NDLI: Adaptive Peer-toPeer Agent Sensor Networks

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Adaptive Peer-toPeer Agent Sensor Networks

Content Provider	CiteSeerX
Author	Sheu, Ray-Yuan Czajkowski, Michael Hofmann, Martin
Description	We present an agent-based, adaptive peer-to-peer, hybrid architectural approach for sensor networks to address some of the challenges and needs presented in net-centric, field-deployed, or soldier-walk-and-drop ad-hoc sensor networks. The proposed Adaptive Peer-to-Peer Agent Architecture (APPA) combines the benefits of adaptive peer-to-peer, agent-based, and serviceoriented architectures to address the survivability, robustness, performance, flexibility, scalability, and support of federated services across sensor groups in sensor networks. The APPA enables dynamic self-configuration of independent, but cooperating agents. These agents work as service proxies for sensors to proactively use each others ’ agent context information to cooperate and coordinate sensors for task allocations and task or agent migration using its mobile and agent architecture. The intended goal is to meet some of the unique challenges as anticipated in a dynamic, small-team echelon in battlefield. The purpose is to provide context-driven situational awareness to help command and control commanders in decision-making. The APPA is built on Lockheed Martin Advanced Technology Laboratories ’ previously proven mobile agent technology and extended with peer-to-peer capability, service-oriented architecture, and recent advances in market-based team formation
File Format	PDF
Language	English
Publisher Institution	May 2007, Lockeed Martin Advantced Technology Laboratories
Access Restriction	Open
Subject Keyword	Adaptive Peer-to-peer Agent Migration Adaptive Peer-topeer Agent Sensor Network Lockheed Martin Advanced Technology Laboratory Mobile Agent Technology Peer-to-peer Capability Federated Service Service-oriented Architecture Adaptive Peer-to-peer Agent Architecture Task Allocation Sensor Group Small-team Echelon Hybrid Architectural Approach Recent Advance Intended Goal Agent Architecture Market-based Team Formation Soldier-walk-and-drop Ad-hoc Sensor Network Context Information Sensor Network Service Proxy Context-driven Situational Awareness Dynamic Self-configuration Unique Challenge
Content Type	Text
Resource Type	Article

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