AeroVironment, a leader in unmanned aircraft systems (UAS) and tactical missile systems (TMS) announced a new strategic relationship with General Dynamics Land Systems (GD), the leader in ground combat vehicles, to produce highly integrated and effective tactical UAS and TMS for armored ground combat vehicles. By integrating the leading small tactical UAS and loitering missile systems with the leading armored combat vehicles, GD and AeroVironment team will deliver a new level of battlefield lethality, survivability and combat effectiveness to protect and enable the warfighter. This enhanced integration will ensure precise, mobile lethality with increased automation, decreased workload, and fewer operators required for small drone and loitering missile systems deployment.
The purpose of this partnership is to deliver a decisive advantage to ground combatants, to see first and strike first, across the tactical landscape. GD and AeroVironment are confident this integrated capability, expanding the warfighter’s situational awareness, survivability and over-the-next-obstacle lethality, will define the market for years to come. The benefits will be had in all environments, including urban, forest, desert or other terrain. AeroVironment’s SwitchbladeÂ® loitering missile and Shrike 2 vertical takeoff-landing (VTOL) forward flight system that takes off and lands on the Stryker A1 30mm prototype vehicle. The intent of the joint collaborative efforts is to develop a solution that will include the integration of AeroVironment’s Switchblade and Shrike 2 systems from prototype entrants to the USMC’s Armored Reconnaissance Vehicle (ARV) program. Both efforts plan to tightly integrate AeroVironment’s systems into the backbone electronic architecture of the GD vehicles.
AeroVironment and GD’s collaborative projects will address the upcoming U.S. Army Next Generation Combat Vehicle (NGCV) and U.S. Marine Corps (USMC) Armored Reconnaissance Vehicle (ARV) programs. The NGCV program will dramatically benefit from automated drone scout and precision loitering missile engagement technology tightly coupled into the GD armored vehicle electronic architecture to rapidly geolocate and, if necessary, finish targets. The ARV project has evolved well beyond a straightforward replacement for the Light Armored Vehicle (LAV) into a networked family of manned vehicles, ground robots, and drones, collectively capable of not only reconnaissance but also electronic warfare and long-range precision strikes. The vehicle is designed to launch a drone, scout deep, and then deploy precision fire and electronic warfare. It also will have an open architecture design that is upgraded with new technologies as they become available.