Lear
I would love to stress this system when they are done. I can just about guarantee they will not properly test this system (come on, it's English) and the computer will go haywire under the right circumstances (a la Harrier mishaps and that awful turbo prop VTOL plane).
For example, they should start the landing sequence then hit the side of the aircraft with a large object and see how the computer handles a sudden jolt in one direction. Or how about simulating air turbulence where the aircraft suddenly rises or drop 10 or 20 feet.
You would think that kind of testing is common sense and in fact they often test the hardware under these circumstances but the software is rarely tested properly.
Hopefully they will test that sort of stuff, but I know engineers all to well. Hopefully they have actual computer programmers working on this and not just the typical engineer wannabe programmers. Unfortunately that is usually the way it works though. Hardware engineers have no business writing software.
HAY NIGGA i challenge yo ass to a FIGHT if u dare
~NO CRACK NO SMACK NO ANGEL DUST~ PEACE OUT TO MAH HOMIEZ IN DA OG WORD ON DA STREET SEZ I AM DA KING OF THREADZ -
A major aid to this advance was the recent development of industrial-strength flypaper...
Seeing bad movies only encourages them. Watch responsibly
Navigating with a map and compass can involve compelx trigonometry. Using a GPS is childsplay in comparison.
..."simplest methods'...
They are NOT the
Glad you mentioned it the Canadian electromechanical invention, four decades old now, that is nicknamed the "Bear Trap" and has been working just fine all that time:
r ap/
http://www.readyayeready.com/timeline/1960s/beart
So the question becomes: Why reinvent what works great already?
What is old is new...
I deny that I have not avoided attaining the opposite of that which I do not want.
What so exciting about this? If I push my girlfriend's wrong button, I land on an aircraft carrier, too!
Be relentless!
Don't use big words if you don't know what they mean.
--
Mod up a post Rob doesn't like and you'll never mod again
When do we get "Push button, install democracy"?
Despite all the skepticism being bandied about military technology on this site, automated carrier landings are not new. The first fully automated landing on an aircraft carrier took place on Aug. 12, 1957, when an F3D Skyknight was landed on USS Antietam (CVA 36) at sea off Pensacola, Fla., by the Automatic Carrier Landing System (ACLS). That's right, over 40 years ago. That system is still in wide use today, and is only now slowly being replaced by the JPALS (Joint Precision Approach and Landing System) system which uses GPS instead of the radar used by ACLS.
The QinetiQ system described in the article (which is itself a component of JPALS) is remarkable in that it automates vertical landings. I'm kind of uncertain as to why that had never been done before, though I think it has more to do with the much lower level of interest, and therefore funding, than because of any technical challenge.
If only so much money and effort could be directed at improving peoples lives in the third world. What a skewed perspective we have.
Even better (for you Matlab geeks out there), is that the VAAC harrier flight law can be programmed using Simulink.
You can play around with Simulink blocks in the morning, hit Ctrl+B to compile it, load it onto the harrier and fly it in the afternoon. Fast protoyping takes on a whole new dimension...(the vertical?)
BTW, they're allowed to do this because the second pilot has a 'kill-switch' thingy and can take over with the normal controls at any time. Not that that would do him any good if it all goes tits up anywhere under 500ft AGL.
Did anyone else notice that the QinetiQ logo 'painted' on the body of the fighter appears to be just a poor photoshop job? Looks like their logo wasn't on the aircraft (or at least visible in this shot) so they decided to slap one on after the fact.
High-res photo and a zoomed close-up
Kevin Fox
"Bush button, install democracy"? Isn't it already working?
;-)
Oh! Never mind...
Navigating with a map and compass can involve compelx trigonometry.
I'm going to hazard a guess that you have never done air or land navigation with a map and compass? Pilots have had circular slide-rule type calculators for navigation for quite a long time, no understanding of trig required. Land navigation doesn't require a knowledge of trig either. Hell, Boy Scout land navigation exercise aren't that different from military ones.
The basic problem is that a Harrier has more major flight controls than the pilot has hands. There's a nozzle angle control and a throttle control, along with the usual stick and rudder pedals. VTOL operation requires coordinated operation of the nozzle and throttle controls. Both have significant lag. That's a tough control problem, worse than a helicopter.
Everything has been tried. Better pilot training. New flying approaches. Simulator training. A redesign (the Harrier II). Stability augmentation systems. Avoiding VTOL whenever possible. Harriers still crash a lot. (The Harrier has a good ejection system, so the pilots usually survive.)
One of the stability augmentation systems was the VAAC Harrier Study. This was an experimental effort to use computer control to get the three inputs that affect longitudinal stability (stick, throttle, and nozzle angle) down to two. This was supposedly successful but was not deployed.
This new thing seems to be a further step in that direction.
One of the things my roomie, Vikki, loves is flying her Flight Simulator helo, especially on and off small ships under way. If all it takes is a "Land this puppy *here*" system, there goes all the fun for her, and for me too because I enjoy watching her have fun, knowing that I researched and bought the hardware she's using.
Where's the sport in that? Tho, in real life, it'll likely be safer.
Oh well. That's progress.
Lemon curry?
When I was on a carrier (supply clerk, ha!) in the 1970s, there was a TV camera in the yellow line of the landing strip down the angle. It seemed like half the time, the two nose wheels of an F-4 would go down opposite sides of that TV camera as I watched in my spare time on the ship's TV system. This is landing at probably well over 150 knots in a cross wind on a platform which is rolling, pitching, and changing elevation. One night every single pilot, I think 98 traps, hit the right wire.
I'd say they can get within 10cm no sweat. Navy pilots are damned good.
Infuriate left and right
Thanks for the info, and the link. I am currently homeward bound from a 6 month deployment aboard USS Bunker Hill CG-52, as a member of the helicopter detachment.
We fly and maintain 2 SH-60B Seahawks and both are secured to deck using the RAST system. Up until now, I had never given any thought as to who had invented it, or when. It works amazingly well and there are many pics available that show just how useful it is when the ship is pitching and rolling around like a cork.
CARRIERS==INSTANT WIN
Carrier planes land at, I think, 20+fps sink rate. I saw a video of an acceptance test for the F-18. They lifted it in the air sufficient to produce that sink rate, cocked it at an agle, and dropped it, untethered. It bounced quite a bit but settled down without ever hitting wing tips, tail, or nose.
Ground landing sink rates are around 2 fps, I think (lots of old memories coming up here). That's one tenth the carrier sink rate.
Also, just FYI, carrier planes run the engine up to full speed (which probably includes afterburner as necessary, but this was 30 years ago, and memory doesn't include those details) just before landing, and do not shut the engines down to idle until they are stopped cold, in order to bolter immediately without waiting for the engines to spool back up. They are tough planes.
Infuriate left and right
(...) However, I took the comment about smaller ships to imply frigates, destroyers, crusiers, and the like.
;-)
Here in Europe I heard landing is harder because our ships are smaller, which means whatever the active stabilization you have, they move much more in bad weather...
Maybe that's why it's a brit company (Qinetiq) that did it first: out of necessity
Herve S.
You missed step three....PROFIT!! :-)
OK, I'll give you some lumps of silicon, metal and plastic and you give me a GPS reading.
I meant simplest in terms of technology.
Last time I checked, this feature worked just fine in the game carrier command.
Nothing new to see here, move along.
--- Eat my sig.
We had to land backwards, in the dark, uphill, and we didn't even have RAST, but a guy holding a stick with hook on the end, and he had a gimp leg and only one good eye! aaarrrg.
The USN has has an Automatic Carrier Landing System for years now, and I've seen references to a GPS-enabled Joint Precision Approach Landing System to replace it -- they've tested it by having an F/A-18 land aboard USS Theodore Roosevelt with it. Apparently the novelty here is that the British are developing a system of their own.
"How many light bulbs does it take to change a person?" --BMcC-->
Sierra Nevada Corporation designed and built the system that performed the first automatic landings of VTOL and fixed wing UAV's on small ships in the mid 1990's. The VTOL UAV was the Bombardier CL-327 and the fixed wing UAV was the IAI Pioneer. See the videos. I know because I was part of the team. The level of difficulty is exactly the same as landing a manned aircraft (maybe more because there is no pilot to take over in the event of problems). We built the 35ghz tracking radar system and designed and implemented all the autoland algorithms including the special purpose autopilot code (it has to be much higher gain than a normal autopilot) and the ship motion stabilization.
A variant of this system is autolanding UAV's all over Iraq as we speak.
Except you didn't even have to press any buttons. The thing flew and landed all by itself.
http://en.wikipedia.org/wiki/Buran
The Canadian Navy has pioneered a system similar to RAST for their operations in the North Atlantic. They still fly ancient sea king helicopters on tiny frigates that pitch all over the place, but they can land in higher seas than anyone else. They lower a steel cable to the deck, where is is secured to a winch. The helicopter hovers over the landing spot, trying to get into position. A ship-based crew judges when the timing is perfect and activates the winch. It slams the helo on to the deck pretty much instantaneously. The landing is hard, but it works. The only problem they have with it is that our oldest sea kings still have vacuum tube avionics, and when they perform this manouvre the shock of landing breaks every single tube on the bird.
So much for the "lots of complicated maths..." that would "remain a trade secret..."
If this can be done in Matlab or a spreadsheet, then....
Just a matter of time before one of the simulators/games does just this.
Previously: "Linux... Toward the Sunrise..." Now: "Linux... Toward the-- No, now, part of Every Sunrise"
This is certainly true. There's something about sitting in a bajillion dollar, supersonic aircraft that just gets me all horny. Seriously, though.. The Air Force may be the slowest to abopt UCAVs. The generals in charge of these types of acquisitions almost certainly have fighter experience and don't wanna see that heritage go by the wayside whereas the Army would love UCAVs.
What is your penile percentile?
to commercial aircraft. Commercial craft has been auto landing for 30 years.
Oh well, what the hell...
Maybe I'm wrong, I thought one of the major issues with the Harrier 1/2/and the still beta 3 was the choice to use the jet thrust to get the thing "up" instead of something more like a large fan ala a helicoptor or warthog?
wow, if an aircraft carrier is needed to make Java Server Faces work, they should just ditch the damn thing.
Go hug some trees.
Well, you still don't know which Simulink blocks they are using and how they are arranged. You only know the tool they're using. That remains secret.
...er.... I meant that what they've done with the tool remains secret.
Dammnit, must learn to use preview button.
I've been staying up nights worrying about how this was going to happen. I can rest easy now.
If they are:
r s/dun/
i p+naval&hl=en&lr=&ie=UTF-8&start=10&sa=N
i p+naval&ie=UTF-8&oe=UTF-8
towed into a drydock
secured in a drydock
Not to be persnickety or overly didactic, but I realize that a ship's hull is moored far more often than it is docked, but I served aboard two ships which were drydocked for several months at a time.
But... see:
http://www.shipanalytics.com/MS/SHS.asp
---
http://www.naval-technology.com/contractors/fende
See the (curly quotes) "LASER DOCKING SYSTEMS" section by scrolling down about 2/3rds of the page down...
For reference, here is the Google search I issued:
http://www.google.com/search?q=docking+mooring+sh
http://www.google.com/search?q=docking+mooring+sh
Previously: "Linux... Toward the Sunrise..." Now: "Linux... Toward the-- No, now, part of Every Sunrise"
A good friend of mine was a B-52 navigator for Bud Holland for many flights and refused to fly with him anymore after the flight immediately prior to the crash flight. He was one of the many officers who filed formal written complaints against Holland. My buddy has some really good photos taken from from the ship while Holland was flying like a nutcase. A BUFF looks mighty wicked when flying at wide open throttles, smoke belching from all 8 engines while cruising about 50 foot AGL across the terrain pretending to be a B-1B Lancer.
Sorry but somebody has to repeat this old one here...
Three of the most satisfying things in life are:
1) taking a good dump
2) having an explosive orgasm.
3) making a successful carrier landing
On a night-time carrier landing, you might get to experience all three simultaneously.
Hate to break up the party here, but the parent post is rather misinformed.
I AM an aerospace engineer and have worked on NUMEROUS carrier-based naval jet aircraft. I have been aboard aircraft carriers watching landings and evaluting the data from those landings. I have significant experience with flight stability - in fact I have fifteen years of test and evaluation experience in the field.
With that said...
Stability is two-pronged. Yes, as the parent poster said, letting go of the stick and having things return to stable conditions is stability, but it's only one level of stability. Rather, the newest fighters (especially the F-117 stealth fighter and B-2 stealth bomber) are highly UNSTABLE airplanes. Without the computers, they simply would not fly straight - or at all. The amount of divergence depends on the design - if all the computers in the F-117 shut down, the plane would break apart in moments. It simply cannot fly without the computers constantly making tiny adjustments to correct the flight path. There may be narrow ranges of stability - but stray too far from straight-and-level flight, and things go bad very very quickly.
This is a LOT different from "let go of the stick and it starts to roll". In this case, the pilot could not maintain stability at all - it's simply too unstable to handle without computers.
In fact, instability contributes to maneuverability - if a plane is too stable, it's hard to quickly turn or pitch. But start with an unstable airplane, and you can imagine that if the computer relaxes its control slightly, it can generate very fast maneuvers.
As a matter of fact, the computers in these new planes mean that the pilot is not actually flying the plane. He is telling the plane what he'd like it to do - but the plane's computers are telling the control surfaces how to move (often several at once) to do what the pilot asked.
So "stability" is a very complex issue - and depending on WHICH planes we're talking about, it's VERY true that some planes are not flyable without computers.
--Brandon / Split Infinity Music
There is a little mirror in the CPG (front seat) section, its purpose is to allow the guy in the front seat to see the guy in the back seat.
I would imagine that most of the aircraft cockpit mirrors have similar functions.
I used to have a cool sig, back when I cared
Anyone notice that the QinetiQ text on the nose of the harrier looks (poorly) photoshopped on?
No, in your day you didn't do shit for your country...ever but have no problem disrespecting (by making such naive slights) such service. No doubt we shouldn't be surprised you're an Anonymous Coward. I'm sure you're probably used to leading your life that way.
Most people never take the trouble to figure out where the ends of their cars actually are. Go for a careful drive in some tall grass one day. With practice, it's not so hard.
I've avoided at least three catastrophic accidents through knowing exactly where the sides of my car (or tyres) were and routinely (daily) miss other cars by less than 5cm when parking and less than 10cm at speed. I place my tyres to within 2cm to avoid speed bumps, and routinely place my car in a gap less than 5cm wider than it in a single try when I park here at home. Admittedly, the road is not pitching and rolling at the time. Our local (Perth, WestOz) bus drivers pilot 8'6"-wide bendy-buses along 9'-wide lanes (not sure why lane and vehicle widths are imperial since practically everything else is metric). And so on. We're capable of a lot of stuff you might not think we are.
OTOH, I routinely meet drivers who have no clue, wouldn't know where the ends of their cars are to within 5m, let alone 5cm. Their response to wet weather is to travel at shopping trolley speeds (and crash anyway), and to unsealed roads is to either sink themselves to the axles (sand) or spin out and crash (gravel). When they start to lose traction on a corner, they brake! D'oh?
I'd love to see licensing rules here changed so that people were re-tested and had to re-qualify every 5 years. I'd also like to see the after-5-years and 10-years-and-on tests be considerably harder to pass than the first one, specifically to require the driver to demonstrate that after 5 (or 10) years on the road they had a clue about dimensions and basic physics and could recover lost traction. The only thing you could do which would have a bigger impact on road deaths would be to shoot drunk drivers on the second offence.
Got time? Spend some of it coding or testing
One of the fundamental reasons for wanting an autoland for VSTOL aircraft on a carrier is time.
The harrier can only hover for so long, otherwise the engine will overheat. When the harrier hovers before landing, water is pumped into the engine intake to cool it down. If the pilot doesn't land it within a certain timeframe, he runs the risk of an engine failure, and considering he will have zero forward motion and very little height, if the engine does die, he may not eject in time.
Now put an autoland function in, the pilot can get down faster and safer, putting less stress on the engine.