The US Air Force (USAF) recently successfully tested its new tactical air-to-surface missile, the Stand-in Attack Weapon (SiAW).
This marks a significant milestone as the missile was released from an F-16 Fighting Falcon over the Gulf of Mexico, showcasing its ability to separate from an aircraft after commanded release.
The primary aim of this test was to validate the separation capability of the missile, which is crucial for its future operational use.
New tactical missile
The test involved a “jettison test vehicle” (JTV) that lacks a rocket motor or internal electronics.
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Instead, it was specifically designed to safely monitor the weapon’s detachment from the aircraft.
Multiple units from the 96th Test Wing collaborated to execute this mission, with oversight from Eglin Central Control Facility.
Post-flight analysis will be carried out to assess the results, and aerial footage was captured throughout the test.
Major James Tipton from the 780th Test Squadron praised the teamwork involved in the successful execution of the test, underscoring the collective efforts of all personnel.
For mobile threat neutralization
The SiAW missile is engineered to target rapidly relocatable threats, including cruise missile launchers and enemy jamming platforms, particularly within contested areas where anti-access/area denial (A2/AD) systems are present.
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To adapt to shifting threats, the missile features an open architecture design, enabling swift subsystem upgrades to enhance capabilities in the field.
This system aligns with the Air Force’s Middle Tier Acquisition initiative, focused on digital engineering and agile responses.
The SiAW program aims for initial operational capability by 2026 and comprises two development phases.
The first phase will conclude with a guided vehicle flight test, followed by additional flight tests and the provision of prototype missiles and test assets in the second phase.
First strike
Developed by Northrop Grumman, the SiAW missile solution is versatile.
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It can be integrated into various aircraft, building on insights from the Navy’s Advanced Anti-Radiation Guided Missile Extended Range (AARGM-ER) and F-35 integration efforts.
The missile’s propulsion system is designed to achieve optimal ranges against evolving threats, while its tail-controlled design improves maneuverability and survivability.
While the SiAW missile has a shorter range than standoff weapons, it is vital to target mobile threats such as anti-satellite systems and GPS jamming equipment.
The USAF asserts that SiAW will enhance its capabilities against relocatable targets that hinder operations, particularly in A2/AD scenarios.
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Key targets for the SiAW system include theater ballistic missile launchers, cruise missile launch sites (land-attack and anti-ship), jammers, anti-satellite systems, and integrated air defense systems.
The development of this missile is being executed under a Digital Acquisition approach, emphasizing agility and rapid innovation.
As the Air Force prepares to enhance its tactical capabilities, the SiAW missile is poised to become an essential part of the US military’s arsenal, providing strategic advantages in addressing contemporary threats.
The ongoing commitment from Northrop Grumman to refine and test the SiAW design ensures it meets the evolving operational requirements of the USAF, enabling swift capability delivery to the warfighter.
This milestone test is crucial to strengthening America’s defense capabilities and ensuring readiness against emerging threats in complex operating environments.
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