Stealth technology aims to make aircraft and ships invisible to radar detection. It works by reducing radar cross-sections through smooth shapes and radar-absorbing materials. Various radars try to detect stealth objects, such as bistatic radar using multiple transmitters, low-frequency radar, and phased array radar operating in L-band. Radars can also use infrared and sonar. Stealth radars aim to not be detected through frequency agility, noise jamming, and employing AESA which is harder to jam.
Russian Call Girls in Nagpur Grishma Call 7001035870 Meet With Nagpur Escorts
Stealth Radar
1. STEALTH RADAR
G RAM PRABU
DEVIREDDY PRAMOD REDDY
KARRI V R DINESH KUMAR REDDY
2. Introduction
What is Stealth Technology?
• Stealth – movement that is quiet and careful in order not to be seen
or heard (in general), not detectable by radar.
• Radars associated with stealth
1. Radars detecting objects in stealth mode
2. Radars operating in stealth mode
3. How is stealth achieved?
• Reduce RCS of the object by changing its shape.
• Smooth edges with flat surfaces, Round wing tips
• Radar absorbing materials (RAM)
Commonly used material – Iron Ball Paint
• Heat trails from engines reduced to prevent
IR detection
• Noise from engines reduced and travels in
subsonic speeds to prevent sonic boom.
5. Radars to detect Stealth objects
• Bistatic Radar: Multiple transmitters and emitters are used because energy is
scattered in many directions and needs to be captured effectively.
• Low Frequency Radar:
• uses frequency lower than 1 GHz
• Radar absorbing materials absorb frequency from
2.5 – 13 GHz with an efficiency of 95%
Advantages:
• Cost effective,
• high range
Disadvantages:
• Large size
• Doppler unambiguities
7. Radars to detect Stealth objects
• Phased Array Radar operating in L-band:
• Consists hundreds or thousands of such blocks each radiating
in same phase
8. Phased Array Radar- continued
• Advantages:
Portable
Inexpensive to build in mass production
• Disadvantages:
Signal processing difficulty
Prior knowledge of range and target angle is needed
9. Radars to detect Stealth objects
• Infra Red receivers used to detect chemical and physical signatures of
exhaust gas plume particularly heat from engines.
• Exhaust plume has other characteristics that are detectable, and when
coupled with absence of heat it is certainly a stealth aircraft.
• SONAR (Sound Navigation and Ranging) is used along with these radars for
better results.
• Usually multiple types of radars are used for stealth detection.
• Signals from communication satellites and telephone towers are used by
radar receivers to detect objects (advanced transmitter-less radar).
11. Radars operating in stealth mode
• Radars that are not detected by other Radars i.e., radars that cannot be jammed
are called as radars operating in stealth mode.
• What is Radar deception and jamming?
Radar jamming and deception (Electronic countermeasure) is the intentional
emission of radio frequency signals to interfere with the operation of a radar by saturating
its receiver with noise or false information.
• Types of Jamming
• Mechanical
• Electronic
12. Radar Jamming
• Mechanical Jamming: by devices which reflect radar energy back to
the radar.
• Chaff – metallic strip to reflect different frequency waves.
• Corner reflectors – multiple sided reflecting objects.
• Decoys – flying objects to deceive a radar by creating clutters.
• Electronic Jamming: Jammers radiate energy signal towards radiating
radar.
• Spot Jamming – single frequency jammer of high power used.
• Sweep Jamming – Multiple frequency & high power at different times.
• Barrage Jamming – Multiple frequencies simultaneously, but less effective.
• Base Jamming – Main radar jammed in case of multiple radars.
• Pulse Jamming – Noise pulses generated to deceive the receiver
13. DRFM Jamming
• Digital radio frequency memory is an electronic method for digitally capturing
and retransmitting RF signal.
• Properties changed are :
• Delay in transmitted pulses
• Frequency variation
• Creates a false range targets to the
radar
• Creates Doppler(velocity) errors.
• Blip Enhancement
14. Counter measures used in stealth radars
• Constantly changing the operating frequency.
• Covering the outgoing signal with random noise, makes it more
difficult for a jammer to figure out the frequency that a radar is
operating on.
• Employing an effective operator who is skilled in signal processing.
• Active electronically scanned array (AESA) radars are innately harder
to jam and can operate in Low Probability of Intercept (LPI) .
• A quantum radar system would automatically detect attempts at
deceptive jamming.
15. Active Electronically Scanned Array
• Active phased array radar
• Transmitter and receiver (transceiver) functions are composed of
numerous small solid-state transmit/receive modules (TRMs).
• Spreads the signal emissions out, across a band of
frequencies.
• Produce numerous simultaneous sub beams that
it can recognize due to different frequencies and
can track a large no. of targets.
• Multiple frequencies generated at once.
16. Active Electronically Scanned Array
• Advantages:
• Low probability of intercept.
• High jamming resistance.
• Limitation:
• The highest Field of View (FOV) for a flat phased array antenna is currently
120°.