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Showing posts with label United States Air Force. Show all posts
Showing posts with label United States Air Force. Show all posts

Tuesday, 14 June 2011

China, Russia Could Make U.S. Stealth Tech Obsolete





By David Axe, Wired News


It’s been a pillar of the U.S. military’s approach to high-tech warfare for decades. And now, it could become obsolete in just a few years.

Stealth technology — which today gives U.S. jets the nearly unparalleled ability to slip past hostile radar — may soon be unable to keep American aircraft cloaked. That’s the potentially startling conclusion of a new report from Barry Watts, a former member of the Pentagon’s crystal-ball-gazing Office of Net Assessment and current analyst with the Center for Strategic and Budgetary Assessments in Washington.

“The advantages of stealth … may be eroded by advances in sensors and surface-to-air missile systems, especially for manned strike platforms operating inside defended airspace,” Watts cautions in his 43-page report The Maturing Revolution in Military Affairs (.pdf), published last week.

That could come as a big shock to the U.S. Air Force, which has bet its future on radar-dodging technology, to the tune of half-a-trillion dollars over the next 30 years. The Navy, on the other hand, might have reason to say, “I told you so.”

That is, if Watts’ prediction comes true — and that’s a big “if,” the analyst admits.

“In recent years there has been speculation that ongoing advances in radar detection and tracking will, in the near future, obviate the ability of all-aspect, low-observable aircraft such as the B-2, F-22 and F-35 Joint Strike Fighter, aka JSF, to survive inside denied airspace,” Watts writes, referring to America’s stealth bombers and fighter jets.



Stealth-killing advances include VHF and UHF radars being developed by Russia and China, and a “passive-detection” system devised by Czech researchers. The latter “uses radar, television, cellular phone and other available signals of opportunity reflected off stealthy aircraft to find and track them,” Watts explains.

These new detection systems could reverse a 30-year trend that has seen the U.S. Air Force gain an increasing advantage over enemy defenses. That phenomenon began with the introduction of the F-117 stealth fighter in the late 1980s, followed by the addition of the stealthy B-2 (pictured) in the ’90s and, more recently, the F-22.

So far, the Air Force has only ever fielded a few hundred stealth aircraft, requiring it to constantly upgrade some nonstealthy fighters. But the flying branch plans to purchase more than 1,700 F-35s (at more than $100 million a pop) from Lockheed Martin in coming decades, plus up to 100 new stealth bombers. In that sense, the stealth era is only now truly dawning — just as effective counter-measures are nearly ready, Watts points out.

In that sense, the Air Force’s stealth gamble could turn into very, very long odds.

Comparatively, the Navy has played it safe. At the same time the Air Force was investing its research and development dollars in stealth, the Navy has taken a different approach to defeating enemy defenses. Where the Air Force plans to slip past radars, the Navy means to jam them with electronic noisemakers or destroy them with radar-seeking missiles. That’s why the only radar-killing planes in the Pentagon inventory belong to the Navy — and why, until the forthcoming F-35C, the Navy has never bought a stealth fighter.

Nowhere is that philosophical difference more apparent than in the Pentagon’s on-again, off-again effort to develop jet-powered killer drones. The Navy’s X-47 drone, built by Northrop, is minimally stealthy. Boeing’s Phantom Ray, intended mostly for Air Force programs, is arguably as stealthy as an F-35 in certain scenarios.

There’s still a chance the Air Force’s bet on stealth could pay off, Watts writes. That largely depends on two capabilities planned for the F-35.

First, there’s “the JSF’s sensor suite and computational power,” which Watts explains “can be easily upgraded over time due to the plane’s open avionics architecture, giv[ing] the F-35 an ability to adjust its flight path in real time in response to pop-up threats, something neither the F-117 nor the B-2 have been able to do.”

Second, the F-35’s radar, a so-called “electronically scanned array,” could in theory be used to jam an enemy radar or even slip malicious software code into its control system.

Neither of these capabilities is actually a form of stealth, per se. Rather, they would complement the F-35’s ability to absorb or deflect radar waves. Described uncharitably, the Air Force has had to add nonstealthy skills to its stealth fighters, just to help them survive.

Watts doesn’t address one other way the Air Force could preserve its stealth advantage: by speeding up the development of drone aircraft — which, by virtue of their smaller size, have the potential to be much stealthier than any manned aircraft.

It’s also worth noting that America’s biggest rivals don’t doubt the continuing relevance of stealthy planes. Russia and China have both unveiled new stealth-fighter prototypes in the last two years.

The way Watts describes it, the “end of stealth” is just one of the many big changes that could occur in near-future warfare — big emphasis on “could.” “The honest answer to the question about how fundamentally war’s conduct will change — and how soon — remains: It depends.”

Photo: B-2 stealth bomber (U.S. Air Force)
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Tuesday, 15 February 2011

Stealth Fighter Jets - F-22 Raptor & F-35 Lightning II






F-22 Raptor

(US Air Force)
Updated: 2011-02-15 17:30
F-22 Raptor

Two US Air Force F-22 Raptor stealth jet fighters fly near Andersen Air Force Base in this handout photo dated August 4, 2010. [Photo/Agencies]

The sophisticated F-22 aerodesign, advanced flight controls, thrust vectoring, and high thrust-to-weight ratio provide the capability to outmaneuver all current and projected aircraft. The F-22 design has been extensively tested and refined aerodynamically during the development process.

The F-22's characteristics provide a synergistic effect ensuring F-22A lethality against all advanced air threats. The combination of stealth, integrated avionics and supercruise drastically shrinks surface-to-air missile engagement envelopes and minimizes enemy capabilities to track and engage the F-22. The combination of reduced observability and supercruise accentuates the advantage of surprise in a tactical environment.

The F-22 will have better reliability and maintainability than any fighter aircraft in history. Increased F-22 reliability and maintainability pays off in less manpower required to fix the aircraft and the ability to operate more efficiently.

Background

The Advanced Tactical Fighter entered the Demonstration and Validation phase in 1986. The prototype aircraft (YF-22 and YF-23) both completed their first flights in late 1990. Ultimately the YF-22 was selected as best of the two and the engineering and manufacturing development effort began in 1991 with development contracts to Lockheed/Boeing (airframe) and Pratt & Whitney (engines). EMD included extensive subsystem and system testing as well as flight testing with nine aircraft at Edwards Air Force Base, Calif. The first EMD flight was in 1997 and at the completion of its flight test life this aircraft was used for live-fire testing.

The program received approval to enter low rate initial production in 2001. Initial operational and test evaluation by the Air Force Operational Test and Evaluation Center was successfully completed in 2004. Based on maturity of design and other factors the program received approval for full rate production in 2005. Air Education and Training Command, Air Combat Command and Pacific Air Forces are the primary Air Force organizations flying the F-22. The aircraft designation was the F/A-22 for a short time before being renamed F-22A in December 2005.

General Characteristics

Primary Function: Air dominance, multi-role fighter
Contractor: Lockheed-Martin, Boeing
Power Plant: Two Pratt & Whitney F119-PW-100 turbofan engines with afterburners and two-dimensional thrust vectoring nozzles.
Thrust: 35,000-pound class (each engine)
Wingspan: 44 feet, 6 inches (13.6 meters)
Length: 62 feet, 1 inch (18.9 meters)
Height: 16 feet, 8 inches (5.1 meters)
Weight: 43,340 pounds (19,700 kilograms)
Maximum Takeoff Weight: 83,500 pounds (38,000 kilograms)
Fuel Capacity: Internal: 18,000 pounds (8,200 kilograms); with 2 external wing fuel tanks: 26,000 pounds (11,900 kilograms)
Payload: Same as armament air-to-air or air-to-ground loadouts; with or without 2 external wing fuel tanks.
Speed: Mach 2 class with supercruise capability
Range: More than 1,850 miles ferry range with 2 external wing fuel tanks (1,600 nautical miles)
Ceiling: Above 50,000 feet (15 kilometers)
Armament: One M61A2 20-millimeter cannon with 480 rounds, internal side weapon bays carriage of two AIM-9 infrared (heat seeking) air-to-air missiles and internal main weapon bays carriage of six AIM-120 radar-guided air-to-air missiles (air-to-air loadout) or two 1,000-pound GBU-32 JDAMs and two AIM-120 radar-guided air-to-air missiles (air-to-ground loadout)
Crew: One
Unit Cost: $143 million
Initial operating capability: December 2005
Inventory: Total force, 137





F-35 Lightning II

(lockheedmartin.com)
Updated: 2011-02-15 17:30
F-35 Lightning II
F-35 Lightning II [Photo/lockheedmartin.com]

The F-35 Lightning II, also known as the Joint Strike Fighter (JSF), integrates advanced very low observable stealth into a supersonic, highly agile 5th generation fighter. The capabilities built into the F-35 Lightning II provide the pilot with unprecedented situational awareness and unmatched lethality and survivability.

While each variant (F-35A, F-35B, F-35C) is uniquely designed to operate from different bases, all three variants set new standards in network-enabled mission systems, sensor fusion, supportability and maintainability.

The world's most experienced aerospace industry leaders (Lockheed Martin, Northrop Grumman, BAE Systems and the Fighter Engine Team—Pratt & Whitney and GE Rolls-Royce) combine sophisticated manufacturing, engineering and technological capabilities to develop the F-35 Lightning II. This, along with global partnerships, has been an integral part of the JSF Program. Setting the stage for reliability and maintainability, the F-35's built-in sustainment establishes new levels of operational readiness and helps meet the needs across the spectrum of military operations.

With its host of next-generation technologies and unprecedented capabilities, the F-35 is the world's most advanced multirole fighter.