Image

Laser and Radar Team Up to Combat UAVs

March 28, 2017
The MEHEL laser system was recently teamed with a radar detection system as an effect means of combatting multiple fixed- and rotary-wing UAVs.

Some light has been shed on the growing problem of weapon-carrying unmanned aerial vehicles (UAVs) and how to minimize the threat by means of high-energy directed weapons. Recent testing by the U.S. Army’s Space and Missile Defense Command (SMDC) and Army Forces Strategic Command (ARSTRAT) at White Sands Missile Range, N.M. demonstrated current counter-unmanned aircraft system (C-UAS) capability.

The exercises were part of the Joint Improvised-Threat Defeat Organization (JIDO) UAS Hard-Kill Challenge. They employed the Mobile Expeditionary High Energy Laser 2.0 (MEHEL 2.0) in combination with a Stryker-mounted radar system (see figure), engaging and defeating several small fixed-wing UAVs and quad copters.

 “The purpose of the JIDO UAS Hard-Kill Challenge was to assess and look at technology,” said Adam Aberle, SMDC High Energy Laser Division technology development and demonstration lead, “to do a ‘hard-kill’ shoot down of Group 1 [unmanned aircraft systems] and inform decision-makers on the current state of technology, and how it can deal with single and multiple targets.”

A Stryker vehicle serves as a test bed for experiments with the latest version of the MEHEL laser weapon. (Photo courtesy of the U.S. Army)

The upgraded 2.0 version of the MEHEL system employs a 5-kW laser compared to the earlier 2-kW laser. “SMDC, working with industry, put together a system that worked, and we realized there were some limitations,” Aberle noted. “Upgrading from 2kW to 5kW, there were some limitations in the system. We learned from the event, and we have plans to correct those deficiencies for future activities.”

With regard to the on-board radar system, “We were able to verify and show that we could put a radar and a laser on a platform so it could self-cue to targets, and that was very successful,” Aberle expalined. “We look forward to working with industry—and continue to mature the technology—because we believe this technology is critical to the Army, and will be very beneficial once we are able to get the technology mature enough to transition it and field it one day.

About the Author

Jack Browne | Technical Contributor

Jack Browne, Technical Contributor, has worked in technical publishing for over 30 years. He managed the content and production of three technical journals while at the American Institute of Physics, including Medical Physics and the Journal of Vacuum Science & Technology. He has been a Publisher and Editor for Penton Media, started the firm’s Wireless Symposium & Exhibition trade show in 1993, and currently serves as Technical Contributor for that company's Microwaves & RF magazine. Browne, who holds a BS in Mathematics from City College of New York and BA degrees in English and Philosophy from Fordham University, is a member of the IEEE.

Sponsored Recommendations

Wideband MMIC LNA with Bypass

June 6, 2024
Mini-Circuits’ TSY-83LN+ wideband, MMIC LNA incorporates a bypass mode feature to extend system dynamic range. This model operates from 0.4 to 8 GHz and achieves an industry leading...

Expanded Thin-Film Filter Selection

June 6, 2024
Mini-Circuits has expanded our line of thin-film filter topologies to address a wider variety of applications and requirements. Low pass and band pass architectures are available...

Mini-Circuits CEO Jin Bains Presents: The RF Engine of the 21st Century

June 6, 2024
In case you missed Jin Bains' inspiring keynote talk at the inaugural IEEE MTT-S World Microwave Congress last week, be sure to check out the session recording, now available ...

Selecting VCOs for Clock Timing Circuits A System Perspective

May 9, 2024
Clock Timing, Phase Noise and Bit Error Rate (BER) Timing is critical in digital systems, especially in electronic systems that feature high-speed data converters and high-resolution...