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DRDO Successfully Tests 4th Generation VSHORADS Air Defence System

DRDO Successfully Tests 4th Generation VSHORADS Air Defence System

DRDO’s Breakthrough: VSHORADS Delivers 4x Range Boost for Enhanced Air Defense

India’s VSHORADS Missile: A 4-Fold Leap in Air Defense Capabilities

In a significant milestone for India’s defence capabilities, the Defence Research and Development Organisation (DRDO) successfully conducted the flight tests of the advanced 4th generation Very Short Range Air Defence System (VSHORADS) on October 3-4, 2024. The trials were held at the Pokhran Field Firing Ranges in Rajasthan, with the missile system being tested against high-speed aerial targets. This achievement is set to boost the Indian Army’s air defence systems, providing protection against low-flying aerial threats such as helicopters and unmanned aerial vehicles (UAVs).

What is VSHORADS?

The Very Short Range Air Defence System (VSHORADS) is a Man-Portable Air Defence System (MANPADS) developed indigenously by DRDO’s Research Centre Imarat (RCI) in Hyderabad, in collaboration with other DRDO laboratories and Indian private companies. Designed for the Indian Army, Air Force, and Navy, the system has a range of up to 6 kilometres and is designed to intercept and neutralise low-altitude aerial threats.

Key Features of VSHORADS

VSHORADS is equipped with several advanced features, making it a crucial component in India’s air defence:

  • Man-Portable System: Weighing around 21 kg, VSHORADS is portable and can be deployed via a tripod launcher, making it highly mobile and suitable for challenging terrains.
  • Surface-to-Air Missile: VSHORADS is designed to neutralise low-flying aircraft and UAVs flying at low altitudes, providing short-range air defence.
  • Dual-Band Infrared Imaging Seeker: The system is equipped with an imaging infrared (IIR) homing system, allowing it to image the heat source of an enemy aircraft, detect and track it accurately, and resist infrared jamming systems. It can also differentiate between an aircraft and decoy flares used by enemy aircraft to evade missile strikes.
  • Resilience to Infrared Jamming: VSHORADS is highly resistant to enemy countermeasures, such as infrared flares, which are commonly deployed by aircraft to mislead heat-seeking missiles.
  • Solid Propellant Motor: The missile is powered by a dual-thrust solid motor, providing it with the thrust required to intercept fast-moving aerial targets at both maximum range and altitude.

Testing at Pokhran Field Firing Ranges

The trials at Pokhran, conducted on October 3 and 4, 2024, were focused on demonstrating the system’s performance under various target engagement scenarios. The missile was tested against high-speed aerial targets to verify its interception capabilities at maximum range and altitude. The tests proved the VSHORADS’ ability to engage fast-moving targets approaching, receding, and crossing at low altitudes.

Performance and Critical Parameters Tested

During the trials, several critical parameters were tested, including:

  • Maximum Range and Altitude: The missile system successfully demonstrated its capability to intercept aerial threats at both maximum range (up to 6 kilometres) and maximum altitude.
  • Hit-to-Kill Accuracy: The tests highlighted the missile’s precision in hitting its target with high accuracy, even in different target engagement scenarios. The hit-to-kill capability of VSHORADS ensures that the missile can effectively neutralise threats in real-world combat situations.

Development and Production

The VSHORADS system has been developed entirely within India, aligning with the government’s push for indigenous defence technologies under the ‘Aatmanirbhar Bharat’ (Self-reliant India) initiative. The Research Centre Imarat (RCI) in Hyderabad, in collaboration with other DRDO labs and Indian industry partners, led the design and development of this advanced missile system. The Indian Armed Forces have been involved in the project from its inception and participated in the developmental trials.

Partnership with Industry

DRDO has engaged two production agencies in the Development cum Production Partner (DcPP) mode for the manufacturing of VSHORADS missiles. These trials used missiles developed through the DcPP model, showcasing the successful collaboration between DRDO and Indian defence industries. The success of the trials paves the way for early user trials and the commencement of large-scale production in the near future.

Importance of VSHORADS for India’s Defence

VSHORADS plays a crucial role in strengthening India’s defence against aerial threats, especially in the face of rising drone and UAV-based warfare. The system will provide short-range air defence capabilities to protect ground forces and critical military infrastructure. It is also a much-needed upgrade for the Indian Army, which has been using the Russian-made Igla-S MANPADS for several years.

Replacing Legacy Systems

The Indian Army has been attempting to replace its ageing Igla systems for some time. While small quantities of Igla-S systems were procured under emergency procurement in recent years, the VSHORADS will serve as a modern and indigenous alternative. The successful testing of VSHORADS marks a significant step in upgrading India’s air defence systems and reducing dependency on foreign defence equipment.

Statements from Key Officials

Following the successful trials, Defence Minister Rajnath Singh congratulated DRDO, the Armed Forces, and the industry partners involved in the project. He praised the technological advancements of the VSHORADS system, emphasising that it would significantly enhance the Armed Forces’ ability to counter aerial threats.

Chairman of DRDO, Dr. Samir V. Kamat, also lauded the DRDO team and its industry partners for their efforts in completing the development trials. He reiterated that the successful flight tests demonstrate the reliability and precision of the VSHORADS system, which will soon enter early user trials and production.

Role of MANPADS in Modern Air Defence

VSHORADS belongs to a category of air defence systems known as MANPADS (Man-Portable Air Defence Systems). These are portable, surface-to-air missile systems that can be operated by individuals or small teams. MANPADS systems are typically used to provide short-range air defence against low-flying aircraft and helicopters.

Global Use of MANPADS

MANPADS are considered the last line of defence in a missile-based air defence system, as they can be deployed quickly in the battlefield by small teams. Countries like the United States, Russia, China, France, and the United Kingdom have developed their own MANPADS systems, with the U.S. Stinger missile being one of the most well-known examples.

While traditional MANPADS like the Stinger can be shoulder-fired, the VSHORADS system developed by DRDO is designed to be fired using a tripod-mounted launcher, enhancing its stability and accuracy during deployment.

Conclusion of Development Trials

The completion of the VSHORADS development trials marks a significant achievement in India’s quest for self-reliance in defence manufacturing. With its advanced technology and indigenous production, the VSHORADS system is expected to provide India’s Armed Forces with a reliable and effective air defence solution against low-altitude aerial threats. As the system moves towards early user trials and production, it will play a pivotal role in enhancing India’s overall defence preparedness.

FAQs:

  1. What is VSHORADS?

VSHORADS stands for Very Short Range Air Defense System. It’s a man-portable air defense system (MANPADS) being developed by DRDO for the Indian Armed Forces.

  1. What is the significance of VSHORADS?

VSHORADS is a crucial asset for India’s defense as it can neutralize aerial threats like low-flying aircraft and drones. It’s a significant step towards achieving self-reliance in defense technology.

  1. Who developed VSHORADS?

VSHORADS was designed and developed indigenously by Research Centre Imarat (RCI), Hyderabad, in collaboration with other DRDO laboratories and private companies.

  1. What are the key features of VSHORADS?

VSHORADS has an imaging infrared (IIR) homing system, a range of up to six kilometers, and is lightweight for easy deployment.

  1. What are the advantages of VSHORADS over existing systems?

VSHORADS offers enhanced range, precision, and the ability to counter modern aerial threats, making it a more effective air defense system compared to older models.

  1. What was the outcome of the recent VSHORADS tests?

The recent tests demonstrated the missile’s capability to intercept targets at maximum range and altitude, showcasing its effectiveness in various target engagement scenarios.

  1. What are the implications of VSHORADS for India’s defense?

VSHORADS strengthens India’s air defense capabilities, enhances its ability to protect critical infrastructure, and reduces reliance on foreign-made defense systems.

  1. How does VSHORADS contribute to India’s “Aatmanirbhar Bharat” (Self-Reliant India) initiative?

VSHORADS is a prime example of India’s indigenous defense development, showcasing the country’s ability to produce advanced military equipment domestically.

  1. What are the future plans for VSHORADS?

DRDO is working on further enhancing VSHORADS’ capabilities and exploring its potential for export to other countries.

  1. How does VSHORADS compare to other similar systems globally?

VSHORADS is considered to be one of the most advanced MANPADS systems in the world, offering comparable or superior performance to its international counterparts

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