Lecture on Stealth Aircrafts

Lecture on Stealth Aircrafts

Dr. Theodoros G. Kostis CEng MIEE

Radar Concepts – Stealth Concepts Stealth Aircraft Types – Countermeasures HELLENIC MILITARY ACADEMY, GREECE by kind invitation of Prof. N. I. Daras, Vari, 18th MAY 2012.

Authority on Subject Dr. Theodoros G. Kostis CEng MIEE PhD in Software-defined Radar Countermeasures

NATO SET-136 Specialists Meeting in Software Radar NATO SET-160 NCI/ATR in Air-Ground and Maritime Applications Based on Radar and Acoustics

Stealth Airplanes AIR FORCE

AIR COMBAT

Air

Intelligence

Space

Surveillance

Cyberspace

Reconnaissance

Why are they so important?

Stealth Air Combat DETECTION (STEALTH IMPORTANT HERE)

Be first to have Situational Awareness See before being seen

SEE FIRST

MANEUVER TO ENGAGE

Be first to plot a firing solution Use AWACS – Use BVR Observe rules of engagement

PLOT FIRST

ENGAGE

Be first to execute the firing solution

SHOOT FIRST KILL FIRST

EVADE

Increase survivability in all cases

LEAVE FIRST

Stealth Air Combat = Situational Awareness

Battlespace Dominance STEALTH AIRPLANES DENY SITUATIONAL AWARENESS TO ADVERSARY FORCES FOR CRUCIAL AMOUNTS OF TIME LEADING TO BATTLESPACE DOMINANCE

Stealth Supercruise Altitude Maneuverability See First – Shoot First – Kill First

Existence Motivation FOR STEALTH AIRPLANES AVOID BEING DETECTED FOR AS LONG AS POSSIBLE BY CONVENTIONAL AND ADVANCED RADARS WHILE PLOTTING FIRING SOLUTIONS AND FIRING FIRST SHOULD RULES OF ENGAGEMENT PERMIT

What do we need to know

in order to understand stealth aircrafts?

Overview

Radar MASINT Measurement & Signature Intelligence Other important Intelligence Gathering Methods applicable to aircrafts are: • • • • •

HUMINT ACOUSTINT RF/EMPINT IRINT VISINT

(Human Intelligence) (Acoustic Intelligence) (RF/Electromagnetic Pulse Intelligence) (Infrared/Heat Intelligence) (Visual Intelligence)

But Radar MASINT is first line of defence!

Radar Basic Points Radar Primary Early Warning Detection Technology for Aircraft Radar Detection: Threshold Logic Radar Detection Problems: Noise and Clutter Clutter: Unwanted Radar Returns hide Targets

Basic Radar Operation Conventional Radar A system that uses sensors in order to detect targets in azimuth and distance Advanced Radar A system that uses sensors in order to collect data from detected targets in azimuth and distance Data Collection allows Decision Making

Detection and data processing at maximum distance from radar allows more time for decision making

Radar Equation

STX , SRX signal PTX , PRX power GTX , GRX antenna gain

Îť wavelength Ďƒ radar cross section Aeff antenna effective aperture R range from radar to target

Conventional Radar Basics Detection - Tracking - Recognition Threshold Logic

http://www.radartutorial.eu/18.explanations/ex10.en.html

Detected targets cross the threshold

Conventional Radar Basics Detection - Tracking - Recognition Threshold Logic

http://www.radartutorial.eu/18.explanations/ex10.en.html

Detected targets cross the threshold

Pulsed Operation Incoherent or Coherent Operation • Incoherent Radar = Range (Barometer – Atmosphere Research) • Coherent Radar = Range & Doppler (Velocity) (Specific targets)

PRF : Pulse Repetition Frequency PRI : Pulse Repetition Interval

Quality Indices • Detection Probability • Measurement Accuracy • Tracking Performance • Speed Measurement

Detection Probability Detection in Noise radar correclty sees a real target

Error Type Ι (False Alarm) radar displays a nonexistent target

prediction

real target

no target

positive

real positive

false positive

negative

false negative

real negative

Error Type ΙΙ radar does not display a real target

radar correctly does not display any targets

Measurement Accuracy Pulsed Operation

Ideal Pulse has high W and small T

Tracking Performance Range and Velocity Gates - Tracking

Speed Measurement Coherent Operation

• Incoherent Radar = Range (Barometer – Atmosphere Research) • Coherent Radar = Range & Doppler (Velocity) (Specific targets)

AIRCRAFT HISTORY, “F-15 AT THE Gulf War”, Issue 13, Oct-Nov 2001, in Hellenic, periscop@otenet.gr.

Military Radar Types Force Multipliers

• 1. Surveillance Situational Awareness sustains military superiority (AWACS) • 2. RF Tracking (Active, Semi-Active) Guide to target (Missile RF Seeker) • 3. Multifunction Horizon Search & Fire Control Requirements (Aegis AN-SPY-1..3)

The need to reveal(detect), track, classify or identify a non-cooperative target

Non-Cooperative Target No identification collaboration from the target therefore Identification Friend or Foe (IFF) decision is difficult.

Signal to Information Graph

Radar Signal

Pulse Compression

f A/φ Polarisation

PAK-FA Active Electronically Steered Array MAKS

Simple Pulse

Information Content

http://www.ausairpower.net/APA-Flanker-Radars.html

Advanced Radar Basics Coherent Radar

PAK-FA AESA MAKS CHANNELS Source: Principles of Modern Radar Vol.1 , Scitech Publishing.

Beamformimg • Take a Sensor Array • Use constructive and destructive interference for the elements results in • Directional tx and rx

Doppler Processing • Examine all pulses per range bin gives • target speed estimation (range-rate) • Look Down\Shoot Down

F-15 Doppler Radar Example http://www.youtube.com/watch?v=UNqMmN81gT0

Pulse Compression • Transmit a modulated or coded wideband signal • Compress the return signal through filtering results in • Increased Signal Power and Enhanced Range Resolution

SAR • Use the movement of the radar to synthesize a larger virtual antenna than the physical • Obtain terrain imaging

• • • •

ω-k Algorithm Polar Format Range Doppler Chirp Scaling

http://www.geos.ed.ac.uk/homes/s0094539/Research.html

ISAR • Use the movement of the target to synthesize a larger virtual antenna than the physical • Obtain target imaging

• • • •

ω-k (range migration) Polar Format Range Doppler Chirp Scaling

STAP • Suppose a target exists at a location and velocity • Create a filter with custom high gain for that specific case and start attenuating all other signals results in • Detection of weak or slow moving targets by reducing clutter or nulling jammers

Why did we analyse radar?

1st Section Main Points Radar is the longest range scanning sensor The first line of defence that can see through all atmospheric conditions in both day and night Advanced Radar can visualize targets & might also provide recognition (classification and identification) of a target Stealth Airplanes want reduction in detection performance; radar systems want to recover this advantage

Overview

Definition of Stealth General Definition the act of movement in a furtive, concealed, clandestine, unobtrusive or imperceptible manner that provides as low probability of intercept (LPI) as possible by an adversary

Stealth Airplane Specific Definition the special design of an aircraft in geometry, emissions, modulations, coating, fuel and ordnance storage that contributes to low observability (LPI) by an adversary through weak overall signature composition (radar, IR, acoustic, optical)

Therefore stealth includes movement & wake! It is different from hiding (no wake)!

Stealth in High Entropy The outer colours and form or geometry of the asset are changed in an abstract form in order to blend with the environment

Ghillie Suit

Stealth in Medium Entropy Only the outer colours of the asset are changed in order to blend with the environment No form or geometry of asset is changed

Stealth in Low Entropy The outer colours, form or geometry of the asset are changed into a specific object usually in rich natural abundance in order to blend with the environment. Also the behaviour of the copied object is imitated.

Stealth Aircraft RCS = Small Bird RCS

Overview of Stealth Entropy General Entropy

Form-Geometry

Colours

High

Abstract change to other form

Abstract - Many

Medium

Unchanged

Specific to natural environment

Low

Adaptive change to natural objects

Specific to the natural object

Stealth Airplane Entropy

Form-Geometry

Colours

Low

Adaptive change to electromagnetic signature reduction with either emphasis to RCS (F-117) or to maneuverability (F-22, PAK-FA T50)

Specific to natural environment (day – night – land –sea)

Stealth airplane electromagnetic signature is changed to be equivalent to that of a small bird

Stealth Entropy Levels & Speed

As Stealth Entropy increases so does Speed with Low Probability of Intercept by an adversary

Stealth Airplane Basics Low Observability (angled external geometry designed to deflect radar waves making aircraft virtually undetectable to threshold logic)

cone of silence

{http://www.f-16.net/f-16_forum_viewtopic-t-5525-start-510.html}

stealth vs legacy fighter aircraft rcs estimates

Minimize PRX, don’t cross the threshold means survivability, surprise, more room to operate

Stealth & Detection Range • We saw that the basic radar equation can be written in the form which shows the maximum detection range for a given target : rmax

14

  PG _ L t    3   4  kT0 BF S N min  2

2

• This means that a reduction in target RCS from (say) 100m2 to 0.01m2 (which on the face of it sounds like a huge reduction) reduces the detection range by a factor of 10 – which doesn’t sound so much. • But it does reduce the time that a defence system has to react. Griffiths H. D., 2000, Lecture Notes, University College London.

Steganography and Stealth or How to conceptualize a Stealth Aircraft

Digital Steganography & Stealth Airplanes The actual identity of the relayed object is hidden by not arousing suspicions about its true colours from adversary parties

Very similar principles of operation Capacity – Security - Robustness

Kostis et al, 2012, Stealth Airplanes: Steganography in the Skies, Scientific Conference in Cryptography in the Armed Forces, Hellenic Military Academy.

Stealth Airplane Capacity A stealth design must be ideally able to provide an rcs which is 1% airframe and 99% on-board electronics and ordnance dependent

{http://gentleseas.blogspot.com/2010/01/russian-indian-pak-fa-t-50-first-test.html}

A stealthy airframe must be able to accommodate the required hidden electronics, fuel and ordnance.

Stealth Airplane Security Stealth Airplane Security (amount of time taken to achieve detection of the stealth airplane’s radar signature by adversary radar stations)

http://mariettascientific.com/understanding/under.htm

Stealth Airplane Robustness Airframe Robustness

(alterations to airframe aerodynamics must not compromise the stealth quality)

How is Stealth achieved? Low Probability of Intercept Radar

PAK-FA AESA MAKS

2nd Section Main Points Airplane Stealth is a factor of visual, infrared, acoustic and electromagnetic signature reductions in active (emissions) and passive (scattering) modes Airplane Stealth observes the principles of digital steganography (capacity, security, robustness) Airplane Stealth means reaction time reduction to the adversary air defence resources

Overview

Fighter Generations 1st (1945-1955) 2nd (1955-1960) 3rd (1960-1970) Phantom 4th (1970-1990) Mirage 2000, F-117 4+ or 4.5 (1990-2000) F-18, Su-33, Su-35, Eurofighter, Rafale • 4++ F-15SE5th (2000-2012) F-35, PAK FA T-50 • 6th (?-?) Sci-fi

• • • • •

• Special – Strategic Reconnaisance SR-71, U-2 http://www.rlm.at/cont/gal14_e.htm http://www.abovetopsecret.com/forum/thread124336/pg1

Fighter Generation I Mig-15

subsonic jet aircraft lack of radar, and WWII vintage weaponry such as dumb bombs and belt-fed machine guns. Aircraft seen in dogfights over the skies of the Korean War typify this generation. Aircraft such as the MiG-15, MiG-17, F-86 Sabre, as well as the de Havilland Vampire, Supermarine Attacker, Saab Lansen and Dasault Ouragan

http://www.abovetopsecret.com/forum/thread124336/pg1

Fighter Generation II Mirage III

aeronautical innovations, such as swept wings, delta wings, and area-ruled fuselages, small radars, air-toair missiles (semi-active radar homing), dawn of Beyond-Visual-Range (BVR) combat

Fighter Generation III Phantom II

Manoeuvrability and traditional ground-attack capabilities Air Combat Maneuvering (ACM) and Dissimilar Air Combat Training (DACT)

Fighter Generation IV

The F-16 is a single-engined, very maneuverable, supersonic, multi-role tactical aircraft. maneuverability = relaxed static stability = fly-by-wire flight control system

Stealth Aircraft Concept Ho 229 Over London just eight (8) minutes after initial detection

Horten Brothers

F-117 Nighthawk & B-2 Spirit

Emphasis in radar & IR signature reduction in an undemanding SEAD environment (Iraq, Afghanistan)

Fighter Generation IV+ Eurofighter – Rafale – Su27

AESA, enhanced digital avionics, high-capacity data link, IRST (FLIR), advanced ordnance

Fighter Generation IV++

F-15 Silent Eagle (Frontal Stealth & Hidden Ordnance and Fuel)

UCAV Reaper - nEUROn

Unmanned Combat Aerial Vehicles Special Type of Stealth covered in depth in another lecture

Fighter Generation V T-50 PAK-FA Advanced Front-Line Aviation Complex

Why 5th Generation Stealth Aircrafts? They are more economic than carpet bombing or using stand-off weapons!

Principle of War Economics Lesser valued friendly resources destroy higher valued adversary resources

F-22 Stealth + Supercruise + Maneuverability + Integrated Avionics = Air Dominance Aircraft, Sensors & Weapons Optimized to Seize and Maintain Total Air Dominance, Air Superiority, Destruction of Enemy Air Defenses, Intelligence Surveillance, Reconnaissance

Advanced Tactical Fighter

F-35 Stealth + Sensors + Integrated Avionics = Lethal & Survivable Strike Aircraft, Sensors & Weapons Optimized for Air to Ground Lethality Interdiction, Strike, Destruction of Enemy Air Defenses, Close Air Support, Time Sensitive Targets, Intelligence, Surveillance, Reconnaissance

Joint Strike Fighter

Comparison of F-16, F-22 & F-35

http://www.afa.org/professionaldevelopment/issuebriefs/F-22_v_F-35_Comparison.pdf

Comparison of T-50 to F-22

SEAD with Stealth

http://www.ausairpower.net/API-VLO-Strike.html

Stealth Tactic 1 Threading the Needle

Countermeasure Home-on Jam Mode

J  S

GJAMMER ( RX )GJAMMER ( AMP )GJAMMER (TX )  2 4

Stealth Tactic 2 Pecking the Lobe

Deception Tactic 1 Ghosting

Using ay least 7 PRFs eliminates this chance Alabaster C. M., 2012, Pulse Doppler Radar, Scitech Publishing http://www.scitechpub.com/catalog/product_info.php?products_id=757

Discrete RCS or 5thG Stealth? Dassault Raffale Eurofighter Typhoon F-15 Silent Eagle Do they perform the same tasks in more economic terms as the F-22, F-35, PAK-FA?

3rd Section Main Points Current Stealth aircrafts are multirole (air-to-air and air-to ground) There are two main types: air dominance and bomber survivability With current stealth technology is Fighter Generation 4+ or 4++ able to perform the same tasks in more economic terms? Deception & Electronic Warfare are important for hiding a Stealth Plane

Overview

Stealth Countermeasures •Bistatic/Multistatic Radar

•Optical Detection

•Wavelength Match

•ISAR & Stealthy Hotspots

•Infrared (heat) Detection

•Over-the-horizon Radar

Bistatic/Multistatic Radar RCS reduction techniques aimed principally at minimising monostatic RCS; bistatic geometry can intercept energy scattered in other directions

Forward scatter radars

Forward scatter geometry can give high RCS, even withtruly stealthy target Passive receiver, immune to interception Can utilise “illuminators of opportunity� (TV Stations, Number Stations)

Space-based Bistatic

Griffiths, H.D., Baker, C.J., 2007, Signal and interference environment in Passive Bistatic Radar, Information, Decision and Control Symposium, Adelaide.

Wavelength Match LOW FREQUENCY RADAR Advantages • Transmitted wavelength may match aircrafts physical dimensions Disadvantages • Issues with resolution, both in azimuth (antenna size) and range (bandwidth) • Also with interference with and from other users of these frequencies

Air Combat & Infrared Detection Infrared Search & Track Systems - IRST See First Shoot First http://www.ausairpower.net/APAFlanker-Radars.html

• OLS (Mig-35) Optical Locator System

Optical & Acoustical Detection Dazzle Camouglage Scheme

Since the F-22 is 25-30 percent larger than the F-15 and 40 percent larger than the F-18, it might be visually detected from ranges on the order of 10 miles. Brinkley, R., 1991, Future US Fighters Are at a Cost/Technology Crossroad," Armed Forces Journal International, p.49.

Sound, especially at low altitude may be a giveaway!

ISAR & Stealthy Hotspots Measuring a Stealth Airplane’s robustness

Stimson G. W., 1998, introduction to Airborne Radar, Scitech Publishing, http://www.amazon.com/IntroductionAirborne-Edition-Aerospace-Systems/dp/1891121014

Over-the-Horizon Radar (OTH) Weather Radar Steganography Robustness Jindalee Operational Radar Network The JORN is so sensitive it is able to track planes as small as a Cessna 172 taking off and landing in East Timor 2600 km away. It is also reportedly able to detect stealth aircraft Most stealthy aircraft are optimized for defeating much higher frequency radars from front-on rather than low-frequency radars from above JORN is reputedly able to detect aircraft wake turbulence. http://www.dsto.defence.gov.au/page/3984/ http://web.archive.org/web/20071116065249/http://defence-data.com/features/fpage37.htm http://www.drtomorrow.com/lessons/lessons6/26.html

How are Countermeasures used?

4th Section Main Points Stealth Aircrafts are not invisible Stealth Aircraft are a worthy adversary to any current relevant countermeasure Optical Locator Systems are important ISAR and OTH/Weather Radar measurements look promising because they look at the way the stealth aircraft modulates its environment

Overview

Main Conclusions Stealth technology is not only radar, but radar is the sensor for early warning purposes Stealth Aircrafts although not invisible yet a worthy adversary to any current relevant countermeasure The main point is to detect the aircraft long enough for air-defence (aerial or groundbased) proper preparation

Lecture on Stealth Aircrafts with sincere thanks to the Hellenic Military Academy

Questions? Further Questions: Theodoros G. Kostis {tkostis@iee.org}