556th TES’ ACE REAPER efforts validate MQ-9’s INDOPACOM integration ability Published Dec. 7, 2021 By 1st Lt Lindsey Heflin 53rd Wing ANDERSEN AIR FORCE BASE, Guam -- The 556th Test and Evaluation Squadron achieved major MQ-9 agile employment milestones during a combined 49th Wing, 432nd Wing, and 53rd Wing Immediate Response Force and Agile Combat Employment exercise Sept. 13-Oct. 6, 2021. Launching from Creech Air Force Base, Nevada, the 556th TES flew an MQ-9 Reaper via satellite control to Marine Corps Base Hawaii and landed using a significantly modified Auto Takeoff and Landing Capability pattern built on imagery alone, without any standard surveys conducted prior. At MCBH, the team conducted five local pattern sorties and trained six sets of non-Land and Recovery aircrew on ATLC operations, certifying the ability to train non-LR aircrew for future sorties. “While we were at MCBH, the ACE team conducted three rapid refuels utilizing only five multi-capable Airmen who were proficient between weapons, aircraft maintenance, and communications,” said Lt. Col. Chmielewski, 556th TES commander. “The current standard time to regenerate a sortie is typically three hours; our average time was 20 minutes.” Departing Marine Corps Base Hawaii, the MQ-9 Reaper made history by flying to Andersen AFB, Guam for the first time in support of Exercise ACE REAPER, validating the ability to transit the MQ-9 Reaper on reduced satellite bandwidth and migrate satellites. Most notably, the 556th TES proved that the MQ-9 in its leanest and most agile logistics footprint does not require any launch and recovery equipment to conduct launch and recovery operations, according to Chmielewski. Utilizing the Ruggedized Aircraft Maintenance Test Station as an LR cockpit substitute to validate it as a backup to ATLC via satellite control, the pilot on the ground at Andersen AFB established line-of-sight link with the MQ-9, controlled it, and commanded it to land via ATLC. Like MCBH, this landing was conducted without any MQ-9 operations or runway surveys being physically conducted prior to the first landing at Guam. “The entire logistics footprint included seven personnel and a half pallet of equipment with the generator, light cart, and fuel already in place,” said Chmielewski. “Within seven hours of equipment arriving on Guam, we were able to regenerate an MQ-9 sortie. All around this represented a nearly 90 percent reduction in maintenance manpower, 95 percent reduction in maintenance equipment, and a 100 percent reduction in launch and recovery equipment.” The 556th TES ACE REAPER efforts confirmed the feasibility of the MQ-9 ACE “perch” concept which leverages the platform’s historic maintenance reliability to sustain operations forward from the standard ACE “hub” and “spoke” with the ability to conduct minor maintenance, rapid refuel, and rapid rearming. This capability will move its logistics team out from other large footprints and remain closer to the fight to maximize its combat effectiveness. “Without the enduring support from the 432nd Wing and 49th Wing in the overall exercise, this never would have been a reality,” said Chmielewski. “From maintenance to communications to operations, our team did a phenomenal job across the spectrum to innovate new tactics from existing capabilities on a near-impossible timeline to make this happen and start validating the MQ-9’s ability to be agile.” Building on the progress made in the Pacific Air Forces, the 556th TES will contribute to the development and evaluation for MQ-9 Joint Force integration across the kill chain into Valiant Shield 2022 in an effort to increase strategic and operational success in the theater. --- For more information, contact 1st Lt Lindsey Heflin, Public Affairs Advisor for the 53rd Wing at 850-598-3283 or firstname.lastname@example.org. The 53rd Wing provides tactical advantage to the warfighter at the speed of relevance. By testing new operational capabilities and evaluating fielded capabilities, the 53rd Wing is bringing the future faster while answering the warfighter’s demands for integrated, multi-domain capabilities.