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STEALTH TECHNOLOGY IN AIRCRAFT

STEALTH TECHNOLOGY IN AIRCRAFT. BRIEFING ABOUT THE TECHNOLOGY. Stealth aircraft are aircraft that use stealth technology to make it harder to be detected by radar and other means than Conventional aircraft by employing a combination of features

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STEALTH TECHNOLOGY IN AIRCRAFT

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  1. STEALTH TECHNOLOGY IN AIRCRAFT

  2. BRIEFING ABOUT THE TECHNOLOGY • Stealth aircraft are aircraft that use stealth technology to • make itharder to be detected by radar and other means than • Conventionalaircraft by employing a combination of features • to reducevisibility in the visual, audio, infrared and radio • frequency (RF)spectrum. Well known examples include the • United States' F-117Nighthawk (1980s-2008), the B-2 Spirit • "Stealth Bomber," andthe F-22 Raptor.

  3. Stealth is accomplishedby using a complex design philosophy • to reduce the ability of an opponent's sensors to detect, track • and attack an aircraft . • Modern stealth aircraft first became possible when a • mathematician working for Lockheed Aircraft during the 1970s • adopted a mathematical model developed by PetrUfimtsev, a • Russian scientist, to develop a computer program called Echo 1.

  4. Principles Of Radar Echo made it possible to predict the radar signature an aircraft made with flat panels, called facets. • Echo can be considered as a wave bouncing off the surface and • coming back to source. • This principle can be used to detect time and distance of target . Doppler shift is second principle of radar. This can b used to detect the speed of target approaching..

  5. Reduced radar cross section is only one of five factors that designers addressed to create a truly stealthy design. Designers also addressed making the aircraft less visible to the naked eye, controlling radio transmissions, and noise abatement. • The first combat use of stealth aircraft was in December 1989 • during Operation Just Cause in Panama. In 1991, F-117s were • tasked with attacking the most heavily fortified targets in Iraq • and were the only jets allowed to operate inside Baghdad's • city limits

  6. Attention towards these aircrafts is made after persian war II ,91 Night-enhanced images of the otherworldly-shapedF-117s taking off in the night and striking high-value targets with scarcely believable precision and seeming invulnerability to thick air defences were widely televised and etched in the memories of TV viewers worldwide. Loss of at least one F-117 in Kosovo, has peeled off some of the mythical cloak surrounding stealth.

  7. Different technologies and strategies forSTEALTH Ben Rich, the leaderof the Lockheed team that designed the F-117, has stated: "Astealth aircraft has to be stealthy in six disciplines: radar, infrared,visual, acoustic, smoke and contrail. If you don't do that, you flunk the course."

  8. Different technologies and strategies for stealth are the province of land, naval and underwater forces. • Underwater warfare will naturally hand dominance to the acoustic • spectrum • Land combat will emphasize visual, infra-red and acoustic • signatures. • Radar and (to a lesser extent) infrared bands dominate the scene of • airspace surveillance, and so they have to be given higher priority • when thinking the applications in air warfare.

  9. Signature Of A Vehicle The signature can be stated as any activity or radiation or characteristic of the body that help to revile its presence at a particular point. Observability of an object on detection system can b called as signature of vehicle. All detection methods used either in military or civil applications use signature of body as reference to detect that object.

  10. RADAR REFLECTIVITY All radar systems, from an AWACS to police speed radar, work in the same principle : • A certain amount of electromagnetic energy • is transmitted through a directional antenna, which focuses it into a • conical beam. When a reflective target blocks part of the beam, that • part of the beam is reflected in many different directions, or "scattered." • If the scattering is fairly random, as is usually the case, some energy • will be reflected in the direction of the radar antenna. Most radar • transmits this energy in pulses, thousands of them every second.

  11. In the gaps between the pulsetransmissions, the radar becomes a receiver, and the gaps arecarefully chosen to be just long enough for the signal to make itsway to the target and back at the speed of light1. The time interval between the transmission and reception of the pulse gives the range from the radar to the target. The radarantenna moves at a pre-determined regular rate, so the time at which the target moves in and out of the beam can be tied to the position of the antenna, giving the target's bearing from thelocation of the radar.

  12. Comparison between Human Eye & Radar Humans see in aworld which is saturated with visible light, so that almost everysquare inch of it reflects some light toward us at all times . • The radar only "sees" the energy that is reflected toward it. The radar • can detect a target ONLY when its antenna captures enough energy to • rise above the electronic noise that is invariably present in the receiver.

  13. Variablesin the Transmission-scattering-Reflection They all affect themaximum range of the above process. They are : • - The strength of the outgoing signal • - The width of the beam • - The size of the antenna • - The reflectivity, or RCS, of the target.

  14. Enemy Aircraft Process Diagram Conical Beam Reflected Beam Scattered Rays AWACS

  15. RCS

  16. RCSRadar Cross Section • Out of radar designer’s control. • RCS not directly proportional to detection range because of radial • scattering effects and cannonical beam of radar. • Radar cross section is the measure of a targets ability to reflect radar • signals in the direction of the radar recieveri.e per unit solid angle. • The conceptual definition of rcs includes the fact that not all of the • radiating energy falls on the target .

  17. RCS The rcs is easily visualized as product of three factors. Rcs (⌐)=projected cross section *reflectivity*directivity. reflectivity=the percentage of power reradiated(scattered) by the target . Directivity=the ratio of power scattered back in radar direction.

  18. RADIATION SCATTERING BY TARGET The sphere is essentially same in almost all directions i.e. 360 degree The flat plane has has almost no rcs except when aligned directly towards radar i.e. 90 degree The corner reflector has an rcs almost high as flat plane over a wider angle i.e. 60 degree.

  19. Minimizing Rcs Conventional aircraft use round shape cone as it support principle of aerodynamics. The stealth aircraft is made up of flat surface and very sharp edges Radar signal heating the stealth plane are scattered in all directions by this. Metallic surfaces generally reflect the radar signals. There stealth aircraft should be coated with radar absorbent materials. Which deflect and absorbedincoming radar waves and reduce the detection range. Radar absorbent layer is present below the surface coating of aircraft using corner reflector. GEOMETRIC DESIGN RADAR ABSORBENT MATERIALS

  20. Minimizing Rcs GEOMETRIC DESIGN RADAR ABSORBENT MATERIALS

  21. Visual stealth Low visibility is desirable for all military applications Earlier stealth aircraft were painted black and thus could be used during nights Now days an electro chromic polymer is being developed for daytime stealth These polymer sheets sense nature of the surrounding and change there color accordingly

  22. Visual stealth

  23. Infra-red stealth Infra-red radiation are emitted by all matter above absolute temperature zero Hot zones such as engine exhaust , wing surface [ friction due to air ] get heated which rather increases the visibility These part should be kept cool as possible it can be Option would be mixing of cool air with the hot engine exhaust

  24. Infra-red stealth

  25. Acoustic stealth Acoustic cells involves the sound waves to detect the target Knowing the fact that’s sound waves moves too slowly as compared to radio wave so it functionality should be directed towards low altitude flying aircraft and pre-dominantly ships and submarines.

  26. Plasma stealth In this stealth the aircraft injects a stream of ionized gas which envelopes the aircraft due to which most of the radar wave are observe this make the aircraft completely invisible

  27. Advantages of stealth Reduces the causality rates during war Saving military budget Develop the military secretes Bluff the anti-detective device

  28. Issues with stealth Stealth aircraft cannot fly as fast as conventional aircraft Can carry limited amount of load Very economic B-2 cost [ $2 billion ] ,F-22 [$100 million ] Wing shape does not provide the optimum the lift.

  29. Conclusion Well to conclude the current scenario appears some things similar to the cold war both sides are accumulating weapons to counter each other and each side can be termed as ‘stealth technology’ and the other as ‘anti-stealth technology’. Its an arm race except it isn’t between specific countries .

  30. THANK YOU !

  31. IF ANY ?

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