Title :
Modeling signal latency effects using ARENA™
Author :
Dougherty, Shane ; Hill, Raymond R. ; Moore, James T.
Author_Institution :
Det 1 28 TS/F-22, Nellis AFB, NV, USA
Abstract :
Recent military operations have showcased the abilities of unmanned aerial vehicles (UAVs), particularly in their ability to effectively perform those tasks too dangerous for manned aircraft. We examine non-autonomous operations of an UAV in those instances where the vehicle is used for laser target designation in support of precision guided munitions with non-line-of-sight command and control of the UAV. Non-line of sight UAV control requires a satellite communications link which involves a level of signal delay, or signal latency. This latency may impact the accuracy of the laser designation and thus the accuracy of the guided weapon. A simulation model is defined, built, and used to address the signal latency impacts of our defined UAV targeting scenario.
Keywords :
aircraft control; discrete event simulation; military computing; remotely operated vehicles; telerobotics; ARENA; laser designation; laser target designation; military operations; nonautonomous operations; nonline-of-sight command and control; precision guided munitions; satellite communications link; signal delay; signal latency; simulation model; unmanned aerial vehicles; Automatic control; Command and control systems; Communication system control; Delay; Laser modes; Military aircraft; Optical design; Satellite communication; Unmanned aerial vehicles; Weapons;
Conference_Titel :
Simulation Conference, 2002. Proceedings of the Winter
Print_ISBN :
0-7803-7614-5
DOI :
10.1109/WSC.2002.1172975
