Lockheed Martin F-35 Lightning II development

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F-35 Lightning II
F-35A off the coast of Northwest Florida.
F-35A Lightning II
Role Stealth multirole fighter
National origin United States
Manufacturer Lockheed Martin Aeronautics
First flight 15 December 2006 (F-35A)
Introduction F-35B: 31 July 2015 (USMC)[1][2][3]
F-35A: 2 August 2016 (USAF)[4]
F-35C: 2018 (USN)[5]
Status In service
Developed from Lockheed Martin X-35

Lockheed Martin F-35 Lightning II development started in 1995 with the origins of the Joint Strike Fighter program and culminated in the completion of operational testing and start of full-rate production in 2021.[6] The X-35 first flew on 24 October 2000 and the F-35A on 15 December 2006.

The F-35 was developed to replace most US fighter jets with variants of one design common to all branches of the military. It was developed in cooperation with a number of foreign partners, and unlike the Lockheed Martin F-22 Raptor, is intended to be available for export. Three variants were designed: the F-35A (conventional take off and landing, CTOL), the F-35B (short-take off and vertical-landing, STOVL), and the F-35C (carrier-based catapult assisted take-off (CATOBAR), CV). Despite being intended to share most of their parts to reduce costs and improve maintenance logistics, by 2017 the design commonality was only 20%.[7]

The program received considerable criticism for cost overruns during development and for the total projected cost of the program over the lifetime of the jets. By 2017 the program was expected over its lifetime (until 2070) to cost $406.5 billion for acquisition of the jets and $1.1 trillion for operations and maintenance.[8] A number of design deficiencies were alleged, such as carrying a small internal payload, inferior performance to the aircraft being replaced particularly the General Dynamics F-16 Fighting Falcon, and the lack of safety in relying on a single engine, and flaws were noted such as vulnerability of the fuel tank to fire and the propensity for transonic roll-off (TRO or "wing drop"). The possible obsolescence of stealth technology was also criticized.

JSF program requirements and selection

Main article: Joint Strike Fighter program

The Joint Strike Fighter program was intended to replace the United States military General Dynamics F-16 Fighting Falcon, Fairchild Republic A-10 Thunderbolt II, McDonnell Douglas F/A-18 Hornet (excluding newer E/F "Super Hornet" variants) and McDonnell Douglas AV-8B Harrier II tactical fighter and attack aircraft, and meet anticipated performance expectation enhancements covering military requirements up to 2035.[7] Originally planned to keep development, production, and operating costs down, a common design was originally optimistically planned in three variants that would share 80 percent of their parts. However, by April 2017 the variants were sharing at most twenty percent common design:[7]

  • F-35A, conventional take off and landing (CTOL) variant.
  • F-35B, short-take off and vertical-landing (STOVL) variant.
  • F-35C, carrier-based CATOBAR (CV) variant.
Engineer handling a metallic scale model of jet fighter in wind-tunnel
An F-35 wind tunnel testing model in the Arnold Engineering Development Center's 16-foot transonic wind tunnel

The design goals call for the F-35 to be the premier strike aircraft through 2040 and to be second only to the F-22 Raptor in air supremacy.[9] George Standridge, Vice President of Strategy and Business Development for Lockheed Martin Aeronautics, predicted in 2006 that the F-35 would be four times more effective than legacy fighters in air-to-air combat, eight times more effective in air-to-ground combat, and three times more effective in reconnaissance and Suppression of Enemy Air Defenses – while having better range and requiring less logistics support and having around the same procurement costs (if development costs are ignored) as legacy fighters.[10]

The JSF development contract was signed on 16 November 1996, and the contract for System Development and Demonstration (SDD) was awarded by the Department of Defense (DoD) on 26 October 2001 to Lockheed Martin, whose X-35 beat the Boeing X-32. Although both aircraft met or exceeded requirements, the X-35 design was considered to have less risk and more growth potential.[11] The designation of the new fighter as "F-35" is out-of-sequence with standard DoD aircraft numbering,[12] by which it should have been "F-24". It came as a surprise even to the company, which had been referring to the aircraft in-house by this expected designation.[13]

The development of the F-35 is unusual for a fighter aircraft in that no two-seat trainer versions have been built for any of the variants; advanced flight simulators mean that no trainer versions were deemed necessary.[14] Instead F-16s have been used as bridge trainers between the T-38 and the F-35. The T-X was intended to be used to train future F-35 pilots, but this might succumb to budget pressures in the USAF.[15]

Design phase

Based on wind tunnel testing, Lockheed Martin slightly enlarged its X-35 design into the F-35. The forward fuselage is 5 inches (130 mm) longer to make room for avionics. Correspondingly, the horizontal stabilators were moved 2 inches (51 mm) rearward to retain balance and control. The top surface of the fuselage was raised by 1 inch (25 mm) along the center line. Also, it was decided to increase the size of the F-35B STOVL variant's weapons bay to be common with the other two variants.[11] Manufacturing of parts for the first F-35 prototype airframe began in November 2003.[16] Because the X-35 did not have weapons bays, their addition in the F-35 would cause design changes which would lead to later weight problems.[17][18]

The F-35B STOVL variant was in danger of missing performance requirements in 2004 because it weighed too much; reportedly, by 2,200 lb (1,000 kg) or 8%. In response, Lockheed Martin added engine thrust and thinned airframe members, reduced the size of the common weapons bay and vertical stabilizers, rerouted some thrust from the roll-post outlets to the main nozzle, and redesigned the wing-mate joint, portions of the electrical system, and the portion of the aircraft immediately behind the cockpit.[19] Many of the changes were applied to all three variants to maintain high levels of commonality. By September 2004, the weight reduction effort had reduced the aircraft's design weight by 2,700 pounds (1,200 kg),[20] but the redesign cost $6.2 billion and delayed the project by 18 months.[21]

On 7 July 2006, the U.S. Air Force, the lead service for the aircraft, officially announced the name of the F-35: Lightning II, in honor of Lockheed's World War II-era twin-propeller Lockheed P-38 Lightning for the United States Army Air Forces and the Cold War-era jet, the English Electric Lightning for the Royal Air Force.[22][a]

Lockheed Martin Aeronautics is the prime contractor and performs aircraft final assembly, overall system integration, mission system, and provides forward fuselage, wings and aircraft flight control system. Northrop Grumman provides active electronically scanned array (AESA) radar, electro-optical AN/AAQ-37 Distributed Aperture System (DAS), Communications, Navigation, Identification (CNI), center fuselage, weapons bay, and arrestor gear. BAE Systems provides the Flight Control Software (FCS1), the electronic warfare systems, crew life support and escape systems, aft fuselage, empennages as well as the horizontal and vertical tails. Alenia will perform final assembly for Italy and, according to an Alenia executive, assembly of all European aircraft with the exception of Turkey and the United Kingdom.[24][25] The F-35 program has seen a great deal of investment in automated production facilities. For example, Handling Specialty produced the wing assembly platforms for Lockheed Martin.[26]

On 19 December 2008, Lockheed Martin rolled out the first weight-optimized F-35A, designated AF-1. It was the first F-35 built at full production speed, and is structurally identical to the production F-35As that were delivered starting in 2010.[27] On 5 January 2009, six F-35s had been built, including AF-1; another 13 pre-production test aircraft and four production aircraft were being manufactured.[28] On 6 April 2009, U.S. Secretary of Defense Robert Gates proposed speeding up production for the U.S. to buy 2,443 F-35s.[29]

Program cost overruns and delays

2006–2011

The F-35 program has experienced a number of cost overruns and developmental delays. The program's delays have come under fire from the U.S. Congress and some U.S. Department of Defense officials. The program has undergone a number of reassessments and changes since 2006. The Government Accountability Office (GAO) warned in March 2006 that excessive concurrency ("an overlap of flight testing and initial production"[30]) might result in expensive refits for several hundred F-35 aircraft that are planned for production before design testing is completed.[31] In 2010, acquisition chief Ashton Carter issued an Acquisition Decision Memorandum restructuring the F-35 program.[32] In November 2010, the GAO found that "Managing an extensive, still-maturing global network of suppliers adds another layer of complexity to producing aircraft efficiently and on-time" and that "due to the extensive amount of testing still to be completed, the program could be required to make alterations to its production processes, changes to its supplier base, and costly retrofits to produced and fielded aircraft, if problems are discovered".[33] USAF budget data in 2010, along with other sources, projected the F-35 to have a flyaway cost from US$89 million to US$200 million over the planned production run.[34][35] In February 2011, the Pentagon put a price of $207.6 million on each of the 32 aircraft to be acquired in FY2012, rising to $304.16 million (a total acquisition cost of $9.7 billion for 32 aircraft) if its share of research, development, test and evaluation (RDT&E) spending is included.[36][37]

On 21 April 2009, media reports, citing Pentagon sources, said that during 2007 and 2008, spies downloaded several terabytes of data related to the F-35's design and electronics systems, potentially compromising the aircraft and aiding the development of defense systems against it.[38] Lockheed Martin rejected suggestions that the project was compromised, stating it "does not believe any classified information had been stolen".[39] Other sources suggested that the incident caused both hardware and software redesigns to be more resistant to cyber attack.[40] In March 2012, BAE Systems was reported to be the target of cyber espionage. BAE Systems refused to comment on the report, although they did state, "[Our] own cyber security capability can detect, prevent and rectify such attacks".[41] On 9 November 2009, Ashton Carter, undersecretary of defense for acquisition, technology and logistics, acknowledged that the Pentagon "joint estimate team" (JET) had found possible future cost and schedule overruns in the project and that he would be holding meetings to attempt to avoid these.[42] On 1 February 2010, Gates removed the JSF Program Manager, U.S. Marine Corps Major General David Heinz, and withheld $614 million in payments to Lockheed Martin because of program costs and delays.[43][44]

On 11 March 2010, a report from the Government Accountability Office to United States Senate Committee on Armed Services projected the overall unit cost of an F-35A to be $113 million in "today's money".[45] In 2010, Pentagon officials disclosed that the F-35 program had exceeded its original cost estimates by more than 50 percent.[46] An internal Pentagon report critical of the JSF project stated that "affordability is no longer embraced as a core pillar". In 2010, Lockheed Martin expected they would be able to reduce costs projected by government estimators by 20 percent.[47] On 24 March 2010, Robert Gates, Secretary of Defense, in testimony before Congress, declared the cost overruns and delays "unacceptable", characterizing previous cost and schedule estimates as "overly rosy". Gates insisted the F-35 would become "the backbone of U.S. air combat for the next generation" and informed Congress that he had extended the development period by an additional 13 months and budgeted $3 billion more for the testing program, while slowing down production.[48] In August 2010, Lockheed Martin announced delays in resolving a "wing-at-mate overlap" production problem, which would slow initial production.[49] In November 2010, as part of a cost-cutting measure, the co-chairs of the National Commission on Fiscal Responsibility and Reform suggested cancelling the F-35B and halving orders for F-35As and F-35Cs.[50][51][52] Air Force Magazine reported that "Pentagon officials" were considering canceling the F-35B because its short range meant that the forward bases or amphibious ships from which it would operate would be in range of hostile tactical ballistic missiles.[53] Lockheed Martin consultant Loren B. Thompson said that this ″rumor″ was a result of the usual tensions between the U.S. Navy and Marine Corps, and there was no alternative other than the F-35B as a replacement for AV-8B Harrier II.[54] He also confirmed that there were further delays and cost increases due to technical problems with the aircraft and software, blaming most of the delays and extra costs on redundant flight tests.[55] In November 2010, the Center for Defense Information expected that the F-35 program would be restructured, resulting in an additional year of delay and increasing the cost by another $5 billion.[56] On 5 November 2010, the Block 1 software flew for the first time on BF-4.[57] As of the end of 2010, it was said that only 15% of the software remained to be written, but this was reported to include the most difficult sections such as data fusion.[58] In 2011, it was revealed that actually, only 50% of the estimated eight million lines of code needed had been written and that, according to the newest schedule, it would take another six years to complete the software.[59] By 2012, the total estimated lines of code for the entire program (onboard and offboard) had grown from the previous year's estimate of 8 million lines to 24 million lines.[60]

In 2011, the program head and Commander of the Naval Air Systems Command, Vice Admiral David Venlet, confirmed that the concurrency (testing and production at the same time) built into the program "was a miscalculation".[61] This was said during a contract dispute, in which the Pentagon insisted that Lockheed Martin help cover the costs of applying fixes found during testing of aircraft already produced.[62] Lockheed Martin objected that the cost sharing posed an uninsurable, unbounded risk that the company could not cover, and later responded that the "concurrency costs for F-35 continue to reduce".[63][64] The Senate Armed Services Committee strongly backed the Pentagon position.[65] However, in December 2011, Lockheed Martin accepted a cost sharing agreement.[66] The Aerospace Industries Association warned that such changes would force them to anticipate cost overruns in the future when bidding on contracts.[67] As of 2012, problems found during flight testing were expected to continue to lead to higher levels of engineering changes through 2019.[68] The total additional cost for concurrency in the program is around $1.3 billion.[69] By the next year the cost had grown to $1.7 billion.[70] In January 2011, Defense Secretary Robert Gates expressed the Pentagon's frustration with the rising costs of the F-35 program when he said, "The culture of endless money that has taken hold must be replaced by a culture of restraint". Focusing his attention on the troubled F-35B, Gates ordered "a two-year probation", saying it "should be canceled" if corrections are unsuccessful.[71] Gates had previously stated his support for the program.[72] Some private analysts had said that the F-35 program was becoming a money pit.[73] Gates' successor, Leon Panetta, ended the F-35B's probation on 20 January 2012, stating "The STOVL variant has made—I believe and all of us believe—sufficient progress".[74] In February 2011, former Pentagon manager Paul G. Kaminski said that the lack of a complete test plan would add five years to the JSF program.[75] Initial operating capability (IOC) will be determined by software development rather than by hardware production or pilot training.[76] As of May 2013, the USMC plans to have Initial Operating Capability by "mid-2015" for the F-35B, using Block 2B software, which gives basic air-to-air and air-to-ground capability. It is reported that the USAF plans to push ahead, expecting to have Initial Operating Capability with the F-35A in mid-2016, using Block 3I software, rather than waiting for the full-capability Block 3F software, which is expected to be available by mid-2017. The F-35C will not enter service with the USN until mid-2018.[77] The $56.4 billion development project for the aircraft should be completed in 2018 when the Block 5 configuration is expected to be delivered, several years late and considerably over budget.[78]

2011–present

F-35A moving into position to refuel

Delays in the F-35 program may lead to a "fighter gap" with the United States and other countries lacking sufficient fighter aircraft to meet their requirements.[79] Israel may seek to buy second-hand F-15Es,[80] while Australia has considered buying additional F/A-18 Super Hornets in the face of F-35 delays.[81] In May 2011, the Pentagon's top weapons buyer, Ashton Carter, said that the latest price estimate of $133 million per aircraft was not affordable.[82] In 2011, The Economist warned that the F-35 was in danger of slipping into a "death spiral", where increasing per-aircraft costs would lead to cuts in number of aircraft ordered, leading to further cost increases and further cuts in orders.[83] Later that year, four aircraft were cut from the fifth "Low Rate Initial Production (LRIP)" order because of cost overruns.[84] In 2012, a further two aircraft were cut.[85] Lockheed Martin acknowledged that the slowing of purchases would increase costs.[86] David Van Buren, U.S. Air Force acquisition chief, said that Lockheed Martin needed to reduce manufacturing capacity to match the reduced market for their aircraft.[87] However, the company said that the slowdown in American orders would free up capacity, which could be diverted to meet urgent, short-term needs of foreign partners for replacement fighters.[88] Air Force Secretary Michael Donley said that no more money was available and that future price increases would be met with cuts in the number of aircraft ordered.[89] Later that month, the Pentagon reported that costs had risen another 4.3 percent, in part because of production delays.[90] In 2012, the purchase of six out of 31 aircraft was conditioned on progress of development and testing.[91] In 2013, Bogdan repeated that no more money was available, but that he hoped to avoid the death spiral.[92] In 2014 it was reported that another eight aircraft would be cut from the following year's order.[93]

Japan warned that it may halt its purchase of the F-35 if the cost per aircraft increases and Canada has indicated it has not yet committed to purchase the aircraft.[94][95] The United States is now projected to spend an estimated $323 billion for development and procurement of the F-35, making it the most expensive defense program ever.[96] Testifying before a Canadian parliamentary committee in 2011, Rear Admiral Arne Røksund of Norway estimated that his country's 52 F-35 fighter jets will cost $769 million each over their operational lifetime.[97] In 2012, the total life-cycle cost for the entire U.S. fleet was estimated at US$1.51 trillion over a 50-year life, or $618 million per plane.[98] In hopes of reducing this high lifetime cost, the USAF is considering reducing Lockheed Martin's role in contractor logistics support.[99] The company has responded that the Pentagon's lifetime cost estimate includes future costs beyond its control, such as USAF reorganizations and yet-to-be-specified upgrades.[100] Delays have also negatively affected the program's worldwide supply chain and partner organizations as well.[101]

In 2012, General Norton A. Schwartz decried the "foolishness" of reliance on computer models to arrive at the final design of aircraft before flight testing has found the problems that require changes in design.[102] In 2013, JSF project team leader, USAF Lieutenant General Chris Bogdan, said that "A large amount of concurrency, that is, beginning production long before your design is stable and long before you've found problems in test, creates downstream issues where now you have to go back and retrofit airplanes and make sure the production line has those fixes in them. And that drives complexity and cost".[103] Bogdan remarked on the improvement in the program ever since Lockheed Martin was forced to assume some of the financial risks.[104] In 2012, in order to avoid further delays that would result from design changes, the U.S. DoD accepted a reduced combat radius for the F-35A and a longer takeoff run for the F-35B.[105][106] As a result, the F-35B's estimated combat radius was reduced by 15 percent.[107] In a meeting in Sydney, Australia in March 2012, the United States pledged to eight partner nations that there would be no more program delays.[108] In May 2012, Lockheed Martin Chief Executive Bob Stevens complained that the Defense Department's requirements for cost data were themselves driving up program costs.[109] Stevens also said that a strike by union employees might result in failure to meet that year's production target of 29 F-35s.[110] Striking workers questioned the quality of work done by temporary replacements, noting that even their own work had been cited for "inattention to production quality", resulting in a 16% rework rate.[111] The workers went on strike to protect pensions, the cost of which had been the subject of negotiations with the Department of Defense over orders for the next batch of aircraft.[112] These same pension costs were cited by Fitch in their downgrade of the outlook for Lockheed Martin's stock price.[113] Stevens said that while he hoped to bring down program costs, the industrial base was not capable of meeting the government's cost expectations, given the current number of aircraft on order.[114][115]

According to a June 2012 Government Accountability Office report, the F-35's unit cost had almost doubled, with an increase of 93% over the program's original, 2001 baseline cost estimates.[116] In 2012, Lockheed Martin reportedly feared that the tighter policies of the Obama administration regarding award fees would reduce their profits by $500 million over the coming five years.[117] This in fact occurred in 2012, when the Pentagon withheld the maximum $47 million allowed, for the company's failure to certify its program for tracking project costs and schedules.[118] The GAO also faulted the USAF and USN for not fully planning for the costs of extending legacy F-16 and F-18 fleets to cover the delay in acquiring the F-35.[119] Because of cost-cutting measures, the U.S. Government asserts that the "flyaway" cost (including engines) has been dropping. The U.S. Government estimates that in 2020 an "F-35 will cost some $85m each, or less than half of the cost of the initial units delivered in 2009. Adjusted to today’s dollars, the 2020 price would be $75m each".[120]

In 2013, Lockheed Martin began to lay off workers at the Fort Worth, Texas plant where the F-35s were being assembled.[121] They said that revised estimates indicated that the costs of refitting the 187 aircraft built by the time testing concludes in 2016 would be lower than feared.[122] The GAO's Michael Sullivan said that the company had failed to get an early start on systems engineering and had not understood the requirements or the technologies involved at the program's start.[123] The Pentagon vowed to continue funding the program during budget sequestration if possible.[124] It was feared that the U.S. budget sequestration in 2013 could slow development of critical software[125] and the Congress ordered another study to be made on the software development delays.[126] As of 2014, software development remained the "number one technical challenge" for the F-35.[127] In June 2013, Frank Kendall, Pentagon acquisition, technology and logistics chief, declared "major advances" had been made in the F-35 program over the last three years and that he intended to approve production-rate increases in September. Air Force Lt. Gen. Christopher Bogdan, program executive officer, reported far better communications between government and vendor managers, and that negotiations over Lot 6 and 7 talks were moving fast. It was also stated that operating costs had been better understood since training started. He predicted "we can make a substantial dent in projections" of operating costs.[128] In July 2013, further doubt was cast on the latest production schedule, with further software delays and continuing sensor, display and wing buffet problems.[129] In August it was revealed that the Pentagon was weighing cancellation of the program as one possible response to the budget sequestration[130][131] and the United States Senate Appropriations Subcommittee on Defense voted to cut advance procurement for the fighter.[132]

On August 21, 2013, C-Span reported that Congressional Quarterly and the Government Accountability Office were indicating the "total estimated program cost now is $400 billion, nearly twice the initial cost". The current investment was documented as approximately $50 billion. The projected $316 billion cost in development and procurement was estimated through 2037 at an average of $12.6 billion per year. These were confirmed by Steve O'Bryan, Vice President of Lockheed Martin, on the same date.[133] In 2013, a RAND study found that during development, the three different versions had drifted so far apart from each other, that having a single base design might have come to be more expensive than if the three services had simply built entirely different aircraft, each tailored to their own requirements.[134] On 10 April 2017 Bloomberg Businessweek reported that the total expenditures for the F-35 program would approach $1 trillion.[135]

In 2014, the airframe cost went below $100 million for the first time, and the Air Force expected unit costs to fall.[136] A 2014 Center for International Policy study cast doubt on the number of indirect jobs created by the program, which has been a key selling point for the F-35 to Congress. Lockheed stood by their job numbers and said that their accounting was in line with industry norms.[137] A January 2014 report by J. Michael Gilmore said that new software delays could delay Block 2B release by 13 months.[138] This estimate was reduced to 4 months in the DOTE report from November 2014.[139] The F-35 program office considered software to be the top technical risk to the program. The USMC was maintaining their expectation of an Initial Operational Capability by July 2015.[140] In 2014, U.S. Senator John McCain blamed cost increases in the program on "cronyism".[141] In 2014, the GAO found that the F-35 fleet would have operating costs 79% higher than the aircraft it was to replace.[142] In 2014, the FY2015 Selected Acquisition Report stated that the program cost had increased 43% from 2001, with Program Acquisition Unit Cost up 68% and Unit Recurring Flyaway up 41%.[143] The F-35A's cost per flying hour in BY2012 dollars is $32,500 while the F-16C/D is $25,500, but each F-35A is expected to fly only 250 hours a year, compared to the F-16's 316 hours a year, resulting in the same yearly operating cost.[143][144] In July 2014, Lockheed Martin, Northrop Grumman, and BAE Systems announced they would invest a combined $170 million in the program[clarification needed], which was anticipated to result in savings of over $10 million per aircraft. This initiative was said to have set the project on track for an $80M (including engine) price tag per aircraft (F-35A) by 2018, when full production is scheduled to begin.[145] The December 2014 Selected Acquisition Report listed a cost decrease of $7.5 billion against a program cost of $391.1 billion ($320 billion in 2012 dollars). Lockheed Martin also stated that there would be an estimated decrease of nearly $60 billion to the operations and support costs.[146]

In December 2015, the FY2017 Selected Acquisition Report had revised the F-35A's cost per flying hour in BY2012 dollars to $29,806, in comparison with the F-16C/D's antecedent of $25,541, also in BY2012 dollars. This was a result of a decrease in the assumed cost per gallon of JP-8 fuel, a decrease in the fuel burn rate for the F-35A variant and a revised cost estimating relationship for hardware modifications.[147] The 2015 DoD annual report stated that the current schedule to complete System Development and Demonstration (SDD) and enter Initial Operational Testing and Evaluation (IOT&E) by August 2017 was unrealistic, instead the program would likely not finish Block 3F development and flight testing prior to January 2018. Based on those projected completion dates for Block 3F developmental testing, IOT&E would not start earlier than August 2018.[148][149]

The Block 3I software was intended to be a revision of the Block 2B software to run on the updated Integrated Core Processor.[150] Unfortunately, it resulted in a timing misalignment that reduced stability, requiring reboots in flight.[151] By May 2016 the software had been improved to the point where it only crashed every 15 hours.[152] Reboots were required over a third of the time for ground cold starts.[153] The following month saw 88 successful sorties untroubled by the stability bug.[154]

Concerns over performance and safety

A Lockheed Martin press release points to USAF simulations regarding the F-35's air-to-air performance against adversaries described as "4th generation" fighters, in which it states the F-35 is "400 percent" more effective. Major General Charles R. Davis, USAF, the F-35 program executive officer, has stated that the "F-35 enjoys a significant Combat Loss Exchange Ratio advantage over the current and future air-to-air threats, to include Sukhois".[155]

In September 2008, in reference to the original plan to fit the F-35 with only two air-to-air missiles (internally), Major Richard Koch, chief of USAF Air Combat Command's advanced air dominance branch is reported to have said that "I wake up in a cold sweat at the thought of the F-35 going in with only two air-dominance weapons".[156] The Norwegians have been briefed on a plan to equip the F-35 with six AIM-120D missiles by 2019.[157] Former RAND author John Stillion has written of the F-35A's air-to-air combat performance that it "can't turn, can't climb, can't run"; Lockheed Martin test pilot Jon Beesley has stated that in an air-to-air configuration the F-35 has almost as much thrust as weight and a flight control system that allows it to be fully maneuverable even at a 50-degree angle of attack.[158][159] Consultant to Lockheed Martin Loren B. Thompson has said that the "electronic edge F-35 enjoys over every other tactical aircraft in the world may prove to be more important in future missions than maneuverability".[160]

A senior U.S. defense official was quoted as saying that the F-35 will be "the most stealthy, sophisticated and lethal tactical fighter in the sky", and added "Quite simply, the F-15 will be no match for the F-35".[161] After piloting the aircraft, RAF Squadron Leader Steve Long said that, over its existing aircraft, the F-35 will give "the RAF and Navy a quantum leap in airborne capability".[162]

In November 2009, Jon Schreiber, head of F-35 international affairs program for the Pentagon, said that the U.S. will not share the software code for the F-35 with its allies.[163] The US plans to set up a reprogramming facility that will develop JSF software and distribute it to allies.[164] In 2014 in order to deal with capacity issues in the creation of mission data packages at the Air Combat Command reprogramming lab at Eglin Air Force Base, Fla., plans were announced to open additional mission data labs to customize mission data packages with terrain and enemy threat information for different regions and partner nation needs.[165] DARPA is working on the Adaptive Radar Countermeasures (ARC) project to provide protection in real time for previously unknown threat radars.[166]

In 2011, Canadian politicians raised the issue of the safety of the F-35's reliance on a single engine (as opposed to a twin-engine configuration, which provides a backup in case of an engine failure). Canada, and other operators, had previous experience with a high accident rate with the single-engine Lockheed CF-104 Starfighter with many accidents related to engine failures. When asked what would happen if the F-35's single engine fails in the far north, Defence Minister Peter MacKay stated "It won’t".[167]

In November 2011, a Pentagon study team identified 13 areas of concern that remained to be addressed in the F-35.[168][169]

In May 2012, Michael Auslin of the American Enterprise Institute questioned the capability of the F-35 to engage modern air defenses.[170] In July 2012, the Pentagon awarded Lockheed Martin $450 million to improve the F-35 electronic warfare systems and incorporate Israeli systems.[171]

In a negative assessment of the Joint Strike Fighter, the think tank Air Power Australia declared that the Joint Strike Fighter is not designed to perform air superiority roles and also is not adapted to performing the long-range penetration strike role filled by previous Australian aircraft like the General Dynamics F-111C. Critically, they also stated that the F-35's "intended survivability and lethality are mismatched against the operational environment in which the aircraft is intended to be used".[172]

In June 2012, Australia's Air Vice Marshal Osley responded to Air Power Australia's criticisms by saying "Air Power Australia (Kopp and Goon) claim that the F-35 will not be competitive in 2020 and that Air Power Australia's criticisms mainly center around F-35's aerodynamic performance and stealth capabilities". Osley continued, "these are inconsistent with years of detailed analysis that has been undertaken by Defence, the JSF program office, Lockheed Martin, the U.S. services and the eight other partner nations. While aircraft developments, such as the Sukhoi Su-57 or the Chinese J20, as argued by Airpower Australia, show that threats we could potentially face are becoming increasingly sophisticated, there is nothing new regarding development of these aircraft to change Defence's assessment". He then said that he thinks that the Air Power Australia's "analysis is basically flawed through incorrect assumptions and a lack of knowledge of the classified F-35 performance information".[173]

A report released in 2013 stated that flaws in the fuel tank and fueldraulic (fuel-based hydraulic) systems have left it considerably more vulnerable to lightning strikes and other fire sources, including enemy fire, than previously revealed, especially at lower altitudes.[174] The restriction on blue skies flights was subsequently removed in 2015.[175] This report updated a separate report from 2010, in which Lockheed Martin spokesman John Kent said that adding fire-suppression systems would offer "very small" improvement to survivability.[176] The same 2010 report also noted performance degradation of the three variants; the sustained turn rates had been reduced to 4.6 g for the F-35A, 4.5 g for the F-35B, and 5.0 g for the F-35C. The acceleration performance of all three variants was also downgraded, with the F-35C taking 43 seconds longer than an F-16 to accelerate from Mach 0.8 to Mach 1.2; this was judged by several fighter pilots to be a lower performance level than expected from a fourth generation fighter.[177] On 30 August 2013, it was reported that the F-35B and F-35C models take several complex maneuvers in order to "accelerate" to their top speed of Mach 1.6, which consumed almost all of the onboard fuel.[178] The F-35 program office is reconsidering addition of previously removed safety equipment.[179] In 2012, Lockheed Martin program manager Tom Burbage said that while the relatively large cross-sectional area of the fighter that was required by the internal weapons bays gave it a disadvantage against fourth generation fighters that were operating in a clean configuration, the F-35 armed with weapons carried internally had the advantage over fighters carrying their weapons outside the aircraft.[180]

In March 2013, USAF test pilots, flying with pre-operational software that did not utilize the all-aspect infrared AAQ-37 DAS sensor, noted a lack of visibility from the F-35 cockpit during evaluation flights, which would get them consistently shot down in combat. Defense spending analyst Winslow Wheeler concluded from flight evaluation reports that the F-35A "is flawed beyond redemption";[181] in response, program manager Bogdan suggested that pilots worried about being shot down should fly cargo aircraft instead.[182] The same report found (in addition to the usual problems with the aircraft listed above):

  • Current aircraft software is inadequate for even basic pilot training.
  • Ejection seat may fail, causing pilot fatality.
  • Several pilot-vehicle interface issues, including lack of feedback on touchscreen controls.
  • The radar performs poorly, or not at all.
  • Engine replacement takes an average of 52 hours, instead of the two hours specified.
  • Maintenance tools do not work.[183]

The JPO responded that more experienced pilots would be able to safely operate the aircraft and that procedures would improve over time.[184]

Even in the final "3F" software version, the F-35 will lack ROVER, in spite of having close air support as one of its primary missions.[185]

In 2014, David Axe stated design flaws related to its single-engine configuration could vex the F-35 for decades to come, forcing the Pentagon to suspend flying too often for the majority of its fighter fleet.[186]

In November 2014, China unveiled the portable JY-26 Skywatch-U UHF 3-D long-range surveillance radar system, specifically designed to defeat stealth aircraft like the F-35.[187] Responding to a reporter's question about the High-Frequency radar threat General Welsh said "while we may have a new radar developed that allows an acquisition radar to see an airplane, that doesn't mean you can pass the track off to a radar that will then guide a weapon to be able to destroy the airplane. As long as we break the kill chain sometime between when you arrive in the battle space and when the enemy weapon approaches your airplane, you're successful at using stealth".[188]

A 2014 Pentagon report found these issues:

  • First two mission data sets available November 2015, after USMC IOC.
  • Overall operational suitability relies heavily on contractor support and unacceptable workarounds.
  • Aircraft availability reached 51% but short of 60% goal.
  • Fuel Tanks don't retain inerting for required 12 hours after landing.
  • High dynamic loads on the rudder at lower altitudes in 20–26 AoA preventing testing.
  • 82 pounds added to F-35B in last 38 months, 337 pounds below limit.
  • Transonic Roll-Off (TRO) and airframe buffet continue to be program concerns.
  • 572 deficiencies remain affecting Block 2B capability, 151 of which are critical.
  • VSim would likely not support planned Block 2B operational testing in 2015.
  • Maintainability hours still an issue.
  • ALIS requires many manual workarounds.[139]

A 2015 Pentagon report found these issues:[189]

  • The Joint Program Office is re-categorizing or failing to count aircraft failures to try to boost maintainability and reliability statistics;
  • Testing is continuing to reveal the need for more tests, but the majority of the fixes and for capability deficiencies being discovered are being deferred to later blocks rather than being resolved;
  • The F-35 has a significant risk of fire due to extensive fuel tank vulnerability, lightning vulnerability, and its OBIGGS system's inability to sufficiently reduce fire-sustaining oxygen, despite redesigns;
  • Wing drop concerns are still not resolved after six years, and may only be mitigated or solved at the expense of combat maneuverability and stealth;
  • The June engine problems are seriously impeding or preventing the completion of key test points, including ensuring that the F-35B delivered to the Marine Corps for IOC meets critical safety requirements; no redesign, schedule, or cost estimate for a long-term fix has been defined yet, thereby further impeding g testing;
  • Even in its third iteration, the F-35's helmet continues to show high false-alarm rates and computer stability concerns, seriously reducing pilots’ situational awareness and endangering their lives in combat;
  • The number of Block 2B's already limited combat capabilities being deferred to later blocks means that the Marine Corps’ FY2015 IOC squadron will be even less combat capable than originally planned;
  • ALIS software failures continue to impede operation, mission planning, and maintenance of the F-35, forcing the Services to be overly reliant on contractors and "unacceptable workarounds";
  • Deficiencies in Block 2B software, and deferring those capabilities to later blocks, is undermining combat suitability for all three variants of the F-35;
  • The program's attempts to save money now by reducing test points and deferring crucial combat capabilities will result in costly retrofits and fixes later down the line, creating a future unaffordable bow wave that, based on F-22 experience, will add at least an additional $67 billion in acquisition costs; and
  • Low availability and reliability of the F-35 is driven by inherent design problems that are only becoming more obvious and difficult to fix.

Three different types of data "massaging" are identified in the DOT&E report:[190] moving failures from one category to another, less important one; ignoring repetitive failures, thus inflating numbers of failure-free hours; and improper scoring of reliability.[191] Maintenance problems were determined to be so severe that the F-35 is only able to fly twice a week. To address the issue of wing drop and buffet maneuvering, the required control law modifications will reduce the maneuverability of the F-35, "only exacerbating the plane’s performance problems in this area". The F-35C's wing drop problem is "worse than other variants". Testing to investigate the impact of buffet and transonic roll-off (TRO or "wing drop") on the helmet-mounted display and offensive and defensive maneuvering found that "buffet affected display symbology, and would have the greatest impact in scenarios where a pilot was maneuvering to defeat a missile shot". Buffeting also degrades the gyroscopes in the inertial platforms which are essential for flight control, navigation, and weapons aiming. DOT&E explained that this was an ongoing issue: "In heavy buffet conditions, which occur between 20 and 26 degrees angle of attack, faults occurred in the inertial measurement units (IMUs) in the aircraft that degraded the flight control system (two of three flight control channels become disabled), requiring a flight abort".[192]

In early 2015 the AF-2 F-35A, the primary flight sciences loads and flutter evaluation aircraft, was flown by Lockheed Martin F-35 site lead test pilot David "Doc" Nelson in air-to-air combat maneuvers against F-16s for the first time and, based on the results of these and earlier flight-envelope evaluations, said the aircraft can be cleared for greater agility as a growth option. AF-2 was the first F-35 to be flown to 9g+ and −3g, and to roll at design-load factor. Departure/spin resistance was also proven during high angle-of-attack (AOA) testing which eventually went as high as 110 deg. AOA. "When we did the first dogfight in January, they said, ‘you have no limits,’" says Nelson. "It was loads monitoring, so they could tell if we ever broke something. It was a confidence builder for the rest of the fleet because there is no real difference structurally between AF-2 and the rest of the airplanes". "Pilots really like maneuverability, and the fact that the aircraft recovers so well from a departure allows us to say [to the designers of the flight control system laws], ‘you don’t have to clamp down so tight,’" says Nelson.[193]

With the full flight envelope now opened to an altitude of 50,000 ft, speeds of Mach 1.6/700 KCAS and loads of 9 g, test pilots also say improvements to the flight control system have rendered the transonic roll-off (TRO) issue tactically irrelevant. Highlighted as a "program concern" in the Defense Department's Director of Operational Test and Evaluation (DOT&E) 2014 report, initial flight tests showed that all three F-35 variants experienced some form of wing drop in high-speed turns associated with asymmetrical movements of shock waves. However, TRO "has evolved into a non-factor", says Nelson, who likens the effect to a momentary "tug" on one shoulder harness. "You have to pull high-g to even find it". The roll-off phenomena exhibits itself as "less than 10 deg./sec. for a fraction of a second. We have been looking for a task it affects and we can’t find one".[193]

In July 2015, Lockheed Martin confirmed the authenticity of a leaked report showing the F-35 to be less maneuverable than an older F-16D with wing tanks.[194][195] The pilot who flew the mission reported inferior energy maneuverability, a limited pitch rate and flying qualities that were "not intuitive or favorable" in a major part of the air-combat regime gave the F-16 the tactical advantage. In general the high AoA capabilities of the jet could not be used in an effective way without significantly reducing follow-on maneuvering potential. In an interview with CBC Radio broadcast 2 July 2015, military journalist David Axe claimed to have read the leaked report and stated: "Against a determined foe, the F-35 is in very big trouble".[196] However, the F-35 used was a flight test aircraft with a restricted flight envelope and lacked some features present on the operational aircraft.[197] The Pentagon, JPO, and defense analysts have defended the F-35's utility in spite of the report's assertion that it lacks maneuverability by saying it was designed primarily to disrupt the kill chain of advanced air defenses while the F-22 would handle close-in dogfighting, it has advanced sensor and information fusion capabilities to detect and engage enemy aircraft at long ranges before it can be seen and merged with, and that most air combat in recent decades has focused on sensors and weapons that achieved long-range kills rather than close combat.[198][199]

The report's conclusions and recommendations noted loads remained below limits, implying there may be more maneuverability available to the airframe. There were five recommendations: increase pitch rate and available Nz (Normal Acceleration g) to provide the pilot with more maneuverability options given the inherent energy deficit; consider increasing alpha onset to also help offset the energy maneuverability deficit; consider increasing the beginning of the high AoA blended region to 30 degrees or greater to make high AoA maneuvering more predictable and intuitive; consider increasing pilot yaw rate to remove the gradual sluggish yaw response; and improve HMD Boresight performance to account for dynamic maneuvers and consider improving rearward visibility by creating more space for helmet motion.[194][200]

On 14 April 2016 the Government Accountability Office (GAO) released a report on the $16.7 billion Autonomic Logistics Information System (ALIS) expressing concerns that a failure in the logistics system, which serves as the "brains" of the F-35, could ground the entire fleet because it lacked a back-up for processing data. ALIS supports everything from the plane's operations, pilot scheduling, mission planning and supply chain management to maintenance; it is therefore one of the three major components of the jet, along with the airframe and engine. GAO said one of the biggest concerns raised by 120 F-35 pilots, maintenance staff, contractors and program officials interviewed for the report was the lack of a redundant system for processing ALIS data. GAO noted "DOD is aware of risks that could affect ALIS but does not have a plan to prioritize and address them in a holistic manner to ensure that ALIS is fully functional as the F-35 program approaches key milestones – including Air Force and Navy initial operational capability declarations in 2016 and 2018, respectively, and the start of the program’s full-rate production in 2019". A Pentagon-commissioned study from 2013 concluded that any delays or problems with ALIS could add $20 billion to the F-35 program cost.[201][202] In a 2019 report, the DOT&E found that data provided by ALIS is often incorrect, leading to fighters being erroneously categorized as non-mission capable.[203]

In May 2016, Flightglobal reported that new Block 3i software was finally installed, improving reliability over earlier Block 3 software. With early Block 3 software, it was reported that aircraft had to be shut down and rebooted or a sensor or radar reset "every 4 hours", which was considered an "unacceptable" rate. According to Flightglobal, "F-35 programme director Lt Gen Christopher Bogdan told Congress...that a failure rate of once every 8-10h or greater would be more acceptable, and recent fixes now seem to have achieved that goal".[204]

Pentagon−Lockheed Martin relation issues

In September 2012, the Pentagon criticized, quite publicly, Lockheed Martin's performance on the F-35 program and stated that it would not bail out the program again if problems with the plane's systems, particularly the helmet-mounted display, were not resolved. The deputy F-35 program manager said that the government's relationship with the company was the "worst I've ever seen" in many years of working on complex acquisition programs. Air Force Secretary Michael Donley told reporters the Pentagon had no more money to pour into the program after three costly restructurings in recent years. He said the department was done with major restructuring and that there was no further flexibility or tolerance for that approach. This criticism followed a "very painful" 7 September review that focused on an array of ongoing program challenges. Lockheed Martin responded with a brief statement saying it would continue to work with the F-35 program office to deliver the new fighter.[205]

On 28 September 2012, the Pentagon announced that the F-35 Joint Strike Fighter support program would become an open competition. They invited companies to participate in a two-day forum on 14–15 November for possible opportunities to compete for work managing the supply chain of the aircraft. Their reason is to reduce F-35 life-cycle costs by creating competition within the program and to refine its acquisition strategy and evaluate alternatives that will deliver the best value, long-term F-35 sustainment solution. This could be hazardous to Lockheed Martin, the current prime contractor for sustainment of all three variants, and selection of another company could reduce their revenues.[206]

In 2013, the officer in charge of the program blamed Lockheed Martin and Pratt & Whitney for gouging the government on costs, instead of focusing on the long-term future of the program.[207]

In 2014, Lockheed was reported to be having problems with build quality, including one aircraft with a valve installed backwards and another with gaps in the stealth coating.[208]

Upgrades

In 2012 Lockheed Martin's development roadmap extended until 2021, and included a Block 6 engine improvement in 2019. The aircraft are expected to be upgraded throughout their operational lives.[209]

In September 2013, Northrop Grumman revealed the development of a company-funded Directional Infrared Counter Measures system in anticipation of a requirement to protect the F-35 from heat-seeking missiles. A laser jammer is expected to be part of the F-35 Block 5 upgrade; it must meet low-observability (LO) requirements and fit in the F-35's restricted space. Called the Threat Nullification Defensive Resource (ThNDR), it is to have a small, powerful laser, beam steering and LO window, use liquid cooling, and fit alongside the distributed aperture system (DAS) to provide spherical coverage with minimal changes; the DAS would provide missile warning and cue the jam head.[210]

Combat capabilities of the F-35 are made possible through software increments to advance technical abilities. Block 2A software enhanced simulated weapons, data link capabilities, and early fused sensor integration. Block 2B software enables the F-35 to provide basic close air support with certain JDAMs and the 500 lb GBU-12 Paveway II, as well as fire the AIM-120 AMRAAM. The Air Force is to declare the F-35 initially operational with Block 3i software. Full operational capability will come from Block 3F software; Block 3F enhances its ability to suppress enemy air defenses and enables the Lightning II to deploy the 500 lb JDAM, the GBU-53/B SDB II, and the AIM-9X Sidewinder. Block 4 software will increase the weapons envelope of the F-35 and is made to counter air defenses envisioned to be encountered past the 2040s. Block 4 upgrades will be broken into two increments; Block 4A in 2021 and Block 4B in 2023. This phase will also include usage of weaponry unique to British and other European countries who will operate Lightning II.[211]

Lockheed has offered the potential of "Higher Definition Video, longer range target detection and identification, Video Data Link, and Infrared (IR) Marker and Pointer" for the EOTS in future upgrades.[212]

The contract for follow-on modernization work (after Block 4) is expected to be awarded in late 2018,[213][needs update] with a new block upgrade every two years thereafter as threats evolve.[214] These will alternate hardware and software upgrades, with each refreshed once every four years.[215]

In 2016 Robert Weiss, executive vice president of Lockheed Martin Aeronautics, said that buying more F-35s now would make it cheaper to apply planned upgrades to the entire fleet later.[216]

Notes

  1. ^ Quote: "The F-35 Lightning II will carry on the legacy of two of the greatest and most capable fighter aircraft of all time. Just as the P-38 and the British Lightning were at the top of their class during their day, the F-35 will redefine multi-role fighter capability in the 21st century". Ralph D. Heath, president of Lockheed Martin Aeronautics Co.[23]

References

  1. ^ Story, Courtesy (31 July 2015). "U.S. Marines Corps declares the F-35B operational". www.marines.mil. Headquarters Marine Corps. Retrieved 31 July 2015.
  2. ^ Reed Business Information Limited. "US Marines stick to F-35B dates despite new problems". flightglobal.com. Retrieved 25 May 2015. {{cite web}}: |author= has generic name (help)
  3. ^ "F-35B on track for operational readiness despite software challenges". janes.com. Archived from the original on 29 April 2015. Retrieved 25 May 2015.
  4. ^ "U.S. Air Force eyes future F-35 engine and arms upgrades". Reuters. 7 April 2015. Retrieved 25 May 2015.
  5. ^ "The Current Status of the F-35, in Three Charts". Intercepts – Defense News. Archived from the original on 2016-12-06. Retrieved 2017-08-18.
  6. ^ F-35 Program Information – Non Export Controlled Information Archived 2014-02-21 at the Wayback Machine Keith P. Knotts, 9 July 2013
  7. ^ a b c Barrett, Paul (April 10, 2017). "Danger Zone". Bloomberg Businessweek. pp. 50–55..
  8. ^ "F-35 Program Costs Jump to $406.5 Billion in Latest Estimate". Bloomberg.com. Bloomberg. 10 July 2017.
  9. ^ "F-35 Joint Strike Fighter (JSF) Lightning II". Global Security. Retrieved: 7 April 2010.
  10. ^ "Lockheed Martin F22 and F35 5th Gen Revolution In Military Aviation". Space Daily, 22 February 2006.
  11. ^ a b Keijsper 2007, p. 119.
  12. ^ Polmar 2005, p. 398.
  13. ^ Parsch, Andreas. "Designation Systems". Designation Systems, 27 April 2006. Retrieved 23 November 2009.
  14. ^ Thompson, Mark. "The Most Expensive Weapon Ever Built". Time magazine, 25 February 2013, pp. 26–30 (lack of 2-seat trainer variants cited on p. 27).
  15. ^ Orlando, Dave (22 February 2013). "USAF may not be able to afford T-X jet trainer project". Flightglobal. Archived from the original on 27 February 2013. Retrieved 24 February 2013.
  16. ^ Keijsper 2007, pp. 122, 124.
  17. ^ Hehs, Eric (15 May 2008). "X to F: F-35 Lightning II And Its X-35 Predecessors". Code One Magazine. Lockheed Martin. Retrieved 18 July 2014.
  18. ^ "Outgoing F-35 programme boss shares hard won lessons". flightglobal.com. Archived from the original on 20 October 2013. Retrieved 2 February 2015.
  19. ^ Fulghum, David A. and Robert Wall. "USAF Plans for Fighters Change". Aviation Week and Space Technology, 19 September 2004.
  20. ^ Keijsper 2007, p. 124,
  21. ^ Pappalardo, Joe (November 2006). "Weight Watchers: How a team of engineers and a crash diet saved the Joint Strike Fighter". Air & Space Magazine. Archived from the original on 25 May 2014. Retrieved 1 April 2013.
  22. ^ "'Lightning II' moniker given to Joint Strike Fighter". Air Force Link, United States Air Force, 7 June 2006. Retrieved 1 December 2008.
  23. ^ Kent, John R.; Smith, John (7 July 2006). "F-35 Joint Strike Fighter was officially named Lightning II". Lockheed Martin. Archived from the original on 3 January 2013. (DOC) via jsf.mil Archived 2006-07-15 at the Wayback Machine
  24. ^ "F-35 Distributed Aperture System (EO DAS)" Archived 2010-04-02 at the Wayback Machine. Northrop Grumman. Retrieved 6 April 2010.
  25. ^ "Italy Wins JSF Final Assembly: U.K. Presses Maintenance, Support". Aviation Week, February 2013.
  26. ^ "Handling Specialty Turn Key Capabilities". Archived 11 March 2012 at the Wayback Machine handling.com. Retrieved: 16 November 2010.
  27. ^ Kent, John R.; Stout, Joseph W. (23 December 2008). "Weight-Optimized F-35 Test Fleet Adds Conventional Take off And Landing Variant". Lockheed Martin. Archived from the original on 3 January 2013. Retrieved 23 November 2009.
  28. ^ Moore, Mona. "F-35 production on target". Northwest Florida Daily News, 5 January 2009, Volume 62, Number 341, p. A1.
  29. ^ Gearan, Anne. "Defense Secretary Gates proposes weapons cuts". Archived 24 May 2009 at the Wayback Machine The Seattle Times, 7 April 2009.
  30. ^ "Producing, Operating and Supporting a 5th Generation Fighter". F-35 Lightning II. Lockheed Martin. Archived from the original on July 17, 2014. Retrieved November 8, 2015.
  31. ^ GAO-06-356, "DOD Plans to Enter Production before Testing Demonstrates Acceptable Performance". GAO, March 2006.
  32. ^ "untitled" (PDF).
  33. ^ GAO-11-233SP, "Defense Acquisitions: Assessments of Selected Weapon Programs". Gao.gov, 29 August 2008. Retrieved 4 December 2011.
  34. ^ "FY 2011 Budget Estimates". Archived 4 March 2012 at the Wayback Machine U.S. Air Force, February 2010, pp. 1–47.
  35. ^ McPhedran, Ian (25 August 2010). "Stealth fighters cheap at $140m". Herald Sun. Retrieved 21 October 2010.
  36. ^ "U.S. Program Acquisition Costs by Weapon System". defense-aerospace.com. 14 February 2011. Archived from the original on 20 April 2011. Retrieved 6 April 2011.
  37. ^ Office of the Under Secretary of Defense (Comptroller) / CFO (February 2011). "Program Acquisition Costs By Weapon System" (PDF). comptroller.defense.gov. Archived from the original (PDF) on 21 January 2012. Retrieved 6 April 2011.
  38. ^ Gorman, Siobhan. "Computer Spies Breach Fighter-Jet Project". The Wall Street Journal, 21 April 2009. Retrieved 29 March 2010.
  39. ^ Cullen, Simon. "Jet maker denies F-35 security breach". Australian Broadcasting Corporation, 22 April 2009. Retrieved 29 March 2010.
  40. ^ Fulghum, David; Sweetman, Bill; Butler, Amy (8 February 2012). "China's Role In JSF's Spiraling Costs". Aviation Week.
  41. ^ Baker, Berenice (12 March 2012). "BAE Systems 'hacked by Chinese spies". Strategic Defense Intelligence. Archived from the original on 1 March 2014. Retrieved 18 July 2014.
  42. ^ Bennett, John T. "Plan Afoot to Halt F-35 Cost Hikes, Delays".[dead link] defensenews.com, 9 November 2009. Retrieved 23 November 2009.
  43. ^ Clark, Colin. "Gates Fires JSF Program Manager" Archived 2014-12-08 at the Wayback Machine. dodbuzz.com, 1 February 2010. Retrieved 21 March 2010.
  44. ^ Cox, Bob (2 February 2010). "Gates Criticizes F-35 Progress, Fires Top Officer" (PDF). Star-Telegram. Dallas-Fort Worth, Texas. Archived from the original (PDF) on 25 July 2014. Retrieved 24 June 2011.
  45. ^ "JSF faces US Senate grilling". australianaviation.com.au, 12 March 2010.
  46. ^ Shalal-Esa, Andrea and Tim Dobbyn, ed. "Price of F35 fighter soars". Reuters. Retrieved: 12 September 2011.
  47. ^ Shalal-Esa, Andrea (1 June 2010). "Lockheed F-35 to beat Pentagon estimate by 20 pct". Reuters. Retrieved 18 July 2014.
  48. ^ Thompson, Mark. "The Costly F-35: The Saga of America's Next Fighter Jet". Time, 25 March 2010.
  49. ^ Trimble, Stephen. "Fix for F-35 final assembly problem pushed back". [dead link] Flight International, 16 August 2010. Retrieved: 24 August 2010.
  50. ^ Clark, Colin. "Prez Panel Wants $100B DoD Cut; Freeze Pay, Kill F-35B, EFV" Archived 2014-12-06 at the Wayback Machine. DoDBuzz, 10 November 2010.
  51. ^ $200 billion in illustrative savings Archived 19 November 2010 at the Wayback Machine point 47 National Commission on Fiscal Responsibility and Reform, 10 November 2010.
  52. ^ "Lockheed F–35 Fighter In Deficit Panel's Sights". The New York Times, 10 November 2010.
  53. ^ Tirpak, John A. "Shorting the F-35". Archived 2 December 2010 at the Wayback Machine Air Force Association, 15 November 2010.
  54. ^ Thompson, Loren B. "Rumor Of Marine F-35 Termination Talks Is Wrong". Lexington Institute, 15 November 2010.
  55. ^ Thompson, Loren. "Pentagon Factional Disputes Are A Key Driver Of F-35 Cost Increases". Lexington Institute, 1 November 2010.
  56. ^ Trimble, Stephen. "Lockheed's F-35 faces second restructuring this year". Archived 6 November 2010 at the Wayback Machine Flight International, 3 November 2010.
  57. ^ "Lockheed Martin F-35 Begins Flying Block 1 Software". Lockheed Martin, 15 November 2010.
  58. ^ Hoyle, Craig. "Can Lockheed deliver on the Joint Strike Fighter dream? " Archived 13 January 2011 at the Wayback Machine Flight International, 14 December 2010.
  59. ^ Warwick, Graham and Amy Butler. "F-35 Replan Adds Time, Resources For Testing". Aviation Week, 8 February 2011.
  60. ^ Charette, Robert N. "F-35 Program Continues to Struggle with Software". IEEE Spectrum, 19 September 2012.
  61. ^ Whittle, Richard. "JSF's Build And Test Was 'Miscalculation,' Adm. Venlet Says; Production Must Slow". Archived 4 December 2011 at the Wayback Machine Aol Defense, 1 December 2011.
  62. ^ Cox, Bob. "Pentagon takes a harder line with Lockheed Martin over F-35". Star-Telegram, 26 October 2011. Archived 28 October 2012 at the Wayback Machine
  63. ^ Thompson, Loren. "Why Pentagon Weapon 'Efficiencies' Are Often An Illusion". Forbes, 1 November 2011.
  64. ^ Katz, Yaakov. "Will Iran influence pick for next IAF commander?" The Jerusalem Post, 4 December 2011.
  65. ^ DiMascio, Jen. "McCain Backs Hard-Line Pentagon F-35 Stance". Aviation Week, 18 November 2011. [dead link]
  66. ^ Clark, Colin. "McCain Slams JSF, Calls Program 'Scandal And A Tragedy;' Contract Talks Advance". Archived 31 August 2012 at the Wayback Machine Aol Defense, 5 December 2011.
  67. ^ "US defence firms blast Pentagon on contract changes: companies warn of layoffs, higher costs". Archived 10 March 2012 at the Wayback Machine Reuters, 12 December 2011.
  68. ^ "GAO-12-525T: Restructuring Added Resources and Reduced Risk, but Concurrency Is Still a Major Concern". GAO. 20 March 2012.
  69. ^ Pincus, Walter. "Slack budgeting at Defense". Washington Post, 6 June 2012.
  70. ^ Howell, Martin; Briand, Xavier, eds. (9 March 2013). "Exclusive: Retrofits to add $1.7 billion to cost of F-35 – GAO report". news.terra.com. Foto: Lockheed Martin / Reuters. Reuters. Archived from the original on 25 May 2014. Retrieved 24 May 2014.
  71. ^ Trimble, Stephen. "US military unveils possible F-35B redesign in sweeping budget reforms". Archived 11 January 2011 at the Wayback Machine Flight International, 6 January 2011.
  72. ^ Gates, Robert. "Speech to Air Force Academy". Archived 4 March 2011 at the Wayback Machine defense.gov, 4 March 2011. Retrieved 8 March 2011.
  73. ^ Rabechault, Mathieu. "F-35 looking more like white elephant". Yahoo News, 13 January 2011.
  74. ^ Marshall, Tyrone C. Jr. "Panetta Lifts F-35B Probation". Aviation Week, 20 January 2012.
  75. ^ Fulghum, David A. "Repairing the F-35 Program". Aviation Week, 10 February 2011.
  76. ^ Majumdar, Dave. "F-35 Tests Proceed, Revealing F/A-18-Like Performance". Defense News, 16 May 2011.
  77. ^ Shalal-Esa, Andrea (21 May 2013). "U.S. Air Force To Move Forward Target Date For F-35 Use". Aviation Week. Archived from the original on 27 October 2013.
  78. ^ "Program Restructuring Should Improve Outcomes, but Progress Is Still Lagging Overall" Archived 2011-07-16 at the Wayback Machine. star-telegram.com, 15 March 2011.
  79. ^ Trimble, Stephen (4 June 2010). "USAF rules out new F-15s and F-16s to narrow 'fighter gap'". Flight International. Archived from the original on 12 August 2011.
  80. ^ "Israel eyes used F-15s to fill for F-35s". United Press International. 18 April 2011.
  81. ^ "Australia may buy more Super Hornets amid F-35 delays: report". Reuters, 13 May 2011.
  82. ^ "Lockheed Addressing F-35 ‘Development Risks,’ Congress Told". Bloomberg News, 19 May 2011.
  83. ^ "The last manned fighter". The Economist, 14 July 2011.
  84. ^ Capaccio, Tony. "Pentagon Cuts Four Lockheed Jets From Next Order, Pentagon Says". Bloomberg, 26 October 2011.
  85. ^ Lerman, David. "Pentagon Budget for 2013 Calls for Two Fewer of Lockheed’s F-35 Fighters". Bloomberg News. 13 February 2012.
  86. ^ Gibbs, Walter. "U.S. slowdown on F-35 jet buy to raise cost: Lockheed". Reuters, 14 February 2012.
  87. ^ "Pentagon, Lockheed see price of F-35 going up". Reuters. 14 February 2012.
  88. ^ "Japan tells U.S. it may halt F-35 purchase if prices rise". Mainichi Japan. 23 February 2012.
  89. ^ Shalal-Esa, Andrea. "'No more money' for F-35 cost overruns: Pentagon". Reuters, 20 March 2012.
  90. ^ Shalal-Esa, Andrea. "Pentagon says F-35 fighter delayed, costs rise 4.3 percent". Reuters, 29 March 2012.
  91. ^ Cox, Bob (8 May 2012). "Pentagon to tie F-35 orders more closely to development and testing progress". Star Telegram. Archived from the original on 18 May 2012.
  92. ^ "F-35 – Avoiding the 'Death Spiral'". 14 March 2013.
  93. ^ Capaccio, Tony (15 February 2014). "Pentagon Said to Seek 34 Lockheed F-35s Instead of 42". bloomberg.com. Bloomberg L.P. Retrieved 18 February 2014.
  94. ^ Campion-Smith, Bruce. "Canada may not buy F-35 fighter jets, Ottawa admits". The Star, 13 March 2012. Retrieved 23 March 2012.
  95. ^ "The F-35: Not just costly but obsolete; To aviation nerds, the Joint Strike Fighter is looking more and more like an ugly mutt". Maclean's, 13 April 2012.
  96. ^ "Pentagon's F-35 Fighter Under Fire in Congress". PBS. Archived from the original on 9 October 2010. Retrieved 22 August 2010.
  97. ^ "41st Parliament, 1st Session, Standing Committee on National Defence". Parliament of Canada, 24 November 2011.
  98. ^ Shalal-Esa, Andrea. "Government sees lifetime cost of F-35 fighter at $1.51 trillion". Reuters, 2 April 2012.
  99. ^ Butler, Amy. "USAF Reducing Possible JSF Basing Locations". Aviation Week. 2 March 2012.
  100. ^ "Lockheed Martin Statement on 2011 SAR Report". Lockheed Martin. 31 March 2012. Archived from the original on 1 April 2012.
  101. ^ Williams, Peter. "Quickstep finds cash harder to come by". The West Australian, 4 January 2012.
  102. ^ Weisgerber, Marcus. "DoD Anticipates Better Price on Next F-35 Batch". Defense News. 8 March 2012.
  103. ^ Four Corners By Andrew Fowler and Clay Hichens (18 February 2013). "Pentagon general issues warning on JSF blow-outs". Australian Broadcasting Corporation. Retrieved 24 February 2013.
  104. ^ "3-star: F-35 comments a 'shot across the bow'". Archived from the original on 2013-04-11.
  105. ^ Weisgerber, Marcus. "Schwartz defends reduced F-35 combat radius". AirForce Times. 6 March 2012.
  106. ^ "Pentagon agrees to F-35A combat radius reduction". Flight International, 8 March 2012.
  107. ^ "JSFail? Not When the Pentagon Grades the F-35 on a Curve". DefPro.News, 7 March 2012.
  108. ^ Regan, James. "U.S. seeks to ease concerns over F-35 delays, costs".[dead link] Reuters, 15 March 2012.
  109. ^ "U.S. weapons maker pushes back at Pentagon". Reuters, 1 June 2012.
  110. ^ Shalal-Esa, Andrea (1 June 2012). "Lockheed hires temps at strike-hit Fort Worth plant". Chicago Tribune. Reuters.[dead link]
  111. ^ Shalal-Esa, Andrea. "Lockheed F-35 scrap rate at 16 percent – Pentagon". Reuters, 8 June 2012.
  112. ^ Shalal-Esa, Andrea. "Lockheed brings in more workers as strike drags on". Reuters, 14 June 2012.
  113. ^ "Fitch lowers Lockheed Martin outlook to negative". Trefis. 13 June 2012. Archived from the original on 2013-10-17.
  114. ^ "Lockheed says more orders key to cutting F-35 cost". Reuters, 19 June 2012.
  115. ^ Freeman, Ben. "The Guerilla Warfare of Pentagon Contractors". POGO, 21 June 2012.
  116. ^ Wheeler, Winslow. "How the F-35 Nearly Doubled In Price (And Why You Didn’t Know)". Time, 9 July 2012.
  117. ^ Cox, Bob (24 July 2012). "Pentagon tightens grading standards, cuts into Lockheed profits". Star-Telegram. Archived from the original on 2012-07-28.
  118. ^ Capaccio, Tony. "Pentagon Withholds $47 Million From Lockheed on F-35". Business Week, 26 October 2012.
  119. ^ Barber, Barrie (26 November 2012). "Air Force accused of wrong cost estimates to keep F-16s flying". Daytondailynews.com. Retrieved 24 February 2013.
  120. ^ Robinson, Tim (20 June 2013). "Paris Air Show 2013 – Day 3". media.aerosociety.com. Archived from the original on 31 July 2013. Retrieved 16 August 2013.
  121. ^ "Lockheed lays off 110 workers at Fort Worth assembly plant". The Business Journals. 10 January 2013.
  122. ^ "F-35 concurrency costs not as great as feared, official says". Janes. 5 February 2013. Archived from the original on 11 April 2013.
  123. ^ "With 45 states plugged into F-35 program, stealth fighter is too big to kill". Ipolitics.ca. Archived from the original on 17 October 2013. Retrieved 24 February 2013.
  124. ^ Shalal-Esa, Andrea (12 March 2013). "Pentagon vows to 'protect' funding for F-35 if possible". Reuters. Retrieved 18 July 2014.
  125. ^ Raghavendran, Beena (25 April 2013). "Pentagon's budget cuts could slow F-35 program, Congress told". Stars and Stripes. McClatchy Newspapers.
  126. ^ McGarry, Brendan (26 December 2013). "Experts to Study F-35 Software Delays". defensetech.org. Military Advantage. Retrieved 4 January 2014.
  127. ^ Mehta, Aaron (14 January 2014). "After 'Transformative' Year, F-35 Program Focuses on Software, Quantity". defensenews.com. Gannett Government Media Corporation. Archived from the original on 14 January 2014. Retrieved 14 January 2014.
  128. ^ F-35 No Longer the Problem Child Archived 19 December 2013 at the Wayback Machine. Airforcemag.com (14 June 2013). Retrieved on 16 August 2013.
  129. ^ Sweetman, Bill (1 July 2013). "More F-35 Delays Predicted". Aviation Week. Retrieved 18 July 2014.
  130. ^ Capaccio, Tony (1 August 2013). "Canceling Lockheed F-35 Said to Be Among Pentagon Options". Bloomberg News. Retrieved 18 July 2014.
  131. ^ Shalal-Esa, Andrea (1 August 2013). "Pentagon downplays prospects of cancelling F-35, bomber". Reuters. Retrieved 18 July 2014.
  132. ^ Spence", Katie (3 August 2013). "Is Lockheed's F-35 About to Become a Victim of Sequestration?". The Motley Fool. Retrieved 18 July 2014.
  133. ^ O'Bryan, Steve (21 August 2013). "F-35 Lightning II Program". Washington Journal (Interview). Interviewed by Greta Wodele Brawner. Archived from the original on 25 May 2014. Retrieved 24 May 2014. {{cite interview}}: Unknown parameter |agency= ignored (help) Video not archived.
  134. ^ Capaccio, Tony (17 December 2013). "Report: F-35's one-jet approach more costly for military". star-telegram.com. Bloomberg News. Retrieved 17 December 2013.
  135. ^ Paul Barrett. "Danger Zone". Bloomberg Businessweek. 10 April 2017, pp. 50-55.
  136. ^ Isby, David C. "Status of the Joint Strike Fighter". Air International, January 2014, p. 86. Accessed: 17 June 2014.
  137. ^ Capaccio, Tony (22 January 2014). "Lockheed Martin Inflates F-35 Jobs Claims, Nonprofit Says". bloomberg.com. Bloomberg L.P. Retrieved 22 January 2014.
  138. ^ Shalal-Esa, Andrea (23 January 2014). "Exclusive: Pentagon report faults F-35 on software, reliability". Reuters.com. Thomson Reuters. Retrieved 23 January 2014.
  139. ^ a b "Archived copy" (PDF). Archived from the original (PDF) on 2015-01-31. Retrieved 2017-08-01.{{cite web}}: CS1 maint: archived copy as title (link)
  140. ^ Shalal-Esa, Andrea (24 January 2014). "Pentagon F-35 program says 'laser-focused' on software issues". reuters.com. Thomson Reuters. Retrieved 26 January 2014.
  141. ^ Shalal, Andrea (16 June 2014). "McCain questions 'cronyism' on Lockheed F-35 program". news.yahoo.com. Reuters. Retrieved 17 June 2014.
  142. ^ Clark, Colin (22 September 2014). "GAO Draft Slams F-35 On 'Unaffordable' Costs: $8.8B Over Legacy Fighters". breakingdefense.com. Breaking Media, Inc. Retrieved 22 September 2014.
  143. ^ a b Department of Defense (2015). Selected Acquisition Report (SAR) – F-35 Joint Strike Fighter Aircraft (F-35) Archived 2014-08-02 at the Wayback Machine. Retrieved 25 May 2015.
  144. ^ Robbert, Albert A., Costs of Flying Units in Air Force Active and Reserve Components Archived 3 September 2015 at the Wayback Machine, USAF, ISBN 978-0-8330-7666-3, retrieved 25 May 2015
  145. ^ "Farnborough 2014: Officials announce F-35 affordability measures". janes.com. Archived from the original on 25 February 2015. Retrieved 21 March 2015.
  146. ^ "DoD Acquisition Starting To Turn Corner? F-35 Costs Down 2%". Breaking Defense. 19 March 2015. Retrieved 21 March 2015.
  147. ^ "F-35 FY2017 Selected Acquisition Report" (PDF). Department of Defense. Retrieved 6 August 2016.
  148. ^ FY15 DOD Programs. "F-35 Joint Strike Fighter (JSF)" (PDF). dote.osd.mil. Archived from the original (PDF) on 12 March 2016.{{cite web}}: CS1 maint: numeric names: authors list (link)
  149. ^ "Test Report Points to F-35's Combat Limits". aviationweek.com. Retrieved 24 November 2016.
  150. ^ "A Digital Jet for the Modern Battlespace". www.f35.com. Lockheed Martin Corporation. May 2015. Archived from the original on 2 July 2020. Retrieved 24 March 2016.
  151. ^ Seligman, Lara (10 February 2016). "F-35 Chief Lays Out Biggest Development Risks". www.defensenews.com. TEGNA. Retrieved 24 March 2016.
  152. ^ Drew, James (27 April 2016). "F-35 chief considers fix for troubling Block 3i software faults". www.flightglobal.com. RBI. Retrieved 26 April 2016.
  153. ^ Seligman, Lara (9 May 2016). "F-35 Test Flights Struggle To Boot Up, But Jets Fly On". www.defensenews.com. Defense News. Retrieved 9 May 2016.
  154. ^ Insinna, Valerie (21 June 2016). "F-35 Software Runs Smoothly During Mountain Home Deployment". www.defensenews.com. Defense News. Retrieved 21 June 2016.
  155. ^ Kent, John R. "Setting the Record Straight On F-35". Lockheed Martin, 19 September 2008.
  156. ^ Sweetman, Bill. "JSF Leaders Back In The Fight". Aviation Week, 22 September 2008. Retrieved 3 July 2010.
  157. ^ "Lockheed Martin briefing package for Norway" (PDF). Lockheed Martin. 24 April 2008. Archived from the original (PDF) on 12 October 2012.
  158. ^ Pocock, Chris. "LM defends F-35 JSF agility against critics". Aviation International News, 15 June 2009.
  159. ^ "F-35A achieves max angle of attack". Australianaviation.com.au. 20 November 2012.
  160. ^ Thompson, Loren B. "F-35 Fighter Confounding Critics As Flight Tests Ramp Up". Lexington Institute, 1 March 2011.
  161. ^ Entous, Adam. "U.S.-Saudi Arms Plan Grows to Record Size: Addition of Apaches, Black Hawks Swells Deal to $60 billion". The Wall Street Journal, 14 August 2010. Retrieved 16 August 2010.
  162. ^ "First RAF pilot flies Joint Strike Fighter". British Ministry of Defence via Defence News, 9 February 2010.
  163. ^ Wolf, Jim. "Exclusive: US to withhold F-35 fighter software codes". Reuters, 24 November 2009. Retrieved: 12 September 2011.
  164. ^ "U.S. Export Controls and Technology Transfer Requirements - A United Kingdom Perspective" (PDF). Archived from the original (PDF) on 2 February 2015. Retrieved 2 February 2015.
  165. ^ Majumdar, Dave (4 November 2014). "Foreign F-35 Partners Allowed More Freedom to Customize Fighter Software". usni.org. USNI. Retrieved 2 April 2016.
  166. ^ Broderick, Tim (3 November 2016). "The U.S. Military Fears Russia's Electronic Warfare Capabilities. DARPA Might Have a Solution". nationalinterest.org. The National Interest. Retrieved 4 November 2016.
  167. ^ Stevens, Geoff (31 January 2011). "Single-engine F-35's may endanger Canadian crews". TheRecord. Archived from the original on 27 September 2011. Retrieved 1 August 2017.
  168. ^ Axe, David (13 December 2011). "Trillion-Dollar Jet Has Thirteen Expensive New Flaws". Wired.
  169. ^ "F-35 Joint Strike Fighter Concurrency Quick Look Review" (PDF). Department of Defense. 29 November 2011. Retrieved 25 January 2012.
  170. ^ Auslin, Michael (7 May 2012). "Flying Not Quite as High". Weekly Standard.
  171. ^ "U.S., Lockheed Martin reach deal on Israeli F-35 fighter jets". Haaretz. Reuters. 26 July 2012.
  172. ^ Goon, Peter. "Joint Strike Fighter". Retrieved 19 January 2015.
  173. ^ "Parliamentary Joint Committee on Foreign Affairs, Defence and Trade, Department of Defence annual report 2010–1". Parliament of Australia. 16 March 2012. Archived from the original on 7 September 2016. Retrieved 6 June 2012.
  174. ^ "Report: Lightning a threat to F-35". Navy Times
  175. ^ Shaw, Mitch (16 April 2015). "F-35 'Lightning' now OK to fly in lightning storms". www.standard.net. Ogden Publishing Corporation. Retrieved 22 November 2016.
  176. ^ Shachtman, Noah. "Gajillion-Dollar Stealth Fighter, Now Easier to Shoot Down". Wired, 11 June 2010.
  177. ^ "Reduced F-35 performance specifications may have significant operational impact". Flight International. 30 January 2013. Retrieved 24 February 2013.
  178. ^ "F-35B sea-trials aboard the USS Wasp". The DEW Line. Archived from the original on 2017-08-09. Retrieved 2017-08-01.
  179. ^ Capaccio, Tony (8 February 2013). "Pentagon Mulls Restoring F-35 Safety Gear to Reduce Risk". Bloomberg. Retrieved 24 February 2013.
  180. ^ "F-35 May Miss Acceleration Goal". Defense News. Archived from the original on 2013-08-31.
  181. ^ "New Pentagon super fighter will get pilots shot down, warns report". The Washington Times.
  182. ^ "Is there a government conspiracy to save the F-35?". Foreign Policy. 25 March 2013.
  183. ^ "F-35 Report Warns of Visibility Risks, Other Dangers". Defense News. Archived from the original on 2013-04-10.
  184. ^ "Top Tester Says F-35A 'Immature' For Training; JPO Says 'Ready For Training'". Breaking Defense. Archived from the original on 18 March 2013.
  185. ^ "Stealth Curbed By Uncertainty Over Acquisition And Support Costs". Archived from the original on 27 October 2013.
  186. ^ "Pentagon's big budget F-35 fighter 'can't turn, can't climb, can't run'". Reuters. 14 July 2014. Archived from the original on July 15, 2014. Retrieved 20 January 2015.
  187. ^ Minnick, Wendell (22 November 2014). "China's Anti-Stealth Radar Comes to Fruition". Defence News. Archived from the original on 24 November 2014. Retrieved 25 November 2014.
  188. ^ "Defense.gov Transcript: State of the Air Force press briefing by Secretary James and General Welsh in the Pentagon Briefing Room". defense.gov. Retrieved 4 February 2015.
  189. ^ "'DOT&E Report: The F-35 Is Not Ready for IOC and Won't Be Any Time Soon'". 12 March 2015. Archived from the original on 14 March 2015. Retrieved 12 March 2015.
  190. ^ "'FY 2014 Programs: F-35 Joint Strike Fighter'" (PDF). 20 January 2015. Archived from the original (PDF) on 31 January 2015. Retrieved 12 March 2015.
  191. ^ "'F-35 Program Massages Flight Test Results'". 19 January 2015. Retrieved 12 March 2015.
  192. ^ "Not Ready for Prime Time". Project On Government Oversight. Archived from the original on 11 June 2015. Retrieved 11 June 2015.
  193. ^ a b "F-35 Tested Against F-16 In Basic Fighter Maneuvers – Defense content from Aviation Week". aviationweek.com. Retrieved 11 June 2015.
  194. ^ a b War Is Boring. "Read for Yourself — The F-35's Damning Dogfighting Report — War Is Boring". Medium. Retrieved 31 July 2015.
  195. ^ Lockheed Martin (14 January 2015). "F-35A High Angle of Attack Operational Maneuvers" (PDF). Aviation Week. Archived from the original (PDF) on 14 July 2015. Retrieved 6 February 2022.
  196. ^ "Leaked dogfight test reveals that F-35 jet is in 'very big trouble'". As it happens. Canadian Broadcasting Corporation. 3 July 2015. Retrieved 3 July 2015.
  197. ^ "Controversy Flares Over F-35 Air Combat Report". Aviation Week & Space Technology. July 2, 2015.
  198. ^ You Say The F-35 Can’t Dogfight? I Say Good. – LexingtonInstitute.org, 30 June 2015
  199. ^ F-16 Vs. F-35 In A Dogfight: JPO, Air Force Weigh In On Who’s Best – Breakingdefense.com, 2 July 2015
  200. ^ "Export Controlled Information". Lockheed Martin Proprietary.
  201. ^ "Risks seen with Lockheed's F-35 fighter logistics". Reuters. 14 April 2016.
  202. ^ "F-35 Joint Strike Fighter: DOD needs a plan to address risks related to its Central Logistics System" (PDF). GAO. 14 April 2016.
  203. ^ Insinna, Valerie (January 31, 2019). "Bad data in F-35 logistics system resulting in lost missions". Sightline Media Group.
  204. ^ Drew, James (9 May 2016). "F-35 locked and loaded with improved Block 3i software". Flight Global. Retrieved 18 May 2016.
  205. ^ "Pentagon Tells Lockheed to Shape Up on F-35 Fighter". Reuters.com, 17 September 2012.
  206. ^ "Pentagon seeks competition for sustainment of Lockheed F-35".[dead link] Chicago Tribune, 28 September 2012.
  207. ^ Lerman, David (28 February 2013). "Pentagon Escalates Rhetoric Against Lockheed Over F-35". Bloomberg L.P.
  208. ^ Martin, David (16 February 2014). "Is the F-35 worth it?". cbsnews.com. CBS Interactive Inc. Retrieved 16 February 2014.
  209. ^ Byers, Michael; Webb, Stewart (30 October 2012). "Michael Byers & Stewart Webb on the F-35: The plane that keeps on billing". fullcomment.nationalpost.com. Postmedia Network. Archived from the original on 2013-01-30. Retrieved 20 April 2014.
  210. ^ Warwick, Graham (12 September 2013). "Northrop Develops Laser Missile Jammer For F-35". aviationweek.com. Image credit:Northrop Grumman. Archived from the original on 20 April 2014. Retrieved 20 April 2014.
  211. ^ Osborn, Kris (16 April 2014). "Pentagon Develops F-35's 4th Generation Software". defensetech.org. Archived from the original on 20 April 2014. Retrieved 20 April 2014.
  212. ^ Starks, Tim (6 January 2015). "Lockheed Martin on F-35: No Gun Software Glitch; Sensor Upgrades Expected". rollcall.com. Economist Group. Archived from the original on 7 January 2015. Retrieved 7 January 2015.
  213. ^ Seligman, Lara (24 March 2016). "Bogdan, GAO at Odds Over F-35 Upgrade Program". www.defensenews.com. Defense News. Retrieved 30 March 2016.
  214. ^ Osborn, Kris (27 April 2016). "F-35 Stealth Fighter Prepares for the Unthinkable: War with China or Russia". www.nationalinterest.org. The National Interest. Retrieved 27 April 2016.
  215. ^ Tegler, Eric (26 April 2016). "Israel's F-35 App And Its Implications". Aviation Week & Space Technology. Retrieved 29 June 2016.
  216. ^ Erwin, Sandra I. (17 December 2016). "F-35 New Year's Wish". www.realcleardefense.com. National Defense Magazine. Retrieved 17 December 2016.
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