Drone Aviation Corp. (“DAC”), a wholly owned subsidiary of Drone Aviation Holding Corp., a developer of specialized lighter-than-air aerostats and tethered drones, has announced that aerostat systems provided to the U.S. Army Space and Missile Defense Command (“SMDC”)/Army Forces Strategic Command have successfully completed operations in the U.S. Army’s Network Integration Experiment (“NIE”) 14.2 at Fort Bliss, TX and White Sands Missile Range, NM. The Army requested that the two Winch Aerostat Small Platforms (“WASP”) return to NIE 14.2 as a carryover System following their successful evaluation at NIE 14.1 as a System Under Evaluation. The Army’s NIEs evaluate and integrate current and prospective systems thereby driving changing requirements, procurement, and field recommendations.
The Army’s Brigade Modernization Command requested that the WASPs return to NIE 14.2 and serve as a robust platform to extend their aerial network by flying a Harris PRC-117G radio and antenna mounted to a DAC manufactured tactical aerostat tethered to a militarized WASP launcher system. Multiple waveforms were supported and extended the communications ranges 8-10 times greater than achieved with Army issue OE-254 (30′) retransmit antennas. While stationed at NIE 14.2, the WASP systems were operated solely by junior soldiers who received four days of training prior to the start of the experiment.
The NIE 14.2 exercises are intended to evaluate joint force network capabilities; improve unified land operations with communications nodes based on aircraft and unmanned aerial vehicles; integrate networking technologies into the armored brigade combat team; develop ways to deliver, collect and process integrated, multi-source intelligence to front-line warfighters; and make field command posts more mobile and efficient. The NIE 14.2 exercises also involved beyond line of sight communications; expeditionary signal brigade tropospheric scatter communications; network intrusion prevention; cellular communications; electromagnetic spectrum operation; condition based maintenance; and operational energy solutions.
The WASP is a mobile, tactical, turn-key aerostat system capable of carrying a variety of payloads in support of military operations in the field, giving troops a tactical edge by allowing them to communicate over greater distances. The WASP leverages aerostat technology to elevate network payloads to an advantaged height to enable persistent network connectivity while reducing risk to troops conducting missions. The self contained WASP systems are mounted to a compact trailer for use with various military or commercial vehicles. The WASP systems are engineered to provide significant benefits, including reduced acquisition, maintenance and overall operation costs, smaller footprint necessary for infrastructure and operations, reduced operators required to manage the aerostat, decreased time for inflation/deflation, faster launch and recovery, and a simplified process.