MISSILE CONTROL AND COMMUNICATION
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Transcript of MISSILE CONTROL AND COMMUNICATION
By- Hrushikesh G. Manoli
&Ganesh D. Pethkar
Missile Control and Communication
MODERN MARK-50 FUSE DISINTEGRATION
Steps of Operation:
1. Scanning of sky with Radar or manual plane.
2.Continuous contact with control station.
3.Target is spotted and CS is informed.
4.Pre-attack procedure.
5.Decision execution
Overall view: Radar, CS and Launcher.
Overview of RADARsRadars are types of Sensors used for the patrolling of one’s proximity . This idea has been further extended to the Modern day SDRS and then the possible future “Macro SDRS”.
RADAR
FREQUENCYDIVERSITY POLARIMETRIC INTRAPULSE
MODULATION
SYNTHETIC APERTURE SECONDARY
RADIO DETECTION AND RANGING
Pathway for Communication
General processing of signals
Receiver Section
Block diagram of Super Heterodyne Receiver
Mixing of two different frequencies to form a different new frequency is called “Heterodyning”
Pre-attack procedure:
• Detection of ‘Host frequency’ and ‘foe frequency’.
• Communication with Control Station.• Warning to ‘foe frequency’, if detected.• Launchers are provided with suitable
information and are in synchronization with CS and Radar unit.
All the steps will be clarified in this video:
Multiple Launch Rocket System(MLRS) developed in Russia is shown.
Note that only the animation of Anti tank (missile) is shown, but its successive stages work only after communication with C.S
VIDEO
Points to be noted:
• All the wireless comm. made is same as that of satellite/mobile comm.
• Linking of two or more Control Stations(C.S) is made through OFC due to its large bandwidth and efficiency.
• As OFCs are laid underground, they are protected against damage due to attacks.
References:
• Weaponry Handbook, Renimental Pub.• www.google.co.in for images and videos.• Wireless communications, Andreas Molisch.
Have a nice day !