TITLE:
Distributed Air & Missile Defense with Spatial Grasp Technology
AUTHORS:
Peter Simon Sapaty
KEYWORDS:
Distributed Systems; Spatial Grasp Technology; Integral Mission Scenarios; Distributed Scenario Language; Parallel Networked Interpretation; Air and Missile Defense; Directed Energy Systems; Cooperative Robotics
JOURNAL NAME:
Intelligent Control and Automation,
Vol.3 No.2,
May
23,
2012
ABSTRACT: A high-level technology is revealed that can effectively convert any distributed system into a globally programmable machine capable of operating without central resources and self-recovering from indiscriminate damages. Integral mission scenarios in Distributed Scenario Language (DSL) can be injected from any point, runtime covering & grasping the whole system or its parts, setting operational infrastructures, and orienting local and global behavior in the way needed. Many operational scenarios can be simultaneously injected into this spatial machine from different points, cooperating or competing over the shared distributed knowledge as overlapping fields of solutions. Distributed DSL interpreter organization and benefits of using this technology for integrated air and missile defense are discussed along with programming examples in this and other fields.