U.S. Army tests micro-guided missile during Golden Shield exercise

Key Points
  • The 1st Cavalry Division conducted Exercise Golden Shield live-fire counter-drone testing at Fort Hood from April 7 to 9, evaluating multiple cUAS systems.
  • Perseus Defense demonstrated its Harpe micro-missile system, achieving radar-cued multi-launch and fully active guidance intercepts during the Army exercise.

The U.S. Army’s 1st Cavalry Division completed a live-fire counter-drone exercise from April 7 through 9 at Fort Hood, Texas, evaluating a range of unmanned aerial system defeat capabilities under its “Golden Shield” counter-drone concept for armored formations.

Among the systems tested was the Harpe missile, a micro-missile interceptor developed by Perseus Defense, a San Francisco, California-based startup that participated in its first military-hosted live-fire demonstration during the exercise. The event integrated advanced sensors, kinetic and non-kinetic effectors, and command-and-control systems to create what the Army describes as an autonomous cohesive defense against small unmanned aircraft systems.

Perseus Defense CEO and Co-Founder Jason Cornelius confirmed the company’s participation and the outcome of the demonstration. “Very proud of the amazing work done by the team here at Perseus Defense these last few weeks,” Cornelius stated. “A few months back we signed up for our first military hosted live fire demonstration with 1st Cav at Ft. Hood. We knew there was a LOT of work to go before we’d be ready for a successful event. Our incredibly cracked and talented team of engineers worked relentlessly to cover an immense amount of ground in 3 short months.”

- ADVERTISEMENT - CONTINUE READING BELOW -

During the exercise, Perseus Defense demonstrated the Harpe system receiving external radar cues passed through the military’s command and control software to engage drone targets with its missiles. The company also demonstrated multi-launch capability and fully active guidance to the drone threat — two critical performance benchmarks for any system seeking to transition from prototype to operational fielding in the U.S. Army’s counter-UAS inventory.

The Harpe missile is designed to engage Group 1 and Group 2 drones — the small, light, fast and low-flying unmanned systems that have emerged as one of the most pressing threats to ground forces across modern combat environments. The system fires from a pod containing 8 micro-missiles, with a stated engagement range of more than 1,000 meters. Each missile is priced at under $10,000, which Perseus Defense characterizes as approximately 25 times cheaper than currently fielded counter-UAS solutions. The launcher is designed to be adaptable across multiple platforms, including unmanned aerial vehicles, ground vehicles and boats, giving it potential utility across a wide range of operational contexts.

The Harpe system’s development timeline has been rapid even by startup standards. Perseus Defense built its first two spin-stabilized rockets — designated Mk-I and Mk-II guided missiles — in June 2025, the same month the company won Y Combinator’s S25 batch preview day. Testing of the Mk-III surface-to-air interceptor followed in July 2025. By October 2025 the team had relocated to Austin, Texas, and in December 2025 leased a 17,500-square-foot headquarters facility in Buda, Texas. January 2026 brought a significant technical milestone when the company achieved fully guided flight for a direct hit-to-kill intercept. By February 2026, Perseus Defense had expanded to ten full-time team members — a lean engineering force that nonetheless delivered a system to a major Army live-fire exercise within three months of signing up for the demonstration.

Small drones have fundamentally altered the dynamics of ground combat, as demonstrated extensively in Ukraine, where Group 1 and Group 2 unmanned systems have been used for reconnaissance, targeting and direct attack against armored vehicles. An armored brigade combat team, with its concentration of high-value platforms, presents an attractive target for drone operators, making organic counter-UAS capability a priority the Army has been working to address across multiple programs and experimentation efforts.

The 1st Cavalry Division’s Golden Shield experimentation effort has now produced a live-fire data set that Army evaluators can use to assess how systems like Harpe perform in a realistic command-and-control environment, receiving real targeting data and engaging actual drone targets. Whether the Harpe system advances toward a formal procurement program will depend on those evaluation results and the Army’s broader counter-UAS acquisition decisions, but the Fort Hood demonstration represents a meaningful operational test for a company that began guided flight testing just months ago.

Readers who wish to follow our weekly coverage can subscribe to the Weekly Defense Roundup.

If you wish to report a grammatical or factual error in this article, please let us know by using the online form.

Executive Editor

Support The Defence Blog

Independent reporting takes resources. Join us on Patreon.

Become a patron

More Like This

U.S. Army buys more of its toughest Arctic combat vehicle

The U.S. Army awarded BAE Systems Land and Armaments a $35 million contract modification on June 30, 2026, for additional production of the general-purpose...

AEVEX wins $50M deal for GPS-resistant strike drones

AEVEX Corp. secured a $50 million contract from the United States Air Force on June 30, 2026, to continue expanding unmanned mission-support capabilities for...

Israeli laser drone-killer raises $18M to scale production

Esh-Tech, the Israeli laser defense company behind the pulsed-laser counter-drone system DroneLight, raised $18 million in a funding round led by Kinetica Ventures, the...

U.S. Air Force spends $471M to fix tanker parts supply problem

The U.S. Air Force awarded a combined $471 million in contracts to 28 different companies on a single day, spreading the work of exchanging...

U.S. Navy orders $312M more of its anti-missile jamming system

Northrop Grumman secured a $312 million contract from the U.S. Navy on June 24, 2026, to produce additional Surface Electronic Warfare Improvement Program Block...