Akash () is a medium-range mobile surface-to-air missile (SAM) system developed by the Defence Research and Development Organisation (DRDO). The Army and the Air Force variants of the missile system are produced by Bharat Dynamics Limited (BDL) and Bharat Electronics Limited (BEL). Surveillance and fire control radar, Tactical Command and Control Center and missile launcher are developed by BEL, Tata Advanced Systems Limited and Larsen & Toubro. The Akash missile system can target aircraft up to away. It has the capability to neutralise aerial targets like fighter jets, cruise missiles and air-to-surface missiles. It is in operational service with the Indian Army and the Indian Air Force.
An Akash battery comprises a single PESA 3D Rajendra radar and four launchers with three missiles each, all of which are interlinked. Each battery can track up to 64 targets and attack up to 12 of them. The missile has a high-explosive, pre-fragmented warhead with a proximity fuse. The Akash system is fully mobile and capable of protecting a moving convoy of vehicles. The launch platform has been integrated with both wheeled and tracked vehicles. While the Akash system has primarily been designed as an air defence SAM, it also has been tested in a missile defense role. The system provides air defence missile coverage for an area of . The Indian military's combined orders of the Akash, including radar systems (WLR and Surveillance), have a total worth of . As per Ministry of Defence (MoD) Report 2018, existing order of Akash saved of foreign exchange for India on imports.
In July 2025, the Indian Army successfully conducted high-altitude trials of the indigenously developed Akash Prime air defence system in eastern Ladakh, aiming to bolster India's operational capabilities in mountainous terrain.
The two-day trial, conducted at an altitude of over 15,000 feet, was jointly executed by the Army Air Defence Corps and senior scientists from the Defence Research and Development Organisation (DRDO). During the exercise, Akash Prime scored two direct hits on fast-moving aerial targets, validating its precision and adaptability in the rarified high-altitude atmosphere.
The test marks a significant step toward enhancing IndiaâÂÂs area air defence in sensitive border regions and is in alignment with the country's broader goal of building a self-reliant and resilient indigenous missile defence ecosystem under the âÂÂAatmanirbhar Bharatâ initiative.
Each Akash battery consists of four self-propelled Launchers (three Akash SAMs each), a Battery Level Radar â the Rajendra, and a Command post (Battery Control Centre). Two batteries are deployed as a Squadron (Air Force), while up to four form an Akash Group/Regiment (Army configuration). In both configurations, an extra Group Control Centre (GCC) is added, which acts as the Command and Control HQ of the Squadron or Group. Based on a single mobile platform, GCC establishes links with Battery Control Centres and conducts air defense operations in coordination with air defense set up in a zone of operations. For early warning, the GCC relies on the Central Acquisition Radar. However, individual batteries can also be deployed with the cheaper, 2-D BSR (Battery Surveillance Radar) with a range of over 100 km.
Akash has an advanced automated functioning capability. The 3D CAR automatically starts tracking targets at a distance of around 150 km providing early warning to the system and operators. The target track information is transferred to GCC. GCC automatically classifies the target. BSR starts tracking targets around a range of 100 km. This data is transferred to GCC. The GCC performs multi-radar tracking of up to 200 targets and carries out track correlation & data fusion. Target position information is sent to the BLR which uses this information to acquire the targets.
The BCC which can engage a target(s) from the selected list at the earliest point of time is assigned the target in real time by the GCC. The availability of missiles and the health of the missiles are also taken into consideration during this process. Fresh targets are assigned as and when intercepts with assigned targets are completed. A single shot kill probability of 88% has been achieved by the system taking into consideration various parametres of the sensors, guidance command, missile capabilities and kill zone computations.
There are a number of possibilities for deploying Akash weapon system in autonomous mode and in group mode for neutralizing the threat profiles with defined multi-target engagement scenarios. In the Group mode we can have number of configurations to defend vulnerable areas depending upon nature and expected threat pattern, characteristics of threat. Similarly, multiple batteries in autonomous mode can be deployed to defend vulnerable areas/points. In a Group formation, the four Batteries can be deployed in various geometric formations, as suited to the vulnerable area being protected and the extent desired to be sanitized from enemy air threat. In a box deployment pattern, an Akash group can defend an area of 62 km ÃÂ 62 km. In a linear array configuration, it covers an area of 98 km ÃÂ 44 km. Trapezoidal configuration gives defense to the largest area as compared to any other pattern of deployment covering an area of size 5,000 km<sup>2</sup>.
Each Akash battery can engage up to four targets simultaneously with 24 ready to fire missiles. Each battery has four launchers with three missiles, while each Rajendra able to guide eight missiles in total, with a maximum of two missiles per target. Up to a maximum of four targets can be engaged simultaneously by a typical battery with a single Rajendra if one (or two) missile is allotted per target. A single Akash missile has an 88% probability of kill. Two missiles can be fired, five seconds apart, to raise the probability of Kill to 98.5%. Communications between the various vehicles are a combination of wireless and wired links. The entire system is designed to be set up quickly and to be highly mobile for high survivability. The Akash system can be deployed by rail, road or air.
The Akash SAM has been interfaced with both the Akashteer and the Integrated Air Command and Control System.
Akash is a surface-to-air missile with an intercept range of 25 km. It has a launch weight of 720 kg, a diameter of 35 cm and a length of 5.78 meters. Akash flies at supersonic speed, reaching around Mach 2.5. It can reach an altitude of 20 km and can be fired from both tracked and wheeled platforms. An on-board guidance system coupled with an actuator system makes the missile maneuverable up to 15g loads and a tail chase capability for end game engagement. A digital proximity fuse is coupled with a 55 kg pre-fragmented warhead, while the safety arming and detonation mechanism enables a controlled detonation sequence. A self-destruct device is also integrated. It is propelled by an Integrated Ramjet Rocket Engine. The use of a ramjet propulsion system enables sustained speeds without deceleration throughout its flight. The missile has command guidance in its entire flight.
The design of the missile is somewhat similar to that of the 2K12 Kub with four long tube ramjet inlet ducts mounted mid-body between wings. For pitch/yaw control four clipped triangular moving wings are mounted on the mid-body. For roll control four inline clipped delta fins with ailerons are mounted before the tail. However, the internal schematic shows a different layout with an onboard digital computer, absence of semi-active seeker, different propellant, different actuators and command guidance with datalinks. The Akash carries an onboard radio-proximity fuse.
Composite technology for Akash includes radome assemblies, booster liners, ablative liners, sustainer liners, compression molded wings and fins. The aerodynamic characterization research was conducted at the National Aerospace Laboratories' 1.2 m Trisonic Wind Tunnel Facility.
The Akash, like the Russian 2K12 Kub (SA-6 Gainful), utilizes an integrated ramjet-rocket propulsion system, which, after initial rocket motor burnout, provides sustained thrust for the missile throughout its flight until interception.
The missile is guided by a phased array fire control radar called 'Rajendra' which is termed as Battery Level Radar (BLR) with a tracking range of about 60 km. The tracking and missile guidance radar configuration consists of a slewable phased array antenna of more than 4,000 elements, spectrally pure TWT transmitter, two stage superheterodyne correlation receiver for three channels, high speed digital signal processor, real time management computer and a powerful radar data processor. It can track 64 targets in range, azimuth and height and guide eight missiles simultaneously in ripple fire mode towards four targets. The radar has advanced ECCM features. The Rajendra derivative on a BMP-2 chassis and to be used by the Indian Air Force is known as the Battery Level Radar-II whereas that for the Army, is based on a T-72 chassis and is known as the Battery Level Radar-III.
The Army version also consists of the Battery Surveillance Radar (BSR). BSR is a track vehicle based, long range sensor, interfaced with the BCC. It can detect and track up to 40 targets in range and azimuth up to a range of 100 km.
Long range target acquisition is performed by the 3D Central Acquisition Radar (3D CAR), which is a long range surveillance radar that can track up to 200 targets in Track while Scan mode (detecting, tracking and processing) in three dimensions at a range of 180 km. It provides azimuth, range and height coordinates of targets to the Group Control Centre (GCC) through secure communication links. The data is used to cue the weapon control radar.
The Army's radar and launchers are based on the T-72 chassis built by the Ordnance Factories Board's Ordnance Factory Medak to accompany the Army's fast moving armoured formations. The Air Force versions use a combination of tracked and wheeled vehicle. The Air Force Akash launcher consists of a detachable trailer which is towed by a Tata truck, which can be positioned autonomously. The Air Force launcher is designed by Larsen & Toubro jointly with DRDO. Both the Army and Air Force launchers have three ready-to-fire Akash missiles each. The launchers can slew in both elevation and azimuth. The Army Self-Propelled Launcher (ASPL) is 360 degrees slewable and its arc in elevation is from 6 to 60 degrees. The Akash Air Force Launcher (AAFL) is 360 degree slewable, in elevation it can fire from 8 to 55 degrees in all directions depending on the mode of deployment. Akash Air force launcher features an All electro servo drive system for fully automated and remote operation. To enable the Akash group to perform self-sufficient in the combat zone, a number of supporting specialist vehicles have been designed and developed. They are mobile and field-worthy. Their design is based on the role and task to be performed and the vehicles are accordingly allocated to the Group HQ, the Batteries, Assembly Line Area and the Field maintenance workshop. Some of the vehicles are: the Missile Transportation Vehicle (MTV), the Transportation and Loading Vehicle (TLV), the Mobile Station for Missile Checkout (MSMC) Vehicle, the Air Compressor Vehicle (ACV), the Power Supply vehicles (GPSV, BPSV), the Engineering Support, Maintenance and Repair vehicles (GEM, BEM) and a few others. These specialist vehicles assemble and prepare missiles, deliver them to Batteries, carry maintenance spares and fuel, and provide logistical engineering support. Their allocation provides for flexibility and self-sufficiency to the whole Akash Group.
The development of the missile began in 1984 as a part of the Integrated Guided Missile Development Programme (IGMDP) with an estimated development cost of under the directorship of Prahlada Ramarao.
The Akash Missile Development cost of , including the project sanction of , is 8-10 times lower than the cost of similar system developments in other countries. Akash has certain unique characteristics like mobility, all-the-way-powered flight till target interception, multiple target handling, digitally-coded command guidance and fully automatic operation.
Bharat Electronics, Bangalore is the Nodal Production Agency for the Akash Weapon System and also the production partner of the radar systems. Bharat Dynamics Limited (Missile), Larsen & Toubro (Missile and Launcher), Electronics Corporation of India Limited (Command and Control Centre), and Tata Power Company Limited (Launcher) are theÃÂ other major production partners.
As of 2008, each missile is expected to have starting costs below which is less than half the cost of similar Western missiles which usually cost between US$1.2-1.5 million (â¹5-6 crore) each. It is expected that this cost will further decrease because of the economies of scale achieved as production ramps up.
For the first time, Akash showed in Exercise Astrashakti 2023 that it could engage four targets at once under command guidance with a single fire unit at a maximum range of about 30 km. The targets were divided to attack defence assets from various angles and were approaching from the same direction in a close formation.
The Akash Mk1S was the intermediate upgrade while developing the Akash Prime variant. The Mk1S featured an indigenous active radio frequency seeker along with the original command guidance system of the Mark 1 variant. The missile was test fired in May 2019 from Integrated Test Range (ITR), Chandipur, Odisha. The additional seeker improved the ability to shootdown advanced targets along with single shot kill probability.
The Akash Prime missile is equipped with an indigenous active radio frequency seeker giving it a 360ð engagement capability with higher accuracy. The missile will be manufactured by Bharat Dynamics Limited while Bharat Electronics will produce radars, radars, control centres, simulators, associated vehicles. Akash Prime is also optimized for low temperature and high altitude operations with modified ground system and has a range of 30 km and a flight altitude of 18 km. The missile was first flight tested in September 2021 where it successfully intercepted and destroyed an unmanned aerial target mimicking enemy aircraft. The new missile and modified ground systems, collectively referred to as improved Akash Weapon System (AWS), was ordered in March 2023. The system has an indigenous content of 82% which will be increased to 93%. The missile also has "Reduced Foot Print". Akash Prime employs a combination of seeker-based terminal guidance with command guidance. The missile variant is associated with the Advanced Akash Weapon System.
A successor missile with a new design Akash â New generation abbreviated as Akash-NG was approved in September 2016 with a funding of to succeed Akash and Akash-1S with improved capabilities. Akash-NG will have an improved reaction time and higher level of protection against saturation attacks. The second stage uses dual-pulse solid rocket motor which is lighter instead of air-breathing solid ramjet engine to increase the overall range from current 25âÂÂ30 km to 70âÂÂ80 km, an active electronically scanned array (AESA) Multi-Function Radar (MFR) and optical proximity fuze. The final user trials were conducted successfully on 23rd December 2025, with engagement of aerial targets in various scenarios and the missile is ready for induction into the Indian Armed Forces.
The Indian Army and Air Force have a combined order worth â¹23,300 crore ($5.18 billion) as of 2014. The Air Force and the Army inducted their respective variants of Akash Weapon System (AWS) in 2012 and 2015, respectively. On 16 March 2016, Director of Defence Research and Development Laboratory (DRDL), said that India is looking to double missile production to 100 per month, up from 50 to 60.
A Comptroller and Auditor General report released in 2017 stated that because of a lack of adequate storage facilities, the life span of the missiles may be affected. In addition, there was a 30% failure rate during testing of missiles in inventory with 6 out of 20 missiles failing to hit their targets.
The Indian Air Force was satisfied with the performance of Akash after extensive flight trials and has decided to induct two squadrons or 4 batteries of the weapon system in 2008. An order for two squadrons were placed initially, with these being inducted in 2009. The IAF found the missile performance to be satisfactory and was expected to place orders for 16 more launchers to form two more squadrons for India's northeast theater.
In March 2009, Tata Power's Strategic Engineering Division (Tata Power SED) announced that it had secured the order for 16 Akash launchers to be delivered in the next 33 months.
In January 2010, it was revealed that the Indian Air Force had ordered for 6 more squadrons. Each squadron will consist of 125 missiles, bringing the order to 750 missiles for 6 squadrons. The first two squadrons will consist of 48 missiles each while future squadrons will vary in number depending on the IAF. The additional missiles were ordered from state-run defence firm Bharat Electronics, who will act as the system integrator, at a cost of .
IAF orders could reportedly rise due to the retirement of its Pechoras arsenal and if the Indo-Israeli JV to develop a MRSAM (Medium Range SAM) for the IAF face further delays, while a similar program for the Indian Navy proceeds unimpeded.
On 3 March 2012, the missile was officially inducted into Indian Air Force with a ceremony at Hyderabad.
On 10 July 2015, the Akash surface-to-air missile was formally inducted in the Indian Air Force at Gwalior.
On 1 September 2015, the Defence Acquisition Council (DAC) cleared the purchase of seven additional squadrons of the Akash missile for the Indian Air Force. On 12 September 2019, it was reported that the Cabinet Committee on Security (CCS) has cleared the procurement in late August. Later, a contract worth for the deal was signed with Bharat Electronics the same month. The order placed was for Akash Prime missile squadrons. The delivery has been completed as of 2023âÂÂ2024.
In June 2010, the Defence Acquisition Council (DAC) cleared an order of the Akash missile system, valued at . Bharat Dynamics (BDL) will be the system integrator and nodal production agency for the Akash Army variant. The Army plans to induct two regiments of the missile.
In March 2011, a report indicates that the Indian Army has ordered 2 Akash regiments â approximately 2,000 missiles â worth . These will replace the Indian Army's 2 SA-6 Groups (25 systems with 1,500 missiles each), which were inducted between 1977 and 1979.
On 5 May 2015, Akash Missile was inducted into the Indian Army. The Army is scheduled to get two Akash regiments by 2017.
On 30 March 2016, Indian Army stated that Akash area defence missile systems did not meet its operational requirements for defending its strike corps against enemy air attacks in forward areas, and was not ordering any more regiments. The Army instead was opting for four Israeli Quick Reaction SAM (QRSAM) regiments.
In March 2017, it was reported that the procurement of two regiments of SR-SAM under a global tender has been dropped by the Defence Acquisition Council (DAC) in favour of an advanced variant of Akash Weapon System.
In May 2022, it was reported that the Indian Army is going to receive 2 regiments of Akash Prime systems. On 30 March 2023, the MoD signed contracts for procurement of 2 Regiments of improved Akash Weapon System with BDL at a cost over .
The third and fourth regiment equipped with the improved Akash Weapon System was flagged of from the BEL facility by the Defence Minister of India, Rajnath Singh, on 16 February 2026. On 26 March, Bharat Dynamics announced that it has completed the First Off Production Model (FOPM) of the Advanced Akash Weapon System. The system incorporates upgraded sub-systems. The FOPM validates the system before large-scale deliveries. The deliveries are expected to commence soon.
In June 2020, Indian Army deployed Akash air defence system along Line of Actual Control in Ladakh as tension rose with China during 2020 ChinaâÂÂIndia skirmishes.
During the 2025 India-Pakistan conflict, the Indian Army and the Indian Air Force deployed Akash defence systems. According to the Indian Army's Director General of Military Operations (DGMO), the Akash system displayed âÂÂstellar performanceâÂÂ; stating that it played a pivotal role in neutralizing aerial threats, including drones and missiles launched by Pakistan. According to Dr. B.K. Das, Director General for Electronics & Communication Systems at DRDO, Akash performed well during Operation Sindoor.
On 30 December 2020, Cabinet Committee on Security (CCS) chaired by Prime Minister cleared the exports of Akash missile defence system.
In 2022, Akash SAM was seen in a Sudanese Military Exhibition which showcased weapon systems operated by the Sudanese Armed Forces. In 2023, the Indian Ministry of Defence mentioned Akash in the list of multiple exported items, sparking speculations of the system's maiden export to Sudan.
Armenia signed a deal, worth , with Bharat Dynamics Limited in 2022 for the supply of unknown numbers of Akash Weapon System and 15 Ashwin Air Defence Systems. The entire Air Defence Systems will be deployed within 4 to 5 years.
As of November 2023, the delivery of the Akash 1S system was expected to begin from Q2 2024 but was later shifted to 2024-end by August 2024.
The first Akash battery (Armenian variant) was finally delivered on 12 November 2024. A battery included 4 launchers and a Rajendra radar.
The second batch of Akash-1S air defense systems will be delivered in June 2025.
As reported in March 2023, the Akash Weapon System was on offer for the Philippine Navy (operated through the Philippine Marine Corps) under their planned Shore-Based Air Defense Missile System Acquisition Project.
The Philippine government is expected to place an order for Akash SAM worth $200 million in 2025.
In October 2018, a report suggested that the United Arab Emirates had shown interest in the missile system.
Further, in April 2025, India officially offered the Akash missile system to UAE Armed Forces.
It was also reported in the media that Belarus, Malaysia, Vietnam have shown interest in purchasing the Akash missile system.
As per reports in December 2023, Egypt has also shown interest as per defence official.
Indian sources, echoing local media, note that Brazil found the Akash system âÂÂless suitedâ to neutralising high-speed, low-altitude threats that are increasingly common in hybrid warfare scenarios, including drone swarms and precision-guided munitions.