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49-611: Defence Terrain Research Laboratory ( DTRL ) is a laboratory of the Defence Research and Development Organisation (DRDO). Located in Delhi its primary function is research and development of techniques to evaluate terrains and assess mobility potential of inaccessible areas. The Defence Terrain Research Laboratory focuses on providing state-of-the-art terrain intelligence to the armed forces. The DTRL's origin dates back to 1964 when

98-811: A Terrain Evaluation Cell (TEC) was set up as a unit of the DRDO. The cell's objectives were to develop techniques needed for evaluating terrain and assessing the mobility potential in inaccessible areas. It became a full-fledged laboratory in 1981, and was renamed the Defence Terrain Research Laboratory. DTRL was notified as self accounting unit on 17 September 1988 To become a technological leader in producing high resolution terrain intelligence products for defence applications. Develop expertise and technologies for terrain database management. Create and update thematic maps and terrain intelligence reports for

147-589: A battlefield missile, it could carry a nuclear warhead in its role as a tactical nuclear weapon . The aerodynamic characterization research was conducted at the National Aerospace Laboratories ' 1.2m Trisonic Wind Tunnel Facility. The Prithvi missile project encompassed developing three variants for use by the Indian Army , Indian Air Force and the Indian Navy . The initial project framework of

196-586: A committee was formed to suggest reforms and overhauls. The 9-member committee, which was under the Prime Minister’s Office (PMO), was led by former Principal Scientific Adviser to the Government of India K. Vijayraghavan . The committee submitted its report on the reforms for DRDO in July 2024. Reportedly, the recommendations from the committee have been described as contentious and it was also reported that

245-475: A hydraulically stabilized launch pad. Its low range acts against it and thus it is seen as a weapon either to be used to destroy an aircraft carrier or an enemy port. The Dhanush missile can be used as an anti-ship weapon as well as for destroying land targets depending on the range. The missile has been tested from surface ships of the navy many times. A new variant of the Prithvi-III missile, named Dhanush ,

294-537: A pan tilt platform. On 28 December 2021, Defence Institute of Physiology and Allied Sciences (DIPAS) transferred technology to manufacture extreme cold weather clothing system to RHD Business Services, SBNX Innovation, Shiva Texyarn Limited, Kusumgar Corporates and Ginni Filaments Limited. DRDO on 8 January 2024 launched Ugram, an assault rifle chambered in 7.62x51mm NATO , which has been designed, developed and manufactured in collaboration with Dvipa Armour India Private Limited under DcPP. It's scheduled to be tested by

343-515: A portable backpack type that covers an area of 300 metres while another trolley mounted for large area sanitisation of up to 3000 metres by spraying 1% hypochlorite solution. Vehicle Research and Development Establishment (VRDE) developed a portable disinfection chamber and special face protection mask for health professional combating the COVID-19 outbreak in India. The personnel decontamination system

392-508: A private sector industry. On 16 December 2021, Ashok Leyland signed partnership agreement with Combat Vehicles Research and Development Establishment (CVRDE) to develop 600  hp engine for Future Combat Vehicle Programme. Instruments Research and Development Establishment (IRDE) on 27 December 2021 transferred technologies for developing border surveillance system to Indian private sector company Paras Defence and Space. The system consists of radar, and electro-optical sensors mounted on

441-658: A product called Aerosol Containment Box for enclosure of intubation procedure made with Poly(methyl methacrylate) . It is cubical designed for both adults and minors and covers the COVID-19-infected patients during medical examination and treatment from head to chest to stop the transmission of droplets containing the virus to others. Employees' State Insurance Corporation Medical College, Hyderabad helped RCI in prototype development while Postgraduate Institute of Medical Education and Research helped in testing, validation and acceptance of products for medical use. The technology

490-527: Is India's largest and most diverse research organisation. The organisation includes around 5,000 scientists belonging to the DRDS and about 25,000 other subordinate scientific, technical, and supporting personnel. The DRDO was established in 1958 by combining the Defence Science Organisation and some of the technical development establishments. A separate Department of Defence Research and Development

539-409: Is a two-stage surface-to-surface missile. The first stage is solid fueled with a 16 metric ton force (157 kN ) thrust motor. The second stage is liquid-fuelled. The missile can carry a 1,000 kg warhead to a distance of 350 km (220 mi) and a 500 kg warhead to a distance of 600 km (370 mi) and a 250 kg warhead up to a distance of 750 km (470 mi). Prithvi III

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588-835: Is an agency under the Department of Defence Research and Development in Ministry of Defence of the Government of India , charged with the military 's research and development , headquartered in Delhi, India. It was formed in 1958 by the merger of the Technical Development Establishment and the Directorate of Technical Development and Production of the Indian Ordnance Factories with the Defence Science Organisation under

637-399: Is collaborating with Mysore-based Skanray Technologies for the production of ventilators using currently available technologies with Indian made parts due to unavailability of imports. It is also working on a new multiplexed ventilator technology that will be able to support several infected individuals on a single ventilator. The prototype development stage is complete and the initial model

686-401: Is equipped with sanitiser and soap dispenser. The full-body decontamination starts using for pedal with an electrically operated pump creating a disinfectant mist of 700-litre of hypo sodium chloride. The system takes 25 seconds for full decontamination with an automatic shut-off procedure and can decontaminate 650 personnel until the next refill. The face mask developed for COVID-19 patients uses

735-406: Is helping Lakes and Waterways Development Authority (LAWDA) to keep Dal Lake clean by providing low cost Biodigesters for the treatment of human excreta , animal waste disposal, grey water and kitchen waste release that works fine in ambient as well as sub zero temperature which are also supplied to Indian Railways . Defence Research and Development Establishment (DRDE) which works in

784-710: Is made up of high strength polyester coated with breathable polymer. The clothing underwent successful trials at the South India Textile Research Association and exceeds the criteria of currently available suits in the market. The suit is washable, passed all critical CBRN and ASTM standards and is now manufactured by two private players, Venus Industries from Mumbai and IMTEC from Kolkata . Defence Bioengineering and Electromedical Laboratory (DEBEL) developed causality evacuation bag for COVID-19 infected patients that can withstand Chemical, Biological, Radiological and Nuclear (CBRN) environments and

833-546: Is now transferred to private industries located in Chandigarh and Hyderabad for mass manufacturing. RCI at DRDO Missile Complex, Hyderabad is now supplying technology of brushless DC motors (BLDC) used for missile actuators and high response solenoid valves used in missile control for ventilator pumps that validated the prototype testing stages. Centre for Fire, Explosive and Environment Safety (CFEES) developed two sanitising equipment of 50 litres tank capacity consisting of

882-588: Is now undergoing various improvements suggested by a team of medical researchers and doctors. The technology will finally be transferred to Tata Motors , Mahindra and Mahindra , Hyundai Motor India , Honda Cars India and Maruti Suzuki for immediate mass production. DRDO signed agreement with Indian Telephone Industries Limited for tech transfer on low cost multiplexed ventilator technology with 80% to 90% of components are now make in India . DRDO as of 11 April 2020 transferred technologies to 30 major companies to manufacture various non-medicine products against

931-479: Is protected against blood and viral penetration. The bag is made up of durable water-repellent nonwoven fabric . It is rigid and cylindrical with air and waterproof zippers and ventilators. Already ordered 500 in numbers, DRDO will now transfer the technology to the private sector for manufacturing. Under the Society for Biomedical Technology (SBMT) programme, DEBEL has developed five-layer nanomesh based N99 masks and

980-767: The Bay of Bengal off the coast of Odisha, according to government sources cited in local media reports. The trial of the surface-to-surface missile with a strike range of 350 km was carried out from a mobile launcher from Launch Complex III of the ITR between 7:00 pm and 7:15 pm. On 4 December 2019, another night trial was conducted off Odisha coast at 07:48 pm from Launch Complex III of Integrated Test Range in Chandipur. The Strategic Forces Command conducted night trial of Prithvi II in full operational configuration from Launch Complex III of Integrated Test Range on 23 September 2020. Prithvi III

1029-555: The COVID-19 pandemic which includes ventilators, sanitiser, personal protective equipment , face shield and isolation shelters. The technology for the newly developed multiplexed ventilator came from the onboard oxygen generation system (OBOGS) developed for HAL Tejas . Private sector players like Raksha Polycoats and Accurate Savan Defence are now producing protective clothing, isolation shelters based on DRDO tech developed for high altitude pulmonary oedema (HAPE) bags, submarine escape

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1078-498: The Integrated Guided Missile Development Program in 1983 to achieve self-sufficiency in the development and production of wide range of ballistic missiles , surface-to-air missiles etc. Prithvi was the first missile to be developed under the program. DRDO attempted to build a surface-to-air missile under Project Devil . Variants make use of either liquid or both liquid and solid fuels. Developed as

1127-474: The Integrated Test Range at Chandipur, Odisha at 9:50 am. On 20 November 2019, Strategic Forces Command carried out 2 night user trials of Prithvi-II missiles as part of its annual training cycle to test the combat readiness of its missile forces. Two Prithvi-II tactical surface-to-surface short-range ballistic missiles were test fired from the Integrated Test Range (ITR) on Abdul Kalam Island in

1176-614: The 1970s. Project Devil itself led to the later development of the Prithvi missile under the Integrated Guided Missile Development Programme (IGMDP) in the 1980s. IGMDP was an Indian Ministry of Defence programme between the early 1980s and 2007 for the development of a comprehensive range of missiles, including the Agni missile , Prithvi ballistic missile, Akash missile , Trishul missile and Nag Missile . In 2010,

1225-539: The A4 size Over-Head Projection (OHP) film for protection and lightweight materials for long duration comfortable use. VRDE developed full-body decontamination chamber was designed and validated within 4 days with All India Institute of Medical Sciences, New Delhi became the first premier institution to use it. The mass manufacturing of the portable decontamination chamber is now done by Dass Hitachi Limited. As part of Make In India and Atmanirbhar Bharat initiative, DRDO under

1274-624: The Advanced Numerical Research and Analysis Group (ANURAG) and Laser Science and Technology Center (LASTEC) are no longer functional as independent entities. The staff are relocated to various DRDO labs in Hyderabad. DRDO is planning to build a new research lab in Lucknow. India domestically produces only 45% to 50% of defence products it uses, and the rest are imported. To become technology research and production leader, reduce reliance on

1323-572: The DRDO has agreed to implement approximately 60% of the major reforms. As of October 2024, the implementation of structural reforms has been delayed due to opposition from senior DRDO officials. As part of the rationalization plan, the Defence Terrain Research Laboratory (DTRL) was merged with the Snow and Avalanche Studies Establishment (SASE) which was renamed into the Defence Geological Research Establishment (DGRE). As of 2020,

1372-532: The DRDO, including Varunastra, Maareech, Ushus, and TAL by the navy; Electronic Warfare Technologies, radars, composite materials for LCA, AEW&C, Astra, and LCA Tejas by airforce; and ASAT, BrahMos, ASTRA, Nag missile, SAAW, Arjun MBT Mk 1A, 46-metre Modular Bridge, MPR, LLTR Ashwin by the army. In September 2019, DRDO formulated the "DRDO Policy and Procedures for Transfer of Technology" and released information on "DRDO-Industry Partnership: Synergy and Growth and DRDO Products with Potential for Export" . During

1421-700: The Development cum Production Partner programme (DcPP) allowed handholding of domestic private sector industries to improve their development and production cycle of complex defence systems. VL-SRSAM (Vertical Launch - Short Range Surface to Air Missile) and Advanced Towed Artillery Gun System (ATAGS) became some of the successful projects of this programme. Hindustan Aeronautics Limited on 17 December 2021, secured an order for manufacturing, assembly, integration, testing and supply of DRDO Abhyas from Aeronautical Development Establishment . The order will be completed under Development-cum-Production Partner (DcPP) with

1470-535: The Indian Army. List of Director Generals (1948–2015) and Chairpersons (since 2015) of DRDO. Prithvi (missile) Prithvi ( Sanskrit : pṛthvī "Earth" ) is a tactical surface-to-surface short-range ballistic missile (SRBM) developed by Defence Research and Development Organisation (DRDO) of India under the Integrated Guided Missile Development Program (IGMDP). It is deployed by India's Strategic Forces Command . The Government of India launched

1519-505: The Indian Navy. It is capable of carrying both conventional as well as nuclear warheads with pay-load capacity of 500 kg-1000 kg and can strike targets in the maximum range of 750 km (470 mi). Dhanush is a system consisting of a stabilization platform and the missile. It is a customized version of the Prithvi and is certified for sea worthiness. Dhanush has to be launched from

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1568-514: The Integrated Guided Missile Development Program outlines the variants in the following manner. Prithvi I is a single-stage liquid-fuelled surface-to-surface ballistic missile having a maximum warhead mounting capability of 1,000 kg, with a range of 150 km (93 mi). It has an accuracy of 10–50 m (33–164 ft) and can be launched from transporter erector launchers . This class of Prithvi missile

1617-664: The Vibrant Goa Global Expo and Summit 2019 in October, DRDO signed technology transfer contracts with 16 Indian companies , including 3 startups, to produce products for the use by Indian Armed Forces . This included high shelf life , high nutrition, ready-to-eat on-the-go food products to be consumed in the difficult terrain and bad weather. DRDO and ISRO have agreed to collaborate in India's crewed orbital spacecraft project called Gaganyaan during which DRDOs various laboratories will tailor their defence capabilities to suit

1666-539: The administration of Jawaharlal Nehru . Subsequently, Defence Research & Development Service (DRDS) was constituted in 1979 as a service of Group 'A' Officers / Scientists directly under the administrative control of the Ministry of Defence. With a network of 52 laboratories that are engaged in developing defence technologies covering various fields like aeronautics, armaments, electronics, land combat engineering, life sciences, materials, missiles, and naval systems, DRDO

1715-472: The defence minister A. K. Antony ordered the restructuring of the DRDO to give a major boost to defence research in the country and to ensure effective participation of the private sector in defence technology. The key measures to make DRDO effective in its functioning include the establishment of a Defence Technology Commission with the defence minister as its chairman. The programmes which were largely managed by DRDO have seen considerable success with many of

1764-468: The designer or Indian industry at par with their corresponding designer in the world market. If they could get a MiG-21 from the world market, they wanted a MiG-21 from DRDO. DRDO started its first major project in surface-to-air missiles (SAM) known as Project Indigo in the 1960s. Indigo was discontinued in later years without achieving full success. Project Indigo led Project Devil , along with Project Valiant, to develop short-range SAM and ICBM in

1813-632: The field of chemical weapon , biological agent detection and research is helping Indian Council of Medical Research (ICMR) in augmenting diagnostic capability for COVID-19 outbreak. It has created special hand sanitiser formulation and diagnostic kits following WHO standards and guidelines that are supplied in large numbers to civilian and defence officials. Medical staff all over India dealing with Coronavirus contamination are using protective waterproof clothing with special sealant used in submarine applications developed by Institute of Nuclear Medicine and Allied Sciences (INMAS) for CBRN defence that

1862-605: The imports and increase self-reliance, DRDO Chief called for more collaboration with the industry, private sector, research and education institutes including IITs and NITs . India's military–industrial complex has had little success and only recently private sector was allowed to enter the defence production. To expedite the development cycle of new technologies and to better fit the end user requirements, army has asked DRDO to take more army staff on deputation to be part of DRDO technology development project teams. Indian forces are using numerous indigenous technologies produced by

1911-554: The needs of ISRO's human space mission with critical human-centric systems and technologies like space grade food, crew healthcare, radiation measurement and protection, parachutes for the safe recovery of the crew module and fire suppression system etc. Kalyani Group is developing the Advanced Towed Artillery Gun System . DRDO with Federation of Indian Chambers of Commerce & Industry (FICCI) under Advance Assessment Technology and Commercialisation Programme

1960-481: The order was subsequently increased. The missiles are generally paired with conventional warheads but can be equipped with nuclear warheads as well. The units under the Regiment of Artillery , that are equipped with these missiles includes Prithvi II is a single-stage liquid-fuelled missile. Initially, it was developed for an extended range of 250 km (160 mi) and maximum warhead capacity of 500 kg. This

2009-582: The suit and satellite recovery systems. Hyderabad-based 3D printing startup iMake with Modern Manufacturers and Kirat Mechanical Engineering from Chandigarh , Wipro 3D from Bengaluru and Global Healthcare from Delhi are 3D printing visor-based face shields which is an offshoot of the tech developed for high-altitude military parachuting . Setco from Mumbai is producing sealants developed for submarines of Indian Navy at DRDO labs for personal protection equipment. Research Centre Imarat (RCI) and Terminal Ballistics Research Laboratory (TBRL) developed

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2058-421: The systems seeing rapid deployment as well as yielding significant technological benefits. Since its establishment, DRDO has created other major systems and critical technologies such as aircraft avionics, UAVs , small arms, artillery systems, EW Systems, tanks and armoured vehicles, sonar systems, command and control systems and missile systems. The Government of India has plans to overhaul and reform DRDO, and

2107-602: The users. DTRL is one of the services organization in DRDO; its primary aim is to provide trafficability maps for the Indian Army. Additionally, it provides consultancy services for landslide hazard zonation. Other specific research activities include subsurface target detection and identification for cross-border sites. This article about a scientific organization is a stub . You can help Misplaced Pages by expanding it . Defence Research and Development Organisation The Defence Research and Development Organisation ( DRDO ) ( IAST : Raksā Anūsandhān Evam Vikās Sangaṭhan )

2156-440: Was first tested in 2000 from INS  Subhadra , a Sukanya -class patrol vessel . The missile was launched from the updated reinforced helicopter deck of the vessel. The first flight test of the 250 km (160 mi) variant was only partially successful. The full operational testing was completed in 2004. Dhanush ( Sanskrit : धनुष , " Bow ") is a variant of the surface-to-surface or ship-to-ship Prithvi III missile for

2205-729: Was formed in 1980, which later administered DRDO and its almost 30 laboratories and establishments (there were almost 52 labs before merging). Most of the time, the Defence Research and Development Organisation was treated as if it were a vendor and the Army Headquarters or the Air Force Headquarters were the customers. Because the Army and the Air Force themselves did not have any design or construction responsibility, they tended to treat

2254-571: Was gradually enhanced to a range of 350 km (220 mi) and 500–1000 kg payload. It was developed with the Indian Air Force being the primary user. It was first test-fired on 27 January 1996 and the developmental trials were completed in 2004. In a test, the missile was launched with an extended range of 350 km (220 mi) and had improved navigation due to an improvement in inertial navigation system . The missile features measures to deceive anti-ballistic missiles . The missile

2303-431: Was inducted into India's Strategic Forces Command in 2003. After a failed test on 24 September 2010, two more missiles aimed at two different targets were launched on 22 December 2010 and were successful. According to reports, the range has been increased to 350 km (220 mi) and the payload capacity now ranges between 500 – 1000 kg. On 2 June, India successfully test-fired another Prithvi-II missile from

2352-466: Was inducted into the Indian Army in 1994. As per DRDO 's former chief Avinash Chander , the tactical 150 km-range Prithvi missile will be replaced with the Prahaar missile, which is more capable and has more accuracy. According to Chander, the Prithvi I missiles withdrawn from service would be upgraded to be used for longer ranges. As per reports, in the 1990s, 75 missiles were initially ordered and

2401-562: Was test fired from the Rajput in March 2007 and successfully hit a land-based target. The missile was successfully tested-fired from INS Subhadra , which was anchored about 35 km (22 mi) offshore from the Integrated Test Range at Chandipur on 13 December 2009. It was the sixth test of the missile. The missile was test-fired successfully on 5 October 2012, on 23 November 2013, 9 April 2015, and 24 November 2015 from INS Subhadra in

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