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NASM-SR
NASM-SR
NASM-SR
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NASM–SR or Naval Anti-Ship Missile–Short Range is the first indigenous air-launched anti-ship missile being developed by the Defence Research and Development Organisation for the Indian Navy.[9] The missile is manufactured by Adani Defence & Aerospace under DcPP programme.[10][11]

Key Information

NASM-SR features lock-on after launch with automatic target selection. The missile can strike in sea skimming and lofted trajectory mode. It supports fire-and-forget operation in all weather conditions, day or night. Re-targeting is available through two-way datalink (human-in-the-loop system).[12]

Development

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Since 1980s, the Indian Navy has been using Sea Eagle anti-ship missile on its Westland Sea King Mk.42B multipurpose helicopter. The NASM-SR is intended as a replacement for the Sea Eagle missile which restricted flight range and increased take-off weight. The development of NASM-SR was made public for the first time in 2018 by the then Minister of Defence Nirmala Sitharaman. Fund of 436.06 crore (equivalent to 583 crore or US$69 million in 2023) for the development was also allocated in the same year.[9]

The missile is being developed by multiple DRDO labs including Research Centre Imarat, Defence Research and Development Laboratory, High Energy Materials Research Laboratory and Terminal Ballistics Research Laboratory.[13]

The NASM-SR can be easily adapted to launch from ships and land-based vehicles. DRDO is speculated to be developing a long range version of it for attacking land targets.[9] As the Sea King Helicopters are being phased out, the NASM-SR will be equipped on Indian Navy's newly acquired MH-60R naval helicopters.[14]

Design

[edit]

The design and specifications of the new missile was revealed at the DefExpo 2020. The specification showed Mach 0.8 capable air launched anti-ship missile with a range of 55 km. The missile has an indigenous Imaging Infra-Red (IIR) seeker immune to jamming and state-of-the-art navigation system.[9]

As reported, the missile is equipped with indigenous fibre-optic gyroscope-based inertial navigation system (INS) and a radar altimeter for mid-course guidance, along with an integrated avionics module, electro-mechanical actuators for aerodynamic and jet vane control, thermal batteries, and a PCB warhead.[13][15]

The missile features human-in-the-loop system. It allows the pilot of the helicopter to launch the missile in bearing-only lock-on after launch mode towards a large target over a "specified zone of search" and later, in the terminal phase, locking onto a "smaller hidden target" (more precise target) improving the accuracy of the missile. The missile is also equipped high-bandwidth two-way datalink to relay live images from its seeker to the pilot for the in-flight retargeting. These features were operationally demonstrated in 2025.[15]

Testing

[edit]
Maiden flight test of NASM-SR
  • Indian Navy successfully carried out the first test of the missile from a Sea King Mk.42B helicopter on 18 May 2022.[16] On maiden test firing, NASM-SR demonstrated its sea skimming capability and approaches the target at 5m above the sea level.[17] The maiden test was successful, and the missile is said to have reached the designated target with high degree of accuracy. It validated the control, guidance and mission algorithms.[18]
  • DRDO conducted successful guided flight trials of NASM-SR on 21 November 2023 in collaboration with Indian Navy.[19]
  • The NASM-SR missile was test fired by an Indian Naval SeaKing 42.B from Integrated Test Range, Chandipur, Odisha on 26 February 2025. The missile successfully hit a small ship target in sea skimming mode at maximum range. The missile deployed its indigenous IIR seeker for terminal guidance.[13][15]

See also

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References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

NASM-SR

View on Grokipedia
from Grokipedia
The Naval Anti-Ship Missile – Short Range () is an indigenous, helicopter-launched developed by India's (DRDO) in collaboration with the to enhance coastal defense and anti-access/area-denial capabilities. Designed for platforms such as the , the missile features a Man-in-Loop enabling in-flight retargeting for precise engagement of moving ship targets at ranges up to approximately 55 kilometers. Development involved multiple DRDO laboratories, including the , , and High Energy Materials Research Laboratory, aiming to replace foreign-origin s with a domestically produced alternative. Successful flight trials, including the maiden test in May 2022 and confirmatory tests in February 2025 from the Integrated Test Range in Chandipur, validated key capabilities such as direct hits on simulated ship targets and robust datalink performance. These tests demonstrated the missile's all-weather operation and integration with naval s, marking a significant advancement in India's self-reliant maritime strike technology.

Development

Program Origins and Objectives

The NASM-SR program originated from the Indian Navy's requirement for an indigenous air-launched anti-ship missile to equip legacy helicopter platforms, particularly the Sea King, thereby reducing dependence on imported systems like the British Sea Eagle missile. Developed collaboratively by the Defence Research and Development Organisation (DRDO) and the Indian Navy, the project represents India's first domestically produced short-range anti-ship missile designed exclusively for naval aviation applications. The program's development was publicly disclosed in 2018 by then-Defence Minister Nirmala Sitharaman, highlighting its alignment with national efforts to indigenize defense technologies in the post-2010s era. Key objectives of the NASM-SR initiative include creating a lightweight missile, weighing approximately 380 kg, with a subsonic speed and a range of up to 55 km, optimized for precision strikes on surface vessels from helicopter platforms. This addresses operational gaps in short-range anti-ship capabilities for coastal defense and anti-access/area denial scenarios, enabling the Indian Navy to maintain effective maritime strike options without foreign procurement constraints. The program underscores a strategic push toward self-reliance in weaponry, responding to broader indigenization imperatives amid evolving regional maritime dynamics.

Technological Advancements and Collaborations

The development of the NASM-SR leveraged coordinated R&D across multiple (DRDO) laboratories, with the (RCI) leading efforts in , guidance, and control systems, the (DRDL) handling overall missile configuration and integration, and the High Energy Materials Research Laboratory (HEMRL) contributing to propulsion technologies. These institutional partnerships enabled the synthesis of subsystem expertise into a cohesive , reducing dependency on imported components through targeted indigenous engineering. Central to these advancements is the indigenous Fiber Optic Gyroscope (FOG)-based (INS), which provides high-precision attitude and trajectory data resilient to jamming, paired with a radio altimeter for real-time sea-skimming altitude control during mid-course flight. An integrated module consolidates , data processing, and actuator controls, minimizing weight and enhancing via redundant architectures developed under RCI's guidance protocols. These components represent breakthroughs in domestic and embedded systems, derived from iterative prototyping that prioritized and low-signature emissions for maritime environments. Collaborations extended to the for platform-specific adaptations, including launcher interfaces and fire-control linkages tailored to rotary-wing assets, ensuring seamless integration without compromising naval operational tempo. Such joint endeavors underscored causal dependencies between subsystem maturity—such as FOG-INS calibration accuracy—and aggregate system performance, fostering iterative refinements grounded in empirical feedback from simulated and controlled validations.

Design and Specifications

Airframe and Propulsion

The NASM-SR features a compact designed specifically for carriage and launch from rotary-wing platforms such as the Indian Navy's helicopters, with a total weight of approximately 380 kg to ensure compatibility with payload limitations. Its dimensions include a length of 3.6 meters and a of 0.3 meters, enabling integration without significant modifications to existing helicopter armaments. The structure prioritizes lightweight construction and aerodynamic stability for low-altitude, maritime operations, facilitating sea-skimming trajectories at subsonic speeds around Mach 0.8 to minimize detection. Propulsion is provided by an indigenous solid motor system, incorporating an inline jettisonable booster for initial acceleration and a long-burn sustainer for extended range up to 55 km. This configuration achieves the required end-to-end performance while maintaining the missile's compact profile, with the booster design allowing separation post-launch to optimize flight efficiency. Empirical validation through developmental trials has confirmed the propulsion system's reliability in air-launch scenarios, supporting stable flight envelopes suited to anti-ship roles.

Guidance and Control Systems

The NASM-SR employs a hybrid guidance designed for precision strikes against maritime targets, integrating for mid-course with seeker-based terminal acquisition and operator intervention capabilities. In the mid-course phase, the missile relies on an indigenous Fiber Optic Gyroscope ()-based (INS) coupled with a to maintain low-altitude sea-skimming flight and execute pre-programmed waypoints autonomously, minimizing reliance on external signals vulnerable to electronic countermeasures. Transitioning to the terminal phase, the system activates an indigenous Imaging Infra-Red (IIR) seeker for target discrimination and lock-on, providing resistance to radar jamming through passive infrared imaging that captures thermal signatures for accurate homing in the final acquisition stage. A high-bandwidth two-way complements the seeker by relaying real-time video feeds from the missile's onboard sensors to the launching platform's operator, facilitating the Man-in-the-Loop (MIL) mode for dynamic retargeting. This MIL capability enables in-flight adjustments to redirect the toward moving vessels or obscured targets that evade initial seeker lock, addressing limitations of autonomous in littoral environments cluttered with decoys, civilian traffic, or terrain-masked threats. Control authority is achieved through aerodynamic surfaces including wings and tail fins, actuated by high-response servos that execute pitch, yaw, and roll corrections based on guidance inputs, ensuring stability during sea-skimming maneuvers and evasive actions. The integration of these elements—INS for robustness, IIR for precision, and MIL via —prioritizes adaptability against agile naval adversaries, where autonomous alone may falter due to electronic warfare or multi-target scenarios.

Testing and Validation

Developmental Trials

![Maiden flight test of NASM-SR from Sea King helicopter at ITR][float-right] The developmental trials of the NASM-SR commenced with captive carriage tests to evaluate integration with launch platforms and basic aerodynamic stability. On May 18, 2022, the Indian Navy conducted the maiden captive carriage trial using a Sea King Mk.42B helicopter, verifying the missile's compatibility, release mechanisms, and performance under carriage conditions without actual launch. This test provided essential data on vibration levels, structural integrity, and avionics functionality during simulated operational profiles. Preceding flight-related activities, ground-based static tests assessed the reliability of indigenous propulsion systems, seeker heads, and control . These evaluations, performed at DRDO facilities including the Integrated Test Range (ITR) in Chandipur, confirmed the empirical performance of key components such as the turbojet engine and radar seeker under controlled conditions. Iterative refinements addressed identified issues in dynamics, enhancing overall system robustness prior to progression to dynamic flight phases.

2025 Flight Tests and Outcomes

On 25 February 2025, the (DRDO) and the conducted flight trials of the Naval Anti-Ship Missile Short Range (NASM-SR) at the Integrated Test Range (ITR) in . The tests marked a significant milestone by demonstrating the missile's integrated performance in a realistic . The trials validated key features, including man-in-the-loop (MIL) retargeting, data link integrity, and the accuracy of the imaging infrared (IIR) seeker against simulated surface targets. The missile executed a sea-skimming trajectory at its maximum range, achieving a direct hit on a small ship target, which confirmed mid-course guidance stability and terminal precision. These results indicated hit probabilities consistent with tactical requirements for anti-ship operations. No major failures were reported across the trial sequences, highlighting reliable system performance and DRDO's progress in indigenous missile technology validation. While the NASM-SR's effective range remains shorter than some international counterparts, the tests affirmed its operational viability without impediments from this limitation.

Operational Capabilities

Platform Integration

The NASM-SR missile has been primarily integrated with the Indian Navy's Westland Sea King Mk.42B helicopters for initial developmental trials and validation. Successful flight tests conducted on February 26, 2025, demonstrated the missile's launch from a Sea King helicopter, achieving direct hits on ship targets while validating mid-course guidance and terminal seeker performance. Integration efforts ensure compatibility with helicopter avionics, incorporating an indigenous integrated avionics module, Fiber Optic Gyroscope-based , and radio altimeter for mid-course updates via a two-way . This setup supports launches from hovering or low-speed flight profiles typical of naval operations. The missile's 380 kg weight aligns with payload capacities, preserving platform endurance during missions. Future platform integration targets the MH-60R Seahawk and (ALH Mk-III) helicopters, as platforms phase out. Adani Defence & Aerospace handles production and for these assets, focusing on verifiable flight trial data to confirm . Ongoing trials prioritize empirical test outcomes over simulations to establish reliable fielding across naval rotary-wing platforms.

Tactical Applications

The NASM-SR serves primarily in short-range roles, enabling coastal patrol operations, preemptive strikes, and engagements within littoral zones extending up to its maximum range of 55 km. Designed for deployment from helicopters such as the Mk 42B, it targets surface vessels in close-in scenarios where rapid response is critical. In (A2/AD) strategies, the missile enhances defenses against amphibious threats by providing precision strikes on approaching ships, particularly in contested coastal environments. Its man-in-the-loop (MIL) guidance allows operators to dynamically adjust targeting mid-flight, improving effectiveness against evasive maneuvers by small or fast-moving vessels during sea-skimming attacks. This capability was validated in trials achieving direct hits on ship targets at maximum range. While the NASM-SR's limited range restricts its utility against standoff threats beyond littoral areas, its high precision and integration with existing platforms justify its role in high-volume, cost-effective saturation attacks for denying access to near-shore zones. Analysts note that, despite not matching longer-range systems, its indigenous design supports scalable deployment in scenarios prioritizing rapid, localized superiority over extended reach.

Strategic Significance

Contributions to Indigenous Defense

The NASM-SR marks a pivotal advancement in India's defense self-reliance, serving as the inaugural indigenously developed air-launched for the , thereby diminishing reliance on imported systems like the aging British . This development, spearheaded by the (DRDO), incorporates homegrown technologies that build national proficiency in production and integration, reducing vulnerabilities to foreign disruptions or sanctions. Successful flight trials conducted on February 25, 2025, from the Integrated Test Range in Chandipur validated the missile's performance against a sea-skimming target, fulfilling all mission parameters and affirming the viability of DRDO's accelerated R&D pathways from conceptualization to deployment. These outcomes empirically refute persistent critiques of protracted Indian defense timelines, establishing a tangible progression of indigenous capabilities that fortify the navy's operational . By enhancing the Indian Navy's precision strike options from helicopter platforms, NASM-SR contributes to a robust deterrence posture against regional maritime adversaries, prioritizing pragmatic strategic independence over dependence on external alliances. This self-sufficient arsenal expansion aligns with broader national efforts to indigenize critical defense technologies, mitigating risks inherent in prolonged foreign procurement cycles.

Comparative Analysis and Limitations

The NASM-SR demonstrates advantages over legacy foreign anti-ship missiles integrated on Sea King helicopters, such as the British , primarily through its indigenous design enabling customized adaptations for MIL (man-in-the-loop) guidance and data-link retargeting, which enhance precision in cluttered maritime environments compared to the fire-and-forget limitations of older systems. These features, validated in 2025 trials achieving direct hits on small ship targets in sea-skimming mode, address vulnerabilities in legacy missiles' autonomous navigation, which lack real-time operator intervention for evasive maneuvers. However, the NASM-SR's reported range of approximately 55 km imposes tactical constraints relative to longer-range alternatives like the Harpoon missile, which achieves over 120 km in air-launched configurations, thereby restricting its utility in blue-water operations where standoff distances reduce exposure to enemy air defenses. This shorter reach necessitates closer helicopter approaches, increasing vulnerability to surface-to-air threats, particularly given the missile's subsonic speed, which affords adversaries more reaction time for interception compared to supersonic systems. Development timelines, spanning initial 2022 sea-skimming tests to full 2025 validation, reflect iterative refinements but highlight dependencies on platform-specific integration, potentially delaying broader deployment. Proponents of indigenous programs emphasize the NASM-SR's role in fostering by reducing import reliance on legacy systems like the , with its modular design supporting future upgrades at lower lifecycle costs than foreign acquisitions. Skeptics, however, argue for prioritizing range extensions to match peer capabilities, noting that incremental enhancements—such as booster additions—offer pragmatic paths over immediate replacements, as evidenced by the missile's successful progression from developmental firings to operational demonstrations within three years. Empirical trial outcomes, including consistent under MIL control, substantiate viability for littoral scenarios, though empirical data on penetration against modern electronic warfare remains limited pending user evaluations.

References

  1. https://www.pib.gov.in/PressReleasePage.aspx?PRID=2106482
  2. https://www.navalnews.com/tag/nasm-sr/
  3. https://vajiramandravi.com/current-affairs/nasm-sr/
  4. https://www.republicworld.com/defence/indian-armed-forces/how-drdos-nasm-sr-missile-equips-india-to-counter-any-maritime-aggression-by-pakistan-china
  5. https://organiser.org/2025/02/27/280183/bharat/indias-naval-defence-strengthens-first-of-its-kind-indigenous-anti-ship-missile-nasm-sr-missile-successfully-tested/
  6. https://www.janes.com/osint-insights/defence-news/defence/india-tests-anti-ship-missiles-features-datalink
  7. https://aviationweek.com/defense/missile-defense-weapons/india-conducting-nasm-sr-missile-firing-trials
  8. https://m.economictimes.com/news/defence/drdo-successfully-tests-naval-anti-ship-missile-short-range/articleshow/118582636.cms
  9. https://x.com/SpokespersonMoD/status/1894757368736764184
  10. https://m.economictimes.com/news/defence/bullseye-indian-navy-is-working-on-an-anti-ship-missile-that-can-hit-even-hidden-enemies-with-pinpoint-precision/articleshow/118625045.cms
  11. https://www.defencewatch.in/defence-news/latest-defence-news/all-you-need-to-know-about-drdo-developed-anti-ship-missile-nasm-sr
  12. https://www.navalnews.com/naval-news/2022/05/drdo-and-indian-navy-test-fire-new-nasm-sr-missile/
  13. https://www.key.aero/article/indian-navy-uses-sea-king-progress-nasm-sr-missile-trials
  14. https://indianexpress.com/article/explained/navy-anti-ship-missile-significance-explained-7928016/
  15. https://www.globalsecurity.org/military/world/india/nasm-sr.htm
  16. https://www.iasgyan.in/daily-current-affairs/nasm-sr
  17. https://www.newindianexpress.com/states/odisha/2025/Feb/27/drdo-navy-conduct-trial-of-short-range-anti-ship-missile
  18. https://indianexpress.com/article/cities/pune/drdo-navy-test-indigenous-helicopter-launched-anti-ship-missile-with-man-in-loop-9858259/
  19. https://en.bharatpedia.org/wiki/NASM-SR
  20. https://thedefensepost.com/2025/02/27/india-anti-ship-missile/
  21. https://www.zona-militar.com/en/2025/02/28/the-indian-navy-successfully-launches-its-new-nasm-sr-anti-ship-missile-from-one-of-its-sea-king-helicopters/
  22. https://www.gktoday.in/successful-flight-trials-of-naval-anti-ship-missile/
  23. https://swarajyamag.com/defence/why-the-latest-test-of-indias-naval-anti-ship-missile-was-more-significant-than-you-thought
  24. https://idrw.org/nasm-sr-gears-up-for-high-stakes-dynamic-trial-navigating-risks-in-helicopter-launched-missile-testing/
  25. https://www.dsalert.org/news/drdo-and-indian-navy-successfully-tests-naval-anti-ship-missile-short-range/
  26. https://www.thehindu.com/news/national/drdo-indian-navy-flight-test-anti-ship-missile/article69267135.ece
  27. https://www.flightglobal.com/helicopters/india-hits-target-with-new-helicopter-launched-anti-ship-missile/161978.article
  28. https://www.tnpscthervupettagam.com/currentaffairs-detail/naval-anti-ship-missile-short-range-nasm-sr/13
  29. https://indiasworld.in/current-affair/india-successfully-tests-indigenous-naval-anti-ship-missile/
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