Title :
Engineering ultimate self-protection in autonomic agents for space exploration missions
Author :
Sterritt, Roy ; Hinchey, Mike
Author_Institution :
Sch. of Comput. & Math., Ulster Univ., Northern Ireland, UK
Abstract :
NASA´s Exploration Initiative (EI) will push space exploration missions to the limit. Future missions will be required to be self-managing as well as self-directed, in order to meet the challenges of human and robotic space exploration. We discuss security and self-protection in autonomic agent based-systems, and propose the ultimate self-protection mechanism for such systems - self-destruction. Like other metaphors in autonomic computing, this is inspired by biological systems, and is the analog of biological apoptosis. Finally, we discuss the role it might play in future NASA space exploration missions.
Keywords :
aerospace computing; mobile agents; planetary rovers; NASA Exploration Initiative; NASA space exploration missions; autonomic agent based-system self-protection; autonomic computing; biological apoptosis; biological systems; human space exploration; pulse monitoring; robotic space exploration; self-destruction; Aerospace engineering; Biology computing; Humans; Mars; Monitoring; NASA; Orbital robotics; Space exploration; Space missions; Space vehicles; Apoptosis; Autonomic Agents; Autonomic Computing; Exploration; Pulse; Self-Destruction; Self-Protection;
Conference_Titel :
Engineering of Computer-Based Systems, 2005. ECBS '05. 12th IEEE International Conference and Workshops on the
Print_ISBN :
0-7695-2308-0
DOI :
10.1109/ECBS.2005.36
