$1.4 trillion is a scary number to throw around but it's a lifetime cost. Add up the total life cost of all the F-16s and F/A-18s that it will be replacing for comparison.
I'm no fan of the F-35 but it is what we've got for the next 50 years so let's stop sniping and start fixing.
Therein lies the issue, the assumption a) that we're stuck with JSF program for the next 50 years and therefore b) we need to fix the fighter... because we're stuck with it. Classic sunk cost fallacy.
Yes, the $1.4 Trillion is an all-in capitalized cost for the cost of the program, but the click-baity article gets to the heart of the issue pretty quickly: that building a product for 3 different users / businesses that each have their own unique needs and requirements is a failure of a product development strategy. You can either throw money at the problem and attempt to fix the product, or come to the conclusion that it's unfixable, admit that you were wrong, come up with a better product strategy and roadmap, and start all over again.
The sunk cost fallacy is irrelevant at this point. It's too late to start over. The existing fleet of legacy aircraft is literally falling apart and will have to be replaced with something. Building more fourth-generation aircraft would be a waste because they're simply to longer survivable. So they're stuck with making the F-35 work as the only remaining option.
> Building more fourth-generation aircraft would be a waste because they're simply to longer survivable.
I don't agree. The Su-27, which is regarded as a genuine threat to 5th generation planes has been in service since the late 1970s. Modern F-16s have little in common with the first ones that saw service. Boeing has been putting money into F-15s and F/A-18s with stealth capability. Fourth generation aircraft are still survivable and they're still being developed on the field.
There's even a school of thought that suggests that when your enemy is a bunch of dudes with death wishes and pick up trucks, lower tech is an advantage. In this kind of combat, the F-35 is at a particular disadvantage. Its cannon may not be able to achieve the accuracy needed for close air support, the helmets' signal clutter is such that an F-35 is actually a danger, and even more fun, not one model of the F-35 can carry more than 220 rounds of ammunition. In comparison, the A-10 carries about 1,100 rounds. In practice, this means that whereas an A-10 could make 10-20 attack passes, an F-35 will top out at 2-4...
Point being, it might not be a very good remaining option and fourth gen aircraft are better in important ways. With some luck, the testing process will solve all of these problems, though some seem incurable.
The opinions of armchair generals aren't worth much. Simulations and exercises have shown that legacy aircraft are simply not survivable against modern integrated air defence systems. This is a demonstrated reality and no amount of wishing or upgrades will change it.
The amount of ammunition an A-10 can carry is irrelevant if it gets hit by a missile before it reaches the target.
In its current state, the F-35 has three variants. None of those variants is fit for combat of any sort. They are outclassed in close air combat tests against badly crippled fourth generation fighters. Test fighters still can't reliably hit targets during strafing runs. And, the F-35s sensors are plagued by an array of issues, to the point that test pilots need to disable systems in order to actually complete tests.
That statement of fact was not issued by a 'armchair general', it was issued by the Pentagon's senior weapon's tester.
> Building more fourth-generation aircraft would be a waste because they're simply to longer survivable.
Arguably, that's the case for manned combat aircraft generally, at least, in terms of cost-effective survivability. A point which a number of experts have been making since before the F-35s massive cost overruns and other issues.
And most of the complaints boil down to unfinished software and systems. So it’s not that the F35 is ineffective but that there is still more work to do. Happens almost every time a massive new engineering project is undertaken.
> So it’s not that the F35 is ineffective but that there is still more work to do.
A full third of the article is about how the F-35 is inferior to the A-10 for the specific application of close air support. The last part of the article is about how the F-35C is poorly designed for maintenance on aircraft carriers.
I don't see how either situation can be resolved with new software.
The A-10 is useless against countries that pose an existential threat. The US military has to plan for combat with peer nations if it wants to serve its purported role as a national defense force. Just because we've spent the last 20 years killing people in poor countries with inferior weapons doesn't mean we won't ever combat a developed nation.
> the F-35 is inferior to the A-10 for the specific application of close air support
The A-10 is defenseless against modern air defense systems; it wouldn't get within 100 miles of the battlefield against a sophisticated enemy; it would be merely a flying coffin for the pilot.
Against unsophisticated enemies, such as ISIL, a drone could do the job, based on what I understand. The F-35 could too, though it's an expensive option.
And of course it turns out we use A10s frequently right now, so it's fantastic that we have them. We need more. They are cheap. We need a variety of different airplanes for different scenarios.
> we use A10s frequently right now, so it's fantastic that we have them
We use them because we have them. Lots of people use high-carbon emissions cars and planes, and Facebook, but I'm not sure it's fantastic that we have them.
You must have missed the part where a 50k$ Czech passive radar is defeating the F35 stealth capability.
Problem of EM sensors is most often then not, are active (especially radars and IFF), they broadcast or ping signals thus leaving quite a huge EM signature that can be pinpointed precisely with 3 antennas.
There’s also, unfortunately, physical limitations such as thrust-to-weight ratios that affect its dogfighting capabilities. AFAIK these can’t be overcome with software updates but better pilot training can improve survivability.
Serious question: is dogfighting still a thing these days?
When I think of military aircraft now, I tend to imagine them taking off from a carrier, bombing a military target (or equally likely, a house, school, hospital, wedding etc), then flying back.
> Serious question: is dogfighting still a thing these days?
It's not and that is part of the basis of the F-35, if I understand it correctly, to fight future battles not past ones. A very common problem in military history is people who fought the last war, leading to things like cavalry charges against machine guns. Here are three ways to think about the F-35 and the change in technology that I've read elsewhere (I'm not a practitioner or expert):
First, someone thought to do empirical research into what actually wins in air-to-air encounters, rather than relying on theories. In Vietnam (the last time the US had more than a few air-to-air encounters), 80% of battles were over before the losers knew they had begun.[0] Contrary to the Hollywood image of mano-a-mano dogfights, the loser was basically shot in the back without warning.[1] Situational awareness is the key, according to the research. The F-35 is built around situational awareness: Sensors, stealth (counter-measure against enemy sensors), integration with other sensor systems (the plane's display shows not only its own sensor output, but also the output from all the other F-35s, as well as from ground and satellite - it's all networked in), and think of the high-tech helmet that uses cameras and AR to let the pilot see 'through' the plane.
Second, the plane is more a node on a network than an independent platform. Think of those integrated sensors: Using them, a commander can deploy any other asset on the network against an enemy, alone or in combination - missiles from the ground or and electronic jamming from another plane, for example - it's not just the fight of the plane that happened to carry the sensor that detected the target. It's the difference between a standalone computer and a networked one.
Third, think of effect of range in naval technology: Ships used to pull up alongside each other and sailors would fight hand-to-hand. Then sufficiently effective cannon were developed and ships fought each other from miles away; anyone still using boarding parties was sunk before they could get close enough; cannon maxed out at maybe a couple of dozen miles on battleships. Then naval air power was developed, aircraft carriers and planes, and their range was several hundred miles; ships relying on cannon never even saw their foes, they were just targets for the planes and coffins for their personnel (this famously happened at the Battle of Midway). The same thing is happening with fighter planes: Nobody will get close enough for dogfights; they usually won't even see the other plane. Evaluating modern planes based on dogfighting is, in this sense, like evaluating aircraft carriers based on boarding parties or cannon.
[1] People sometimes are shocked by this idea, but that is the goal of combat: To massacre your enemy before they know you are there. It's not a sporting event; you absolutely don't want a fair fight.
With the exception of your first sentence, everything you said was true. Dogfighting is still very much a thing and every operational fighter needs to be competent in close air combat. You just simply cannot avoid close air combat because missiles fail, radars get jammed, and air combat is like a ballet choreographed at speeds approaching that of sound. Point being, everything gets fucked up, so fighters need to be capable so as not to be a flying coffin. Modern planes are absolutely evaluated based on their ability to survive in close combat situations.
Over the rest of your answer, you did a good job of summarizing what the F-35 was supposed to do. It was supposed to use stealth, technology and a ton of data to avoid having to get too close. Unfortunately, the actual plane is far from achieving any of these.
The F-35s much lauded sensors don't work particularly well. Things et even worse when you have a number of F-35s operating together and sharing data. Targets outright disappear and others appear twice. In testing, F-35 pilots have taken to shutting down sensors as they're simply better pilots with less information. The helmet is a particular clusterfuck and may be incurable. It presents so much information that it has been known to actually block targets from the pilots' view. One story of the F-35 in combat is that the cameras aren't good enough to ID targets so pilots have to close in on the target to get visual ID, then fly far enough away so that their air to air missiles would work. Even if they maintain stealth (which they have trouble doing because the F-35s use so many radar signals for targeting), having to close in, then fly away to shoot gives the enemy a great window to attack. And, with the F-35s handling at lower speeds, many 40 year old planes would fucking devastate it if given the chance.
> Dogfighting is still very much a thing and every operational fighter needs to be competent in close air combat.
I did go a bit too far with my first sentence, but what you say about the F-35's effectiveness is much different than what I read from experts, who generally seem to see it as a very complex system, maturing, but with excellent potential.
In fairness, I stated my credentials (none) and cited someone with credentials. Do you have any, or is the above based on knowledge from anyone who does have them?
First, I did not say that the F-35 was a lost cause. It might be maturing, though it doesn't seem to be maturing very quickly.
There is a position within the Pentagon called the Director, Operational Test and Evaluation. This position requires a senate confirmation and serves as the Secretary of Defense's senior adviser on weapon's testing. I hope to hell that he (every DOT&E has been male, so that's not gendered language) is qualified.
The current DOT&E (Robert F. Behler) is a former Air Force test pilot who reached the rank of Major General over the course of a 30+ year military career. He has a couple of masters degrees and amongst other interesting jobs, was COO and Deputy Director of Carnegie Mellon's Software Engineering Institute. He has held the title since December 2017.
In 2016, the DOT&E annual report contained all the problems that I related in my answer to you and many, many others. You should give it a read - it's online and written in remarkably clear language. The 2017 annual report wasn't much better. It essentially said that they were finding deficiencies faster than they were being fixed and in its current state, the F-35 would not be suitable for combat.
Who are we fighting today that our current inventory of fighters can't manage? Seems like there's sufficient grace period. It's like running cable instead of just developing 5g.
Simulations indicate that legacy 4th-generation fighters are very vulnerable to the latest anti-aircraft missile systems that Russia has started selling all over the world. This is happening right now, there's no grace period.
The next 50 years? I give it maybe 30, starting from its first flight many years ago. Its replacement(s) are already being discussed. The f-35 is far from "new".
I'm no fan of the F-35 but it is what we've got for the next 50 years so let's stop sniping and start fixing.