Citizendia

Defence Research and Development Organization
DRDO Seal
DRDO Seal
Agency overview
Formed1958
HeadquartersDRDO Bhavan, New Delhi
Employees30,000 (5,000 scientists)
Annual BudgetUS$ 1. Year 1958 ( MCMLVIII) was a Common year starting on Wednesday (link will display full calendar of the Gregorian calendar. New Delhi (नई दिल्ली ਨਵੀਂ ਦਿੱਲੀ نئی دلی is the Capital city of India. The United States dollar ( sign: $; code: USD) is the unit of Currency of the United States; it has also been 18 billion (2006)[1]
Minister ResponsibleA.K. Antony, Defence Minister of India
Agency ExecutiveM. Arackaparambil Kurian Antony ( Malayalam: അറക്കപ്പറമ്പില്‍ കുര്യന്‍ ആന്‍‌റ്റണി) ( 28 December The Ministry of Defence (MoD is a Government of India ministry charged with the responsibility of internal and external security of the Republic of India Natrajan, Director General, DRDO and Scientific Adviser to Defence Minister
Website
www.drdo.org

The Defence Research and Development Organisation (DRDO) (Hindi: रक्षा अनुसंधान एवं विकास संघठन, Rakṣā Anusandhān evaṃ Vikās Saṃghaṭhan) is one of Asia's largest defence contractors and a leading aerospace manufacturer, headquartered in New Delhi, India. Hindi ( Devanāgarī: hi [[wiktहिन्दी हिन्दी]] or hi [[wiktहिंदी हिंदी]] IAST:, IPA:) is The International Alphabet of Sanskrit Transliteration ( IAST) is a popular Transliteration scheme that allows a lossless Romanization of Indic A defense contractor (or defence contractor, also sometimes called a military contractor) is a Business organization or individual that provides products An aerospace manufacturer is a company or individual involved in the various aspects of designing building testing selling and maintaining Aircraft, Aircraft parts New Delhi (नई दिल्ली ਨਵੀਂ ਦਿੱਲੀ نئی دلی is the Capital city of India. India, officially the Republic of India (भारत गणराज्य inc-Latn Bhārat Gaṇarājya; see also other Indian languages) is a country It was formed in 1958 by the merger of Technical Development Establishment and the Directorate of Technical Development and Production (DTDP) with the Defence Science Organisation (DSO). Year 1958 ( MCMLVIII) was a Common year starting on Wednesday (link will display full calendar of the Gregorian calendar.

DRDO has a network of 51 laboratories which are deeply engaged in developing defence technologies covering various disciplines, like aeronautics, armaments, electronic and computer sciences, human resource development, life sciences, materials, missiles, combat vehicles development and naval research and development. The organisation includes more than 5,000 scientists and about 25,000 other scientific, technical and supporting personnel.

Contents

Projects

Postage stamp on DRDO.Date of Release: 26 January 1999.
Postage stamp on DRDO. The Defence Research and Development Organisation ( DRDO) ( Hindi: रक्षा अनुसंधान एवं विकास संघठन, Date of Release: 26 January 1999. Events 1340 - King Edward III of England is declared King of France. Year 1999 ( MCMXCIX) was a Common year starting on Friday (link will display full 1999 Gregorian calendar)

In recent years, the DRDO has achieved success in several projects whilst it has been also dogged by criticism that others have faced time and cost overruns.

Aeronautics

The LCA in formation flight.
The LCA in formation flight.

Avionics

The DRDO's avionics program has been a success story; its Mission computers, radar warning receivers, high accuracy direction finding pods, airborne jammers, flight instrumentation, are used across a wide variety of Indian Air Force aircraft. The organization began developing these various items for its upgrades, and for the LCA project. Variants were then developed for other aircraft. The lead designer in several of these efforts has been DARE, or the Defence Avionics Research Establishment. Other laboratories have also chipped in, from the radar specialist LRDE, to Electronic warfare focused DEAL to the ADE, which develops UAVs and flight control systems. The DRDO is also codeveloping more advanced avionics for the Light Combat Aircraft and the IAF's combat fleet. WikipediaWikiProject Aircraft. Please see WikipediaWikiProject Aircraft/page content for recommended layout These include a range of powerful Open Architecture computers, better Defensive avionics including modern RWR's, Self protection jammers, Missile approach warning systems and integrated defensive suites, Optronics systems (such as Infrared search and track systems) and navigational systems such as Ring Laser Gyro based Inertial navigational systems. Other items under development include digital Map generators, a Modern multi-mode fire control radar (the LCA-MMR), Helmet mounted displays and Smart multifunctional displays.

Other Hindustan Aeronautics Limited programs

Apart from the aforementioned upgrades, DRDO has also assisted Hindustan Aeronautics with its programs. Hindustan Aeronautics Limited ( HAL) based in Bangalore, India, is one of Asia 's largest Aerospace companies These include the HAL Dhruv helicopter and the HAL HJT-36. WikipediaWikiProject Aircraft. Please see WikipediaWikiProject Aircraft/page content for recommended layout WikipediaWikiProject Aircraft. Please see WikipediaWikiProject Aircraft/page content for recommended layout Over a hundred LRU (Line Replaceable Unit)'s in the HJT-36 have come directly from the LCA program. Other duties have included assisting the Indian Air Force with indigenization of spares and equipment. These include both mandatory as well as other items.

Unmanned aerial vehicles

DRDO Nishant Unmanned Aerial Vehicles.
DRDO Nishant Unmanned Aerial Vehicles. The DRDO Nishant is an Unmanned Aerial Vehicle (UAV developed by India 's ADE ( Aeronautical Development Establishment) a branch of DRDO
Indian Air Force Lakshya PTA.
Indian Air Force Lakshya PTA. The Indian Air Force (Devanāgarī भारतीय वायु सेना IAST Bhartiya Vāyu Senā is the air arm of the Armed Forces of India and has the The Lakshya is a remotely piloted high speed target drone system developed by the Aeronautical development establishment (ADE of DRDO.

The DRDO has also developed two unmanned aerial vehicles- the Nishant (Restless in Hindi) tactical UAV and the Lakshya (Target in Hindi) Pilotless Target Aircraft (PTA). The DRDO Nishant is an Unmanned Aerial Vehicle (UAV developed by India 's ADE ( Aeronautical Development Establishment) a branch of DRDO Hindi ( Devanāgarī: hi [[wiktहिन्दी हिन्दी]] or hi [[wiktहिंदी हिंदी]] IAST:, IPA:) is The Lakshya is a remotely piloted high speed target drone system developed by the Aeronautical development establishment (ADE of DRDO. Hindi ( Devanāgarī: hi [[wiktहिन्दी हिन्दी]] or hi [[wiktहिंदी हिंदी]] IAST:, IPA:) is [4] The Lakshya PTA has been ordered by all three services for their gunnery target training requirements. Efforts are on to develop the PTA further, with an improved all digital flight control system, and a better turbojet engine to be manufactured at HAL. [5] The Nishant is a hydraulically launched short ranged UAV for the tactical battle area, and 12 units have been ordered by the Indian Army. It is currently being evaluated by the Indian Navy and the Indian Paramilitary forces as well. The Indian Air Force is unlikely to order the type since it is a tactical UAV and does not meet their requirements for a long range, high endurance UAV with a heavy payload. The DRDO is also going ahead with its plans to develop a new class of UAVs. These draw upon the experience gained via the Nishant program, and will be substantially more capable. Referred to by the HALE (High Altitude Long Endurance) and MALE (Medium Altitude Long Endurance) designations, these two UAVs will see a consortium approach, with DRDO being supported by partner laboratories including the National Aerospace Laboratories, and private and public firms, including Hindustan Aeronautics Ltd.. Hindustan Aeronautics Limited ( HAL) based in Bangalore, India, is one of Asia 's largest Aerospace companies The HALE has been tentatively named the Rustom, in honor of Dr Rustom Damania of NAL, and will feature canards and carry a range of payloads, including optronic, radar, laser designators and ESM. The MALE, will be a derivative of the Nishant, but beefed up with more payload, and range ability and will have conventional landing and take off capability. The HALE UAV will probably feature SATCOM links, allowing it to be commanded beyond line of sight. Other tentative plans speak of converting the LCA into a UCAV (unmanned combat aerial vehicle), and weaponizing UAVs.

Indigenization efforts

DRDO has been responsible for the indigenization of key defence stores and equipment. Indian Air Force pilots use DRDO developed g-suits, flight suits overalls, helmets, oxygen masks, gloves and automatic inflatable life jackets. [6]

DRDO has assisted Hindustan Aeronautics Ltd and the IAF with the indigenization of spares and assemblies for several aircraft. DRDO laboratories have worked in coordination with academic institutes, the CSIR and even ISRO over projects required for the Indian Air Force and its sister services. DRDO's infrastructure is also utilized by other research organizations in India.

Armaments

DRDO often cooperates with the state owned Ordnance Factory Board for producing its items. These have led to issues of marginal quality control for some items, and time consuming rectification. Whilst these are common to the introduction of most new weapons systems, the OFB has had issues with maintaining the requisite schedule and quality of manufacture owing to their own structural problems and lack of modernisation. Criticism directed at the OFB is invariably used for the DRDO, since the users often make little distinction between the developer and the manufacturer. OFB has got more access to funding in recent days, and this is believed to have helped the organization meet modern day requirements.

Even so, India's state owned military apparatus meets the bulk of its ammunition and the need for "bread and butter" items. The DRDO has played a vital role in the development of this ability since the role of private organizations in the development of small arms and similar "bread and butter" items has been limited. A significant point in case is the INSAS rifle which has been adopted by the Indian Army as its standard battle rifle and is in extensive service. There have been issues with rifle quality in usage under extreme conditions in the cold, the OFB has stated that it will rectify these teething troubles with higher grade material and strengthening the unit for extreme conditions. Prior teething troubles were also dealt with in a similar manner. [6] In the meanwhile, the rifle has found favour throughout the army formations and has been ordered in number by other paramilitary units and police forces. Army officers have commented favourably on the system. [7][8]

In recent years, India's booming economy has allowed the OFB to modernise with more state funding coming its way, to the tune of $400 million to be invested during 2002-07. [7] The organization hopes that this will allow it to become world class; it has also begun introducing new items, including a variant of the Ak-47 and reverse engineered versions of the Denel 14/20 mm anti-material rifles. [9]

In the meanwhile, the DRDO has also forged partnerships with several private sector industrial partners, which have allowed it to leverage their strengths. Successful examples of this include the Pinaka MBRL, which has been assisted significantly by two private developers, Larsen and Toubro Ltd. as well as TATA, apart from several other small scale industrial manufacturers.

The DRDO's various projects may be grouped as follows:

Small arms

Insas Assault Rifle
Insas Assault Rifle

Artillery systems and ammunition

Pinaka rocket launcher.
Pinaka rocket launcher.

Tank armament

Model of Arjun MBT.
Model of Arjun MBT.

DRDO's ARDE also developed other critical systems, such as the Arjun Main Battle Tank's 120 mm rifled main gun and is presently engaged in the development of the armament for the Future IFV, the "Abhay". The DRDO is also a member of the trials teams for the T-72 upgrade and its Fire control systems. Earlier on, the DRDO also upgraded the Vijayanta medium tank with new fire control computers.

Electronics and computer sciences

The following are some of the more well known projects, as available from public sources.

Electronic warfare

EW systems for the Army

EW systems for the Air Force

Radars

Starting with a modest design aim, the DRDO has steadily increased its radar development footprint across a range of systems. The result has been substantial progress in India's ability to design and manufacture high power radar systems of its own design and with locally manufactured components and systems. The path began with the development of short range 2D systems (Indra-1) and has now extended to high power 3D systems intended for strategic purposes (LRTR). Several other projects span the gamut of radar applications, from airborne surveillance (AEW & C) to firecontrol radars (land based, and airborne). The key aim, as far as DRDO is concerned, is self reliance, both in terms of design as well as manufacture. In this respect, the DRDO has built up a network of suppliers from across India who assist it on these projects.

The DRDO's productionized as well as production ready radar systems include:

Apart from the above, the DRDO has also several other radar systems currently under development or in trials, these include:

Command and control software and decision-making tools

Computing Technologies

DRDO has worked extensively high speed computing given its ramifications for most of its defence projects. These include supercomputers for computational flow dynamics, to dedicated microprocessor designs manufactured in India for flight controllers and the like, to high speed computing boards built around Commercial Off The Shelf (COTS) components, similar to the latest trends in the defence industry.

Combat Vehicles & engineering

Tanks and armoured vehicles

Armoured personnel carrier for para military forces.
Armoured personnel carrier for para military forces.

Modification of BMP-2 series

India currently license manufactures the BMP-2 at its state owned OFB IFV production unit at Medak, with local components. The vehicle has been used as the basis for several locally designed modifications, ranging from missile launchers to engineering support vehicles. The DRDO's various labs (including its vehicle research units, VRDE, CVRDE, as well as R&DE, as well as others) have played a critical role in designing and developing these mission specific variants for the Indian Army.

Other engineering vehicles

In development

Naval Research and Development

Sonars

DRDO, BEL and the Indian Navy have developed and productionized a range of Sonars and related systems for the Navy's frontline combat ships. Sonar (which started as an Acronym for sound navigation and ranging) is a technique that uses Sound propagation (usually underwater to navigate These include the APSOH (Advanced Panoramic SOnar Hull mounted), HUMVAD (Hull Mounted Variable Depth sonar) and the HUMSA (follow on to the APSOH series; the acronym HUMSA stands for Hull Mounted Sonar Array) sonars, Nagan Towed Array Sonar, Panchendriya Submarine sonar and fire control system, sonobuoy Tadpole and its airborne signal processor Simhika. Other sonars such as the airborne sonar Mihir, are in trials, whilst work is proceeding apace on "New Generation" sonars. Sonars may be considered one of DRDO's most successful achievements, with the work begun under the leadership of a young Naval officer decades back. Today, the Indian Navy's most powerful ships rely on Indian made sonars. The standard fit for a frontline Naval ship would include the HUMSA-NG (New Generation) hull mounted sonar, a HUMVAD variable depth sonar and the Nagan towed array sonar. The Mihir, is a dunking sonar meant for use by the Naval ALH, working in conjunction with its Tadpole sonobuoy. The Panchendriya is in production for the Kilo class submarine upgrades. Some ships, such as the INS Beas field a mix of local (HUMSA and HUMVAD) and imported sonars (towed array), till the local towed array was developed. The Delhi class destroyer has the HUMSA and the HUMVAD. [48][49][50]

Torpedoes

DRDO is currently engaged in developing multiple Torpedo designs. The modern torpedo (historically called an automotive automobile locomotive or fish torpedo is a self-propelled explosive Projectile weapon launched above or below These include a lightweight torpedo (Advanced Experimental Torpedo) that has been accepted by the Navy and cleared for production (initial reports of it being unsuccessful proved to be speculative and false [23]). Other projects include the heavy weight wire-guided torpedo Varunastra and the Thakshak thermal torpedo suitable for use against both ships and submarines. The electrically powered Varunastra is now stated to be also in production. The DRDO with the help of Larsen & Toubro, India also developed and productionized a microprocessor controlled Triple tube torpedo launcher for the Indian Navy's ships as well as Towed torpedo decoy (TOTED). [51][52]

Other projects

These have included indigenisation of various components (for instance, adsorbent material for submarines, radar components), Naval ship signature reduction efforts and materials technology. DRDO has played a significant role in the development of warship grade steel in India and its productionization. DRDO has also assisted private industry in developing EW trainers, ship simulators for training and Health monitoring systems for onboard equipment. Other equipment for the Navy includes Underwater telephone sets, and VLF communication equipment, for the Navy's submarines. DRDO's IRDE has also developed Optronic fire control systems for the Navy's and the Coast Guard's ships. These consist of a locally developed autotracker, fire control system with a local fully stabilized gimbal mount containing a CCD imager and imported Thermal Imager. [53]

Information Command and Control systems

DRD0's labs have been part of ambitious and successful projects to develop sophisticated command and control systems for the Navy's ships, such as the EMCCA (Equipment Modular for Command and Control Application) which ties together various sensors and data systems. The EMCCA system gives commanders on the ship a consolidated tactical picture and adds to the ship’s maritime combat power. [54]

DRDO labs are also engaged in supporting the Navy's ambitious Naval enterprise wide networking system, a program to link all naval assets together via datalinks, for sharing tactical information.

Mines and targets

Three kinds of mines, processor based mine, moored mine and processor based exercise mine are in production for the Navy at Keltron, India. Targets developed for the Navy include a static target called the Versatile Acoustic target and a mobile target called the programmable deep mobile target (PDMT).

In development

Missile Systems

Integrated Guided Missile Development Program (IGMDP)

The IGMDP was launched by the Indian Government to develop a local missile design and development ability, and manufacture a range of missile systems for the three defence services.

The IGMDP has seen significant success in its two most important constituents- the Agni missile and the Prithvi missile systems, while two other programs, the Akash SAM and the anti-tank Nag Missile are still in development. See also Agni missile system --> The Agni missile ( Sanskrit: अग्नि Prithvi ( Sanskrit: पृथ्वी, {{IAST|pṛthvī}} "Earth") is a tactical surface-to-surface, short-range The Integrated Guided Missile Development Program (IGMDP was an Indian Ministry of Defence program for the development of a comprehensive range of missiles including Integrated Guided Missile Development Program#Nag missile system Nag ( Sanskrit: नाग Nāg "Cobra") is a third generation " The Trishul missile, a program to develop a tri-service short range SAM has faced persistent problems throughout its development, and is likely to be shut down unless the Indian Air Force places orders for the system. The Integrated Guided Missile Development Program (IGMDP was an Indian Ministry of Defence program for the development of a comprehensive range of missiles including

IGMDP Ballistic Missiles
Prithvi missile.
Prithvi missile.
The Agni-II missile
The Agni-II missile

Akash SAM
Main article: Akash missile
Akash SAM and Nishant UAV in the background.
Akash SAM and Nishant UAV in the background. Akash ( Sanskrit: आकाश Ākāś "Sky") is India 's medium range Surface-to-air missile defense system developed by

Trishul SAM

The Trishul (Trident in Hindi) is a short range SAM meant for all three services, the Army, Air Force and Navy. A trident (ˈtrаɪdənt also called a leister or gig, is a three- pronged Spear. The Trishul project relied on equipment already in service with the Indian services, to drive down logistics costs, and reduce program development costs and development time. The Army variant, relied on a locally modified variant of the Signaal (now Thales) Flycatcher radar, integrated into a single launcher with a four missile pack, along with separate electronics for missile guidance. The Air Force variant separated the missile launchers on Kolos Tatra trucks, locally manufactured by India's BEML. The Naval variant was the most ambitious, with a flight control system with an integrated radar altimeter to intercept sea skimming missiles. The Trishul's guidance was Command Line of Sight with a three beam guidance system, which proved to be the bane of the project and caused repeated failures during trials.

The Trishul's persistent development problems have meant that the Indian Air Force, the Indian Army and the Indian Navy have begun upgrading their existing Short range SAM systems or purchased replacements. The Indian Air Force (Devanāgarī भारतीय वायु सेना IAST Bhartiya Vāyu Senā is the air arm of the Armed Forces of India and has the The Indian Army (Bharatiya Thalsena भारतीय थाल्सेना is one of the armed forces of India and has the responsibility for land-based The Indian Navy is the naval branch of the armed forces of India.

The Indian Air Force evaluated the Israeli Spyder SAM system and the French VLS Mica system as replacements for the Trishul. The Indian Air Force (Devanāgarī भारतीय वायु सेना IAST Bhartiya Vāyu Senā is the air arm of the Armed Forces of India and has the In February 2005, the VLS Mica system, mounted on an ACMAT multi-role vehicle of the French Army, was demonstrated for the Indian Air Force. In 2006, the Indian Air Force announced that it was procuring 18 batteries of the Spyder SAM system thanks to persistent delays in the Trishul and Akash programs. [61]

The Indian Army is upgrading its OSA-AKM/ SA-8 systems with Polish assistance. The Indian Army (Bharatiya Thalsena भारतीय थाल्सेना is one of the armed forces of India and has the responsibility for land-based The 9K33 OSA (Оса Wasp) is a highly mobile low-altitude short-range tactical Surface-to-air missile system Fifty OSA-AK units are stated to have been modernised. [62]

The Indian Navy has moved on to the Barak-1, and is unlikely to purchase the Trishul. [63]

In 2005, there were efforts made to resuscitate the Trishul program as an inexpensive alternative to bulk up the IAF's short range SAM inventory. The high cost of the imports being a strike against them, despite their capability. [64]

In 2006 it was noted that the Trishul program has been effectively closed down as far as the Navy and Army were concerned, but that discussions were on with the Indian Air Force for user trials, and if successful purchase of the system. It is also reported that key technologies developed via the program may be utilized in future systems. [65]

As of 2007, it has been reported that the experience gained from the Trishul program will be utilized for a brand new SAM known as the Maitri, which will be codeveloped with the European MBDA missile agency. The Maitri Low level Quick reaction missile will have new Indian developed radars cueing the active radar homing surface to air missiles. [66]

Nag anti-tank missile

The Nag (Cobra in Hindi) is an anti-tank guided missile system intended for the Air Force and Army. Cobras ( are venomous Snakes of the family Elapidae, of several genera, but particularly Naja. The Army will deploy the Nag on ground based launchers and from helicopters, whereas the Air Force will rely on helicopter based units. The Nag has an Imaging Infrared (IIR) seeker (the other seeker is an optical Charge Coupled Device based one for day attacks), and has a top and direct attack capability, with a tandem warhead (for use against even Explosive reactive armour equipped tanks).

The Army's land missile carrier and launcher, is a BMP-2 derived vehicle developed by the DRDO and Larsen & Toubro Ltd. known as the Namica (Nag Missile Carrier) which carries several ready to use Nag's within, and four Nag missiles in an extendable launcher above the turret. The Namica has its own FLIR based sighting and fire control unit to use the Nag. [67]

The Air Force and Army will also use their Advanced Light helicopters (ALH) as Nag carriers. The ALH's will be equipped with IRDE (DRDO) developed HELITIS (Heliborne Imaging and Targeting systems) with a combination of a FLIR (forward looking infrared), Laser range finder, in a stabilized turret for target acquisition and Nag designation. Stabilization accuracy is quuoted at 30 Milliradians and detection of a tank target at 4 km. [26] The thermal imager is likely to be imported, but the gimballed turret, stabilization, laser range finder and associated electronics have been designed in India and will be manufactured locally. [68]

The Nag ATGM is regarded as a highly capable missile, even though its development has been protracted, mainly due to the technological challenges of developing a state of the art, IIR sensor equipped top attack missile, able to attack fast moving targets in the dusty battlefields of South Asia. Criticism has been directed at development time, and acquisition cost, since the fire and forget Nag is more than twice the cost of wire guided Milan and Konkurs ATGMs. However, the Nag is still cheaper than most imported missiles in its category and is earmarked for the Army and Air Force.

The Nag's Namica based version is stated to have been accepted in principle by the Army, whilst the ALH based units are still under trials. Other reports have stated that the Nag's seeker is to be miniaturised further, and it is to be available by 2007. Its unclear as to which missile variant these reports are referring to. On December 6, 2006, the Indian Defence Minister announced that the Nag and Akash missiles were ready for user trials. [69] The Akash was subsequently tested and cleared for induction. Further tests of the Nag are expected in 2008, for clearing the Nag and mass producing it.

India is also license manufacturing the Kornet, Konkurs-M (with tandem warhead), and Milan-2T ATGMs.

The Brahmos Missile

The Brahmos supersonic cruise missile
The Brahmos supersonic cruise missile

Launched as a joint venture between India's DRDO and the Russian NPO, the BrahMos program aims at creating a range of missile systems derived from the Yakhont missile system. A cruise missile is a guided Missile that carries an explosive payload and uses a lifting wing and a propulsion system usually a Jet engine, to allow The P-800 Oniks (П-800 Оникс alternatively termed Yakhont (Яхонт for export markets "Oniks" is Onyx, and "Yakhont" is Ruby Named the "BrahMos" after the Brahmaputra and the Moskva rivers, the project has been highly successful.

The Indian Navy has ordered the BrahMos Naval version, both slant launched and Vertically launched, for its ships, with the Indian Army ordering two regiments worth of Land launched missiles for long range strike, and an air launched version is in development for the Indian Air Force's Su-30 MKI's and the Navy's Tu-142 long range aircraft. WikipediaWikiProject Aircraft. Please see WikipediaWikiProject Aircraft/page content for recommended layout WikipediaWikiProject Aircraft. Please see WikipediaWikiProject Aircraft/page content for recommended layout

India has been responsible for the Navigational systems on the BrahMos, other aspects of its propulsion, airframe and seeker, plus its Fire Control Systems, Mobile Command posts and Transporter Erector Launcher. Indian firms such as Godrej Group, Larsen and Toubro, Tatas. The Godrej Group was founded by Ardeshir and Pirojsha Godrej in 1897 Larsen and Toubro is an Indian conglomerate, with diverse interests such as Construction, Hydraulic equipment, electrical and electronic The Tata Group ( Hindi: टाटा समूह is a multinational conglomerate based in Mumbai, India. have played a vital role in the program. [70] Twenty One Indian companies and seven Russian ones contribute components to the Brahmos program. [71]

In January 2008, Keltec, an Indian state owned firm was acquired by Brahmos Corporation. [72] Approximately Rs 1500 Crores (over US $ 300 Million) will be invested in the facility to make Brahmos components and integrate full missile systems. This was necessitated by the increased order book of the missile system, with orders having been placed by both the Indian Army and Navy. [73][74]

Brahmos 2 Program

A hypersonic follow on to the Brahmos is to be launched as a follow on to the original Brahmos. Referred to as Brahmos 2, the missile would still follow the guidelines of the MTCR but would fly at speeds of 5-7 Mach. The Missile Technology Control Regime ( MTCR) drafted by Dr Richard H [75] A five year development timeframe is anticipated. [76]

Critique

The significant cost and more importantly, time overruns in the DRDO's big-ticket projects such as the Akash, Trishul, Nag, Light Combat Aircraft and the Arjun, are often the subject of virulent criticism of DRDO even as the organization is engaged in completing the programs. WikipediaWikiProject Aircraft. Please see WikipediaWikiProject Aircraft/page content for recommended layout It can be said that productionizing these systems and significant orders for them, would be a big shot in the arm for the DRDO as the criticism over these long running programs often overshadows the organization's work in many other areas. [77]

Future plans

Long range SAM

India and Israel have worked out an agreement to develop and produce the long-range Barak air defence system for both the Indian and the Israeli militaries. The initial co-development funding is about $ 350 million, of which IAI will finance 50 per cent. The venture is a tripartite one, between the DRDO, the Indian Navy, and IAI. The missile is referred to as the LRSAM in Indian Government literature, and will have a range of 72 km. Additional funding will be infused by both parties as needed. [78][79] Israel Aircraft Industries refers to the system as Barak-8. IAI states that the missile will have a dual pulse motor, is vertically launched and is able to engage both aircraft and sea skimming missiles. It has a fully active seeker, and the Barak-8 Weapons system is capable of multiple simultaneous engagements. It will have a two way datalink for midcourse update, as well as be able to integrate into larger C3I networks. The primary fire control sensor for the naval Barak-8/ LRSAM will be the ELTA MF-STAR Naval AESA radar which Israel claims to be superior to many existing systems worldwide. [80] [81] [82]

The other variant of the LRSAM will be fielded by the Indian Air Force. The Indian Air Force has projected a requirement of up to 9 Squadrons of the LRSAM. Revealed before the Akash SAM trials which were successful, the LRSAM fills a longer range requirement and both types will complement each other. The IAF wants each squadron to have 2 MR-SAM firing units. Each unit, in turn, would consist of a command and control center, with an acquisition radar, a guidance radar, and 3 launchers with eight missiles each. The total number of units would hence be 10 C2 centers, 18 acquisition radars, 18 guidance radars, and 54 launchers armed with 432 missiles ready to fire. A 4-year, $300 million System Design & Development phase to develop unique system elements and an initial tranche of the land-based missiles is estimated. The radars, C2 centers, TEL's and missiles will be codeveloped by Israel and India. In turn, IAI and its Israeli partners have agreed to transfer all relevant technologies and manufacturing capabilities to India allowing India to manufacture the LRSAM systems locally as well as support them. [83]

Astra BVRAAM
Main article: Astra missile

Astra is a 80 km class (against an approaching fighter target), active radar guided missile meant for beyond visual range air to air combat. Astra ( Sanskrit: अस्त्रा Astrā "Weapon") is an Active radar homing Beyond visual range air to air missile Several tests of the missiles basic propulsion and guidance have taken place from land based launchers. Air launched trials will follow thereafter. [84]

Anti-Ballistic Missile Defence Project
Main article: Indian Ballistic Missile Defense Program

Unveiled in 2006, the ABM project was a surprise to many observers. The Indian Ballistic Missile Defense Program is an initiative to develop and deploy a multi-layered Ballistic missile defense system to protect India from missile attacks While DRDO had revealed some details about the project over the years, its progress had been marked by strict secrecy, and the project itself was unlisted, and not visible among DRDO's other programs. The ABM project has benefited from all the incremental improvements achieved by the DRDO and its associated industrial partners via the long running and often contentious Akash and Trishul programs. However, it is a completely new program, with much larger scope and with predominantly new subsystems.

The ABM project has two missiles—namely the AAD and PAD (Prithvi Air Defence) missiles. The former is an endo-atmospheric interceptor of new design, which can intercept targets to a height of 30 km. Whereas the latter is a modified Prithvi missile, dubbed the Axo-atmospheric interceptor (AXO) with a dedicated second stage Kill vehicle for ballistic missile interception, up to an altitude of 80 km. Both these missiles are cued by an active phased array Long Range Tracking Radar, similar to the Elta GreenPine but made with locally developed components, which include DRDO developed transmit/receive modules. The ABM system also makes use of a second radar, known as the Multi-Function Control Radar which assists the LRTR in classifying the target, and can also act as the fire control radar for the AAD missile. The key difference is that the MFCR, as the name suggests will be "multi-function", it can be used as a search radar against aircraft as well, in the sense that it will be able to rotate 360 degrees and will provide flexibility to the entire missile defence system. However, it too, is an active phased array system as is the LRTR (L-band, 600 km range).

The missile launchers are connected to a launch control center (LCC) and mission control center (MCC) which can be located up to a 1000 km away. The MCC processes the data provided by the radars and determines and clears the relevant LCC to launch the interceptors. There are multiple links between the centers and the launcher, to avoid jamming. Both wireless links (based on CDMA technology for anti-jamming purposes) and fibreoptic links are used.

The entire set up was tested in November 2006, under the Prithvi Air Defence Exercise, when a prototype AXO, with a designation of PAD01 successfully intercepted another Prithvi missile at a height of 50 km. The target missile (PAD02) was set to mimic the profile of a Tactical Ballistic missile with a 600 km range. The test was a complete success, with the hit to kill methodology successfully tested (Neither Missile had a warhead). The prototype had an active radar seeker integrated with its kill vehicle. This test was preceded by an "electronic test" in which an actual target missile was launched, but the entire interceptor system was tested electronically, albeit no actual interceptor was launched. This test was successful in its entirety, setting the pace for the actual full scale test thereafter. After the test, the program Director Dr. V. K. Saraswat noted that there were still more tests to be done (six in all) before the DRDO could certify the AXO as functional, and that it was too early to rule out cooperation with other countries. Even so, the flawless functioning of the entire setup (hardware and software) - much of which was custom developed for the project, was a big shot in the arm for the DRDO.

Advanced Air Defence (AAD) Missile was tested on 6th December 2007 which successfully intercepted a modified prithvi ballistic missile simulating M-9 and M-11 class of ballistic missiles. Interception happened at an altitude of 15km. AAD is a single stage solid rocket missile with speed of Mach 4. 5, 7. 5m long and weighs 1. 2 tonne. [85]

The project leader also noted that they had evaluated the S-300V in depth, and that its radars and missiles would not meet the specifications of the Indian made system. [86]

References

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  55. ^ Government approves more Prithvi missiles for Air Force
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  60. ^ Link
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  63. ^ Navy defends Barak deal
  64. ^ ""We are focussing now on the possibility of Trishul being used by the IAF," DRDO chief
  65. ^ Trishul gets another lease of life
  66. ^ Maitri LLQRM
  67. ^ Nag ATGM
  68. ^ HELITIS on a helicopter mockup
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