| | MAY 20199CIOReviewvehicles and dismounted personnel, or stationary sensor feeds. Virtual components can include participants operating simulated traditional or unmanned aircraft, controlling computer generated sensor feeds, or interfacing with other simulated assets. Constructive entities are computer-generated components in the environment that add realism and value but are not under the direct control of an individual in most cases. When combined in a simulation environment and enhanced by integrated terrain, imagery, 3D building and vehicle models, and other augmentations, the results can be impressive.One example implementation for LVC capabilities includes the development and testing of Beyond-Visual-Line-Of-Sight (BVLOS) UAS flights in the NAS. In these examples, live assets have included fixed-wing and Vertical-Takeoff-and-Landing (VTOL) UAS operating within sight of their operators, traditional aircraft flying as surrogate BVLOS UAS or non-participating manned traffic integrated with virtual UAS flown in simulated BVLOS operations and constructive non-participating traffic. Once developed, this type of testing environment permitted the rapid and safe exploration of potential ConOps and safety risk mitigation processes within the existing regulatory structure. Waivers may be leveraged when issued but they are not required to accomplish what would otherwise be complex or potentially dangerous tasks. As processes and approaches are refined, the testing accomplished can support applications for waiver or even inform future regulatory development because it has been, at least virtually, operationalized. Other good applications for LVC include first responder training, which is often difficult or cost prohibitive to conduct with distributed assets and limited training budgets. Exercises employing LVC for UAS related training have already included disaster response and damage assessments, active shooter, and missing persons scenarios integrating participants in multiple states and countries in realistic and immersive training that would otherwise not be logistically or financially possible. The range of applications and use for LVC, especially related to UAS operationalization and safe deployments in potentially complex environments, is truly impressive. Those in government, academia, and industry should seek to better understand the benefits of LVC as a tool for ConOps development, application advancement, and operational tracking and support. Real cost savings, increased safety, and faster speed to market await those willing to embrace LVC systematically and with an openness to partnerships. The range of applications and use for LVC, especially related to UAS operationalization and safe deployments in potentially complex environments, is truly impressive
< Page 8 | Page 10 >