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India’s New Ballistic Missile Tracking Ship shaping up

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http://idrw.org/indias-new-ballistic-missile-tracking-ship-shaping-up/
DFAVsscVoAA4BHa.jpg


Latest satellite imaginary confirms installation of Radar dome on India’s VC 11184 Ship currently under construction at Hindustan Shipyard Limited in Visakhapatnam. VC 11184 will be India’s first Ballistic Missile Tracking Ship which will propel India into an Elite Club Four Countries (US, Russia, China and France) who have developed similar ships to track Ballistic missiles launches.

VC 11184 will have two AESA radar arrays, one in the S band and one X band. The S Band array is used for scanning large volumes of the sky for objects and for tracking missiles in flight, while the X band array is used for zeroing in on small hard to detect objects like reentry vehicles, missile interceptors, or even tiny satellites.

VC 11184 will be very handy in collecting data for India’s ballistic missile defence (BMD) system and will also aid in tracking the performance of Submarine Launched Ballistic Missiles (SLBMs) out there in open ocean fired from India’s Arihant class of Submarines.

AESA radars also can track hostile ballistic missiles and can also identify decoys with actual warheads fired from multiple independently targetable reentry vehicle (MIRV) warhead capable ballistic missiles. AESA Radars are so lethal that they can provide detailed tracking of enemy fired ballistic missiles for a ground-based interceptor to take them down and can also be used to track space objects and projects, particularly if it is related to missile defence.

VC 11184 will be critical components in India second phase development of ballistic missile defence (BMD) system which requires detection of a hostile missile fired from long range to be picked up early, once they are launched. Due to the limitation of ground based Radars and sensors, ballistic missile tracking ships stationed at high sea thus comes in handy for such long range tracking.

VC 11184 at at 175 metres will be as big as INS Jalashwa, which is an amphibious transport dock currently in service with the Indian Navy and also tagged as second biggest ship after INS Vikramaditya aircraft carrier. VC 11184 once formally induced will go out for sea trials and the crew will be made of Indian Navy.DRDO, NTRO and other agencies when the ship is operationised .
 
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http://idrw.org/indias-new-ballistic-missile-tracking-ship-shaping-up/
DFAVsscVoAA4BHa.jpg


Latest satellite imaginary confirms installation of Radar dome on India’s VC 11184 Ship currently under construction at Hindustan Shipyard Limited in Visakhapatnam. VC 11184 will be India’s first Ballistic Missile Tracking Ship which will propel India into an Elite Club Four Countries (US, Russia, China and France) who have developed similar ships to track Ballistic missiles launches.

VC 11184 will have two AESA radar arrays, one in the S band and one X band. The S Band array is used for scanning large volumes of the sky for objects and for tracking missiles in flight, while the X band array is used for zeroing in on small hard to detect objects like reentry vehicles, missile interceptors, or even tiny satellites.

VC 11184 will be very handy in collecting data for India’s ballistic missile defence (BMD) system and will also aid in tracking the performance of Submarine Launched Ballistic Missiles (SLBMs) out there in open ocean fired from India’s Arihant class of Submarines.

AESA radars also can track hostile ballistic missiles and can also identify decoys with actual warheads fired from multiple independently targetable reentry vehicle (MIRV) warhead capable ballistic missiles. AESA Radars are so lethal that they can provide detailed tracking of enemy fired ballistic missiles for a ground-based interceptor to take them down and can also be used to track space objects and projects, particularly if it is related to missile defence.

VC 11184 will be critical components in India second phase development of ballistic missile defence (BMD) system which requires detection of a hostile missile fired from long range to be picked up early, once they are launched. Due to the limitation of ground based Radars and sensors, ballistic missile tracking ships stationed at high sea thus comes in handy for such long range tracking.

VC 11184 at at 175 metres will be as big as INS Jalashwa, which is an amphibious transport dock currently in service with the Indian Navy and also tagged as second biggest ship after INS Vikramaditya aircraft carrier. VC 11184 once formally induced will go out for sea trials and the crew will be made of Indian Navy.DRDO, NTRO and other agencies when the ship is operationised .
It shall be uncovered by year end.
 
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DRDO-Owned & Navy-Operated MRIS Vessels Take Shape
The first of two DRDO-owned and Indian Navy-operated Missile-Range Instrumentation Ships (MRIS) is presently undergoing outfitting alongside the 560-metre jetty of the MoD-owned Hindustan Shipyard Ltd (HSL) in Visakhapatnam. Officially dubbed as an Ocean Surveillance Ship (P-11184), its keel-laying ceremony had taken place on June 30, 2014. Sanctioned at a cost of Rs.1,500 crore, this MRIS is expected to be commissioned into naval service by the first quarter of 2018 (instead of the original deadline of December 2015).
This vessel was designed by Vik Sandvik Design India, and it has a length of 175 metres, beamwidth of of 22 metres, a draught of 6 metres, and a total weight of 10,000 tons. An aft helicopter deck capable of housing a 12-tonne NMRH-type helicopter has also been incorporated. Crew complement will be 300, while the propulsion package will comprise twin two 9,000kW diesel engines, designed to give a maximum cruise speed of 21 Knots.
The MRIS, when operational, will host two types of tracking radars: a long-range L-band active phased-array tracking radar for monitoring the flight trajectory of ballistic missiles like ICBMs and SLBMs, and an X-band precision tracking radar, this too being an active phased-array type that will be used for tracking the in-bound flight trajectories of MIRV-type warheads. The long-range L-band active phased-array tracking radar will be a derivative of the indigenously designed and developed L-band, monopulse Multi-Object Tracking Radar (MOTR) that is now operational at ISRO’s Sriharikota-based Satish Dhawan Space Centre (SHAR).
The MOTR, developed at a cost of Rs.245 crores between 2012 and 2015, can track 10 different objects simultaneously with a range of nearly 1,000km. While objects measuring up to 30cm by 30cm can be tracked at a distance of 800km, in case of objects measuring 50cm by 50cm size, the radar can track at a slant range of 1,000km. The active phased-array antenna contains 4,608 radiating elements, and the entire radar weighs 35 tonnes, is 12-metre-long and 8 metres-tall. Astra Microwave Products Ltd supplied the T/R Modules and DC-DC converters.
The second MRIS is being built at a cost of Rs.425 crores by the Kochi-based Cochin Shipyard Ltd and is expected to be delivered by late 2019. Contract for this vessel was inked in early August 2015. Once ready, this 130-metre-long MRIS will be equipped with a smaller version of the MOTR, known as the M-MOTR, as well as X-band active phased-array precision-tracking radar. This MRIS will be used for monitoring the flight trajectories of long-range subsonic and supersonic land-attack cruise missiles, especially during their terminal phases of flight.
The two MRIS vessels will perform roles similar to those of the USNS Howard O Lorenzen (T-AGM-25), which features dual-band X- and S-band active phased-array radars, a common radar suite controller, and other ancillary equipment. The X-band radar is used for collecting data from several objects from different targets, while the S-band radar is used for collecting data from specific objects of importance. Raytheon provided the X-band radar and the common radar suite controller, while the S-band radar was provided by Northrop Grumman.
http://trishul-trident.blogspot.in/2017/07/drdo-owned-navy-operated-mris-vessels.html?m=1
 
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DRDO-Owned & Navy-Operated MRIS Vessels Take Shape

HSL.jpg


The first of two DRDO-owned and Indian Navy-operated Missile-Range Instrumentation Ships (MRIS) is presently undergoing outfitting alongside the 560-metre jetty of the MoD-owned Hindustan Shipyard Ltd (HSL) in Visakhapatnam. Officially dubbed as an Ocean Surveillance Ship (P-11184), its keel-laying ceremony had taken place on June 30, 2014. Sanctioned at a cost of Rs.1,500 crore, this MRIS is expected to be commissioned into naval service by the first quarter of 2018 (instead of the original deadline of December 2015).

DRDO-owned%2B%2526%2BIN-operated%2BMissile-Range%2BInstrumentation%2BShip-1.jpg

This vessel was designed by Vik Sandvik Design India, and it has a length of 175 metres, beamwidth of of 22 metres, a draught of 6 metres, and a total weight of 10,000 tons. An aft helicopter deck capable of housing a 12-tonne NMRH-type helicopter has also been incorporated. Crew complement will be 300, while the propulsion package will comprise twin two 9,000kW diesel engines, designed to give a maximum cruise speed of 21 Knots.

MOTR%2BL-band%2BAPAR.jpg

The MRIS, when operational, will host two types of tracking radars: a long-range L-band active phased-array tracking radar for monitoring the flight trajectory of ballistic missiles like ICBMs and SLBMs, and an X-band precision tracking radar, this too being an active phased-array type that will be used for tracking the in-bound flight trajectories of MIRV-type warheads. The long-range L-band active phased-array tracking radar will be a derivative of the indigenously designed and developed L-band, monopulse Multi-Object Tracking Radar (MOTR) that is now operational at ISRO’s Sriharikota-based Satish Dhawan Space Centre (SHAR).

DRDO-owned%2B%2526%2BIN-operated%2BMissile-Range%2BInstrumentation%2BShip-2.jpg


The MOTR, developed at a cost of Rs.245 crores between 2012 and 2015, can track 10 different objects simultaneously with a range of nearly 1,000km. While objects measuring up to 30cm by 30cm can be tracked ata distance of 800km, in case of objects measuring 50cm by 50cm size, the radar can track at a slant range of 1,000km. The active phased-array antenna contains 4,608 radiating elements, and the entire radar weighs 35 tonnes, is 12-metre-long and 8 metres-tall. Astra Microwave Products Ltd supplied the T/R Modules and DC-DC converters.

M-MOTR%2BL-band%2Btracking%2Bradar.JPG


The second MRIS is being built at a cost of Rs.425 crores by the Kochi-based Cochin Shipyard Ltd and is expected to be delivered by late 2019. Contract for this vessel was inked in early August 2015. Once ready, this 130-metre-long MRIS will be equipped with a smaller version of the MOTR, known as the M-MOTR, as well as X-band active phased-array precision-tracking radar. This MRIS will be used for monitoring the flight trajectories of long-range subsonic and supersonic land-attack cruise missiles, especially during their terminal phases of flight.

USNS%2BHoward%2BO%2BLorenzen-1.jpg


The two MRIS vessels will perform roles similar to those of the USNS Howard O Lorenzen (T-AGM-25), which features dual-band X- and S-band active phased-array radars, a common radar suite controller, and other ancillary equipment. The X-band radar is used for collecting data from several objects from different targets, while the S-band radar is used for collecting data from specific objects of importance. Raytheon provided the X-band radar and the common radar suite controller, while the S-band radar was provided by Northrop Grumman.
USNS%2BHoward%2BO%2BLorenzen-3.jpg
 
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