ISRO and its Missions/Important Submarines in News

01st Oct 2021

 

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1. RISAT-2B: An all-seeing radar imaging satellite

  • The PSLV-C46 is set to launch RISAT-2B from Satish Dhawan Space Centre in Sriharikota.

RISAT Constellation

  • RISAT-2B, short for “Radar Imaging Satellite-2B”, is the second in a series of satellites used to observe weather conditions on Earth using radar imagery.
  • RISAT-2 was the first satellite in the series, launched for the purpose of surveillance. RISAT-1 was launched later, to become India’s first all-weather radar imaging satellite.
  • RISAT-2B is to be followed by RISAT-2BR1, 2BR2, RISAT-1A, 1B, 2A and so on.
  • ISRO orbited its first two radar satellites in 2009 & 2012 and it plans to deploy four or five of them in 2019 alone.
  • A constellation of such space-based radars means a comprehensive vigil over the country.
  • Once operational, the satellite will be capable of monitoring weather day and night, in all weather conditions.

2.Phase 4 of Geosynchronous Satellite Launch Vehicle (GSLV)

  • The Union Cabinet has approved ongoing GSLV continuation programme Phase-4 consisting of five GSLV flights during the period 2021-2024.
  • The will enable the launch of 2 tonne class of satellites for Geo-imaging, Navigation, Data Relay Communication and Space Sciences.
  • It will meet the demand for the launch of satellites at a frequency up to two launches per year, with maximal participation by the Indian industry.

About GSLV

  • GSLV Continuation Programme was initially sanctioned in 2003, and two phases have been completed and the third phase is in progress and expected to be completed by Q4 of 2020-21.
  • GSLV has enabled independent access to space for 2 tonne class of satellites to Geosynchronous Transfer Orbit (GTO).
  • One of the significant outcomes of the GSLV Continuation Programme is the mastering of the highly complex cryogenic propulsion technology, which is an essential technological capability to launch communication satellites to GTO.
  • This has also paved the way for the development of a high thrust Cryogenic engine & stage for the next-generation launch vehicle i.e. GSLV Mk-lll.
  • With the recent successful launch of GSLV-F11 on 19th December 2018, GSLV has successfully orbited 10 national satellites.
  • GSLV with the indigenous Cryogenic Upper Stage has established itself as a reliable launch vehicle for communication, navigation and meteorological satellites and also to undertake future interplanetary missions.

3.Mission Shakti (Anti-Satellite Missile Test)

  • In an incremental advance, India has successfully conducted an Anti-Satellite (ASAT) missile test, named Mission Shakti.
  • India becomes the fourth country in the world to demonstrate the capability to shoot down satellites in orbit.
  • So far, only the United States, Russia and China have this prowess.

Mission Shakti

  • While Mission Shakti may have targeted an object in outer space, India has long developed the ability to intercept incoming missiles.
  • In 2011, a modified Prithvi missile mimicked the trajectory of a ballistic missile with a 600-km range.
  • The DRDO-developed Ballistic Missile Defence (BMD) Interceptor Missile successfully engaged an Indian orbiting target satellite in Low Earth Orbit (LEO) in a ‘Hit to Kill’ mode.
  • The interceptor missile was a three-stage missile with two solid rocket boosters.

4.Young Scientist Programme (YUVIKA)

Young Scientist Programme

  • ISRO has launched a special programme for School Children called “Young Scientist Programme” “YUva VIgyani KAryakram from this year.
  • The Program is primarily aimed at imparting basic knowledge on Space Technology, Space Science and Space Applications to the younger ones with the intent of arousing their interest in the emerging areas of Space activities.
  • The residential training programme will be of around two weeks duration during summer holidays and it is proposed to select 3 students each from each State/ UTs to participate in this programme covering state, CBSE, and ICSE syllabus.
  • Those who have just finished 9th standard (in the academic year 2018-19) and waiting to join 10th standard (or those who have started 10th Std just now) will be eligible for the programme.
  • The selection will be based on the 8th Std marks.
  • Students belonging to the rural area have been given special weightage in the selection criteria.

5.PSLV-C45/ Emisat Mission

  • For the sheer number of ‘firsts’ to its credit, the scheduled PSLV-C45/Emisat mission scheduled will be a memorable one for the ISRO.

PSLV-C45/Emisat

  • C-45, which is set for lift-off from the second launchpad at Sriharikota, will mark the 47th flight of the PSLV.
  • It is meant for electromagnetic spectrum measurements, according to the ISRO.
  • It will be released into an orbit at 749 km.
  • EMISAT is primarily based on on the famous Israeli spy satellite called SARAL or (Satellite with ARgos and ALtika), and inherits its SSB-2 bus protocol for conducting sharp electronic surveillance across the length and breadth of India.
  • The satellite would serve as the country’s roving device for detecting and gathering electronic intelligence from enemy radars across the borders as it circles the globe roughly pole to pole every 90 minutes or so.
  • For the third successive PSLV mission, the ISRO plans to reuse the rocket’s spent fourth stage or PS4 to host short experiments.

6.ISRO, French agency to set up a maritime surveillance system

  • ISRO and its French counterpart CNES has sealed an agreement to set up a joint maritime surveillance system in the country.
  • The two nations will explore putting up a constellation of low-Earth orbiting satellites.

Oceansat-3-Argos Mission

  • The system will be augmented with the launch of Oceansat-3-Argos mission in 2020 along with a joint infrared Earth-observation satellite.
  • These will identify and track the movement of ships globally – and in particular, those moving in the Indian Ocean region where France has its Reunion Islands.
  • Before that, they will initially share data from their present space systems and develop new algorithms to analyse them, according to the Paris based National Centre for Space Studies.
  • They work together for the design and development of joint products and techniques, including those involving Automatic Identification System (AIS), to monitor and protect the assets in land and sea.

7. Use of Space Technology in Agriculture Sector

  • The Ministry of Agriculture and Farmers Welfare has been pro-active in using the space technology in the agricultural sector. Take a look of various initiative in the aid of farmers:

Various institutional measures

  1. The Department of Agriculture, Cooperation and Farmers Welfare established a Centre, called Mahalanobis National Crop Forecast Centre, in 2012.
  2. It works for operationalization of the space technology developed in the Indian Space Research Organization, for crop production forecasting.
  3. The Soil and Land Use Survey of India uses satellite data for soil resources mapping.

8. India’s communication satellite GSAT-31 launched successfully

GSAT-31

  1. It was launched in an elliptical Geosynchronous Transfer Orbit with a perigee (nearest point to Earth) of 250 km and an apogee (farthest point to Earth) of 35,850 km, inclined at an angle of 3.0 degree to the equator.
  2. With a lift-off mass of 2536 kg, GSAT-31 will augment the Ku-band transponder capacity in Geostationary Orbit.
  3. The satellite will provide continuity to operational services on some of the in-orbit satellites.
  4. GSAT-31 will provide DTH Television Services, connectivity to VSATs for ATM, Stock-exchange, Digital Satellite News Gathering (DSNG) and e-governance applications.
  5. The satellite will also be used for bulk data transfer for a host of emerging telecommunication applications.
  6. It is India’s 40th communication satellite which is configured on ISRO’s enhanced ‘I-2K Bus’, utilising the maximum “bus capabilities” of this type.

9.ISRO launches Human Space Flight Centre in Bengaluru

Human Space Flight Centre (HSFC)

  1. The HSFC, the hub of ISRO’s future manned missions, was inaugurated at ISRO headquarters in Bengaluru.
  2. Announced on August 15 2018, the country’s first crewed mission is set to happen by 2022, the 75th year of Independence.
  3. HSFC shall be responsible for the implementation of Gaganyaan project — which involves mission planning, development of engineering systems for crew survival in space, crew selection and training and also pursue activities for sustained human space flight missions.
  4. HSFC will take the support of ISRO centres to implement the first developmental [crewed] flight.

10.ISRO’s first mission of 2019 to put military satellite Microsat-R in space

  • ISRO’s first mission of 2019 will put into space a 130-kg military imaging satellite, Microsat-R.
  • C-44 will be launched from the older First Launch Pad at the Satish Dhawan Space Centre, Sriharikota.

 Details of Launch

  1. The satellite would be placed within 15 minutes after take-off in a polar orbit 274 km away from Earth.
  2. This is much lower than any of its civil Earth observation spacecraft, which fly pole to pole over the globe at between 400 km and 700 km.

Payload Details

Microsat-R

  1. Microsat-R and its payload come assembled from a handful of laboratories of the Defence Research and Development Organisation (DRDO).
  2. It is meant for military use.
  3. The satellite was assembled outside and ISRO only interfaced it” with its own systems and the launch vehicle, just as it treats any customer satellite.

11.Unispace Nanosatellite Assembly & Training Programme of ISRO

NNATI Programme

  1. It is a capacity-building programme on Nanosatellite development.
  2. It is an initiative by ISRO to commemorate the 50th anniversary of the first United Nations conference on the exploration and peaceful uses of outer space (UNISPACE-50).
  3. The programme provides opportunities to the participating developing countries to strengthen in assembling, integrating and testing of Nanosatellite.
  4. UNNATI programme is planned to be conducted for 3 years by U.R. Rao Satellite Centre of ISRO in 3 batches and will target to benefit officials of 45 countries.

About UNISPACE+50

  1. It is an event marking the 50th year of the first UN Conference on the Exploration and Peaceful Uses of Outer Space.
  2. It is an initiative of the United Nations Office for Outer Space Affairs (UNOOSA).
  3. Three such conferences held earlier recognized the potential of space and laid the guidelines for human activities and international cooperation related to outer space.

11.ISRO successfully launches hyperspectral imaging satellite HysIS

HysIS

  1. HysIS stands for Hyper Spectral Imaging Satellite.
  2. The objective of the probe is to provide observations within the visible, near-infrared and shortwave infrared bands of the electromagnetic spectrum.
  3. The imaging tools will help the HysIS satellite monitor atmospheric activity and climate change, while also assisting studies of Earth’s magnetic field.
  4. These observations will have a host of applications, prime among which relate to agriculture, forestry, water management, and coastal patterns.
  5. The satellite’s payload also consists of a 730W power backup, and a 64Ah Li-ion battery.
  6. It will continue to make observations until 2023 when the mission ends.
  7. After this launch, the next big event for the Indian space organisation will be its awaited mission to the moon – Chandrayaan-2 – in early 2019.

12.GROWTH-India telescope’s first science observation

GROWTH-India Telescope

  1. The GROWTH-India telescope was commissioned six months ago soon after which it saw first light, on the night of June 12.
  2. It is part of a multi-country collaborative initiative – known as the Global Relay of Observatories Watching Transients Happen (GROWTH) – to observe transient events in the universe.
  3. The fully robotic telescope is designed to capture cosmic events occurring over relatively shorter periods of the cosmological timescale: years, days and even hours.
  4. Universities and research institutes from the US, the UK, Japan, India, Germany, Taiwan and Israel are part of the initiative.
  5. Their primary research objective is time-domain astronomy, which entails the study of explosive transients and variable sources (of light and other radiation) in the universe.

13.ISRO telemedicine nodes for soldiers in high-altitude areas

Telemedicine Nodes by ISRO

  1. In a major effort to improve emergency medical support to soldiers posted in high-altitude areas, especially Siachen, the Integrated Defence Staff of the Defence Ministry and the ISRO signed an MoU to set up telemedicine nodes in critical places across the country.
  2. ISRO will establish 53 more nodes in the first phase over and above the existing 20, in various establishments of the Army, Navy and Air Force across the country.

14.Chandrayaan-1 data confirms the presence of ice on Moon: NASA

NASA’s Moon Mineralogy Mapper (M3) is testimony

  1. M3, aboard the Chandrayaan-1 spacecraft, launched in 2008 by the Indian Space Research Organisation (ISRO), was uniquely equipped to confirm the presence of solid ice on the Moon.
  2. Scientists used data from NASA’s Moon Mineralogy Mapper (M3) instrument to identify three specific signatures that definitively prove there is water ice at the surface of the Moon.
  3. It collected data that not only picked up the reflective properties we would expect from ice, but was also able to directly measure the distinctive way its molecules absorb infrared light, so it can differentiate between liquid water or vapour and solid ice.
  4. Most of the new-found water ice lies in the shadows of craters near the poles, where the warmest temperatures never reach above minus 156 degrees Celsius.
  5. Due to the very small tilt of the Moon’s rotation axis, sunlight never reaches these regions.

15.ISRO set to launch its TV channel

  1. The ISRO is all set for a year-long Vikram Sarabhai centenary celebration starting in August 2019 to honour the visionary scientist and its legendary founding father.
  2. In a few months’ time, it plans to roll out a dedicated ISRO TV channel showcasing space applications, developments and science issues, targeting young viewers and people in remote areas in their language.

Satellite launches now open to public

  1. As it strengthens its public outreach, ISRO will shortly start allowing the public to watch satellite launches from its Sriharikota launch centre.
  2. Selected students of classes 8 to 10 will be trained at ISRO for a month and taken to various laboratories and centres across the country.

Vikram Sarabhai- the legend

  1. Sarabhai, the architect of the Indian space programme, the first ISRO chief and renowned cosmic ray scientist, was born on August 12, 1919.
  2. ISRO’s tributes to Sarabhai start with naming the first Indian moon landing spacecraft of the Chandrayaan-2 mission ‘Vikram’.
  3. Sarabhai was only 28 when he sowed the seeds of a space agency around the late 1940s and 1950s.

16. Upgraded Vikas engine will soon boost ISRO’s rockets

Adding more thrust

  1. The Vikas engine will improve the payload capability of PSLV, GSLV and GSLV Mk-III launch vehicles.
  2. The space agency has improved the thrust of the Vikas engine that powers all of them.

Main beneficiary: GSLV Mk III

  1. The main beneficiary of the high-thrust Vikas engine is said to be the heavy-lifting GSLV-Mark III launcher, which ISRO expects will now put 4,000-kg satellites to space.
  2. This would be the third Mk-III and the first working one to be designated Mk III Mission-1 or M1.
  3. The first MkIII of June 2017 started with a 3,200-kg satellite and the second one is being readied for lifting a 3,500-kg spacecraft.
  4. The Vikas engine is used in the second stage of the light lifting PSLV; the second stage and the four add-on stages of the medium-lift GSLV; and the twin-engine core liquid stage of Mk-III.

17.ISRO’s PRL scientists discover an ‘EPIC’ planet

India in elite planet-spotting club

  1. A team from the Physical Research Laboratory, Ahmedabad, has spotted for the first time a distant planet six times bigger than Earth and revolving around a Sun-like star about 600 light-years away.
  2. EPIC 211945201b (or K2-236b) is the name given to the planet by the discovery team. The host star is named EPIC 211945201 or K2-236.
  3. With this discovery, India has joined a handful of countries which have discovered planets around stars,” PRL’s parent ISRO has announced.
  4. The discovery was made using a PRL-designed spectrograph, PARAS, to measure and confirm the mass of the new planet.

About EPIC

  1. EPIC was found circling very close to the Sun-like star, going around it once in about 19.5 days and unlikely to be inhabitable because of its high surface temperature of around 600°C.
  2. The team found the planet to be smaller in size than Saturn and bigger than Neptune.
  3. Its mass is about 27 times Earth’s and six times that of Earth at the radius.
  4. The scientists estimate that over 60% of its mass could be made up of heavy elements like ice, silicates and iron.

GSAT-30 spacecraft

  1. India’s telecommunication satellite GSAT-30 was successfully launched into a Geosynchronous Transfer Orbit (GTO) on January 17, 2020, from Kourou launch base, French Guiana by Ariane-5 VA-251.
  2. GSAT-30 is configured on ISRO’s enhanced I-3K Bus structure to provide communication services from Geostationary orbit in C and Ku bands. The satellite derives its heritage from ISRO’s earlier INSAT/GSAT satellite series.
  3. Weighing 3357 kg, GSAT-30 is to serve as a replacement to INSAT-4A spacecraft services with enhanced coverage. The satellite provides Indian mainland and islands coverage in Ku-band and extended coverage in C-band covering Gulf countries, a large number of Asian countries and Australia.
  4. The designed in-orbit operational life of GSAT-30 is more than 15 years.

Important Submarines in News:

1. Indian Naval ship Sahyadri reaches Darwin, Australia for exercise KAKADU 2018

Exercise KAKADU

  1. After having been deployed to the South China Sea and the Pacific Ocean for over four months, which included representing Indian Navy in multinational exercises MALABAR 18 at Guam and RIMPAC 18 at Hawaii, INS Sahyadri entered the Port of Darwin, Australia to participate in Exercise KAKADU 2018
  2. Indian Navy’s participation in KAKADU 18 provides an excellent opportunity to engage with regional partners and undertake multinational maritime activities ranging from constabulary operations to high-end maritime warfare in a combined environment
  3. It is aimed at enhancing interoperability and development of common understanding of procedures for maritime operations

About the exercise

  1. Exercise KAKADU, which started in 1993, is the premier multilateral regional maritime engagement exercise hosted by the Royal Australian Navy (RAN) and supported by the Royal Australian Air Force (RAAF)
  2. The exercise is held biennially in Darwin and the Northern Australian Exercise Areas (NAXA)
  3. Exercise KAKADU derives its name from Kakadu National Park, which is a protected area in the northern territory of Australia, 171 km south-east of Darwin
  4. KAKADU 2018 is the 14th edition of the exercise
  5. During the exercise, professional exchanges in harbour and diverse range of activities at sea, including complex surface, sub-surface and air operations would enable sharing of best practices and honing of operational skills.

2.Operation NISTAR Successfully Culminates with Safe Disembarkations of 38 Indian Nationals at Porbandar

Operation NISTAR

  • INS Sunayana successfully evacuated 38 Indian Nationals at/ off Socotra Islands during a swift Humanitarian and Disaster Relief Operation (HADR), code named Operation NISTAR.
  • The Indian Nationals were stranded after severe Cyclonic Storm – Mekunu devastated the area around Socotra Island.
  • INS Sunayana was diverted from Gulf of Aden deployment to Socotra Island for search and rescue operations.

Humanitarian Assistance and Disaster Relief (HADR) in India’s National Strategy

  • HADR operations have attracted the attention of the global community in recent years.
  • The Indian armed forces have a wide experience of disaster relief operations both at home and abroad, where they have been the core of relief operations.
  • Due to its sub-continental size, geographical location and its vulnerability to disasters, India has kept its forces ready to render assistance at short notice.
  • In the six decades since independence, India has experienced a number of natural and man-made disasters such as floods, earthquakes, famines, industrial accidents etc.
  • At the same time, India has partnered the global community in providing relief in affected regions.

3.INS Karanj boosts Navy’s firepower

Third Scorpene class submarine joins Naval fleet

  1. The Navy’s third state-of-the-art Scorpene class submarine, INS Karanj, has been launched
  2. The new submarine is named after the earlier Kalvari class INS Karanj, which was decommissioned in 2003
  3. This launch follows the launch of the first two Scorpene submarines — INS Kalavari and INS Khanderi.

4.Indian Navy inducts its first Deep Submergence Rescue Vehicle

  • The Indian Navy has inducted its first Deep Submergence Rescue Vehicle (DSRV) System at the Naval Dockyard in Mumbai.

About DSRV

  1. DSRV is used to rescue crew members stranded in submarines that get disabled. The Indian Navy joins a select group of naval forces in the world that boasts of this niche capability.
  2. The DSRV can be operated at a depth of 650 meters and can hold around 15 people.
  3. The Indian Navy in March 2016 had commissioned two DSRVs, the second will deployed at the Eastern Naval Command in Visakhapatnam.
  4. The induction of the DSRV marks the culmination of years of effort of the Indian Navy in acquiring this niche submarine rescue capability.

Why need DSRV System?

  1. The Indian Navy currently operates submarines of the Sindhughosh, Shishumar, Kalvari Classes as well as nuclear powered submarines.
  2. The operating medium and the nature of operations undertaken by submarines expose them to high degree of inherent risk.
  3. In such an eventuality, traditional methods of search and rescue at sea are ineffective for a disabled submarine.
  4. To overcome this capability gap the Navy has acquired a third generation, advanced Submarine Rescue System considering of a Non-tethered Deep Submergence Rescue Vehicle (DSRV) and its associated equipment.

What makes Indian DSRV special?

  1. The Indian Navy’s DSRV System is considered to be the most advanced system currently in operation globally for its capability of undertaking rescue from a disabled Submarine upto 650 m depth.
  2. It is operated by a crew of three, can rescue 14 personnel from a disabled Submarine at one time and can operate in extreme sea conditions.

5.Indian Navy’s Deep Submergence Rescue Vessel (DSRV) Capability

Context

  • The Indian Navy has inducted a Submarine Rescue System with a Deep Submergence Rescue Vessel (DSRV) along with associated equipment.

Deep Submergence Rescue Vessel (DSRV)

  1. The Indian DSRV has the capability to rescue personnel from a distressed submarine (DISSUB) up to a depth of 650 m and it is the latest in terms of technology and capabilities.
  2. It has been designed and supplied to meet unique requirements of our submarines by M/s James Fishes Defence, UK.
  3. This System has a Side Scan Sonar for locating the position of the submarine in distress at sea.
  4. It will be providing immediate relief by way of posting Emergency Life Support Containers with the help of Remotely Operated Vehicle (ROV) for the rescue.
  5. To ensure early mobilization, the System permits rapid transportation of the Rescue System from the base to the exact location of the distressed submarine by transportation using air/land/sea vessels.

5.INS Tarangini returns after Vogage across the World

Context

  • The sail training ship of Indian Navy, INS Tarangini based at Kochi, returned after a seven month long sailing across the world.

Lokayan 18

  1. The Voyage named “Lokayan 18” was flagged off on 10 Apr 18 from Kochi in INS Tarangini.
  2. During the voyage, the ship has proudly ‘shown the flag’ and highlighted the diverse culture of India across 15 ports in 13 countries.
  3. The ship sailed across the Arabian Sea, Red Sea, Suez Canal, Mediterranean Sea, Strait of Gibraltar, North Atlantic Ocean, Bay of Biscay, English Channel and North Sea, right up to Norway before commencing her homeward passage back to Kochi.
  4. The ship also participated in the culminating event of the ‘Three Festival Tall Ships Regatta’ at Bordeaux, France.
  5. Over the years, INS Tarangini has been extensively deployed for long voyages away from her base port of Kochi, which includes one circumnavigation of the globe (2003-04) and three previous ‘Lokayans’ (2005, 2007 and 2015).

About INS Tarangini

  1. INS Tarangini is a three masted ‘square rigged’ barque which carries a total of 20 sails.
  2. She is the First Sail Training Ship in Indian Navy and was commissioned on 11 Nov 1997.
  3. In her 21 years of glorious service, she has sailed over 2,20,000 nautical miles to date across the world’s oceans.
  4. She is the first of two Sail Training Ships in the First Training Squadron, the other being INS Sudarshini.
  5. The primary role of these Sail Training Ships is to develop character and professionalism, as well as inculcate the qualities of initiative, courage, resilience and spirit amongst the Sea Trainees.
  6. The ship also imparts practical training to them, primarily on navigation, sailing and seamanship.

6.EyeROV TUNA: India’s first Underwater Robotic Drone

India’s first Underwater Drone

  1. India’s first underwater robotic drone was launched and handed over to the Naval Physical and Oceanographic Laboratory (NPOL) of DRDO.
  2. The Remotedly Operated Vehicle (ROV)/underwater drone, named EyeROV TUNA, was developed by EyeROV Technologies, a company incubating at Kalamassery-based Maker Village, Kochi.
  3. NPOL, a laboratory of Delhi-headquartered Defence Research and Development Organisation (DRDO), made the first order of the product.
  4. The drone will be used by NPOL for research and development activities which in turn would result in a commercial product for defense purposes.

Features of EyeROV TUNA

  1. It can be navigated up to a depth of 50 metres to take real-time HD video images to examine ship hulls or undersea cables or bridge moorings, eliminating the need for costlier and riskier manual inspection by divers.
  2. It weighs less than 10 kilogram and can be used for inspection of ship hulls, ports, dams and nuclear power plants
  3. EyeROV is a light rover which can be easily accessed and controlled with the supporting attached and connected hardware such as laptops and joysticks.
  4. It can be used for inspection of ship hulls, ports, dams and nuclear power plants.

7.India’s first missile tracking ship is readying for sea trials

VC 11184

  1. This will be the first of its kind ocean surveillance ship being built as part of the efforts to strengthen the country’s strategic weapons programme.
  2. Its induction will put India in the elite of club of a few countries that have such a sophisticated ocean surveillance ship.
  3. It has the capacity to carry 300-strong crew with hi-tech gadgets and communication equipment, powered by two diesel engines, and a large deck capable of helicopter landing.
  4. The keel of the ship which was laid on June 30, 2014, is being built for the National Technical Research Organisation.
  5. This technical intelligence agency working directly under the supervision of the Prime Minister’s Office and the National Security Adviser.

Strategic Weapons Programme

  1. Hindustan Shipyard Limited (HSL) is gearing up to undertake sea trials of India’s first missile tracking ship by the first week of October.
  2. Visakhapatnam is considered a strategic location on the East Coast for the Indian defence forces as it is home for Ship Building Centre to build nuclear powered submarine INS Arihant class.

INS Chakra

  • Nuclear powered submarine under a 10-year lease from Russia since 2012.
  • Negotiations are underway to lease an additional Akula-class attack submarine

Arihant Class Submarine

  • A class of nuclear-powered ballistic missile submarines being built for the Indian Navy
  • The lead vessel of the class, INS Arihant was launched in 2009
  • Arihant is the first ballistic missile submarine to have been built by a country other than one of the five permanent members of the UNSC
  • The 6,000 tonne vessel was built under the Advanced Technology Vessel (ATV) project at the Ship Building Centre in the port city of Visakhapatnam
  • INS Arihant is to be the first of the expected five in the class of submarines designed and constructed as a part of the Indian Navy’s secretive Advanced Technology Vessel (ATV) project

Project 17 – Shivalik class Frigate

  • The Shivalik class or Project 17 class is a class of multi-role frigates in service with the Indian Navy.
  • They are the first stealth warships built in India – built by Mazagon Dock Limited
  • A total of three ships were built between 2000 and 2010, and all three were in commission by 2012

Project 15 – Delhi Class destroyers

  • Delhi-class destroyers are guided-missile destroyers of the Indian Navy
  • Three ships of this class are in active service – INS Delhi, INS Mysore, INS Mumbai
  • The Delhi-class vessels are the third-largest warships to be fully designed and built in India, after the Kolkata-class destroyers and the Shivalik-class frigates

Project 15A – Kolkata Class Destroyer

  • The Kolkata class (Project 15A) are a class of stealth guided missile destroyers
  • The class comprises three ships – Kolkata, Kochi and Chennai – built by Mazagon Dock Limited
  • The destroyers are a follow-on of the Project 15 Delhi-class destroyers, but are considerably more capable than them

Project 15B – Visakhapatnam Class Destroyer

  • The Visakhapatnam class (Project 15B) is a class of stealth guided missile destroyers currently being built for the Indian Navy.
  • Based on the Kolkata-class design, the Visakhapatnam class will be an extensively improved version.
  • 1st ship of Project 15B, a Guided Missile Destroyer Visakhapatnam– largest missile destroyer commissioned in India till now
  • Will carry 8 BrahMos missiles
  • Future Ships under this project – Porbandar, Mormugao, Paradip

Project 17A

  • The Project 17A-class frigate is follow-on of the Project 17 Shivalik-class frigate for the Indian Navy.
  • A future project aimed at building country’s most advanced warships
  • Seven frigates will be built indigenously with stealth features to avoid easy detection by Mazagon Dock and GRSE

Project 75I

  • 6 Diesel submarines with Air Independent Propulsion System (AIP) technology for Indian Navy by 2022
  • Conventional diesel-electric submarines have to surface every few days to get oxygen to recharge their batteries.
  • With AIP systems, they can stay submerged for much longer periods.
  • Will have both anti-surface and anti-submarine warfare viz. vertical launched BrahMos for the sea & land targets + Tube-launched torpedoes for anti-submarine warfare
  • AIP significantly improves stealth, as it enables a submarine to generate electricity for services and battery charging and propulsion while completely submerged.

Scorpene submarine to carry AIP

  • A class of diesel-electric submarine jointly developed by the French DCN and the Spanish company Navantia & now by DCNS under Project 75.
  • It features diesel-electric propulsion and an additional air-independent propulsion (AIP) system.
  • A DRDO-developed critical propulsion system will go into the last two of the six Scorpene submarines, being built under technology transfer at Mazagon Dock, Mumbai.

Aircraft Carriers –  INS Vikrant

  • Maiden indigenous aircraft carrier in India
  • Largest aircraft carrier after induction
  • Previous aircraft carriers in India – INS Vikramaditya from Russia & INS Viraat from UK
  • Puts India in the elite group of four nations – the US, Russia, the UK and France – in the world capable of designing and constructing aircraft carriers

INS Alleppey Decommissioned

  • Was one of the six Ponchicherry class coastal minesweepers, designed to detect and destroy underwater mines

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