Title :
An Autonomic System for Close Air Support
Author :
Simpson, Bob ; Rouff, Christopher ; Roberts, Joe ; Edwards, Gary
Author_Institution :
Appl. Syst. Intell., Inc., Alpharetta, GA
Abstract :
Close Air Support (CAS) planning in the past has been primarily a mission preplanning activity. Due to the types of military operations being conducted, the need for CAS is becoming harder to predict than in past operations. For immediate CAS requests, as many as 15 steps need to be followed, many of them using voice communication via radios in noisy environments. This often results in delays due to repeating of requests and misunderstandings. The proposed autonomic close air associate would allow for faster and more effective CAS operations with less fratricide and collateral damage. This unobtrusive associate is based on an autonomic aiding agent that provides links to other war fighters, information systems, and unmanned sensors and systems and provides a shared situational awareness between all parties involved in CAS.
Keywords :
intelligent control; military aircraft; multi-agent systems; autonomic system; close air support planning; information system; noisy environment; situational awareness; unmanned sensor; voice communication; Communication system control; Conferences; Content addressable storage; Fires; Force sensors; Intelligent sensors; Sensor systems; USA Councils; Uncertainty; Weapons; autonomic; close air support; goals; intelligent associate;
Conference_Titel :
Engineering of Autonomic and Autonomous Systems, 2009. EASe 2009. Sixth IEEE Conference and Workshops on
Conference_Location :
San Francisco, CA
Print_ISBN :
978-0-7695-3623-1
DOI :
10.1109/EASe.2009.10
