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A geography-aware service overlay network for managing moving objects
Author(s) -
Theodoros Chondrogiannis,
Alex Delis
Publication year - 2012
Publication title -
kops (university of konstanz)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.1145/2258056.2258063
Subject(s) - computer science , roaming , traverse , service (business) , triangulation , overlay , location based service , context (archaeology) , computer network , distributed computing , overlay network , object (grammar) , spatial contextual awareness , data mining , the internet , artificial intelligence , world wide web , geography , economy , cartography , geodesy , archaeology , economics , programming language
As the proliferation of mobile devices and positioning systems continues unabated, the need to provide more robust location-based services becomes more pressing. In this context, we examine the problem of efficiently handling queries over moving objects and propose a location-aware overlay network that helps monitoring such objects while traversing contained geographic extends. We use a triangulation structure to divide a geographic area using fixed service nodes as anchors based on their geographic position. Triangulation inherently contains each moving object within an area designated by three service nodes. We introduce a method for monitoring moving objects and we present an algorithm for processing nearest-neighbor queries while restricting the amount of resources and, subsequently, the volume of transmitted messages. Through simulation, we evaluate the suggested approach and show that our nearest-neighbor query processing method provides always accurate results while it uses invariantly a constant number of service nodes. We finally show that the average physical distance between service and roaming nodes remains limited; this yields a significant number of physical connections that avoid conventional Internet routing altogether.

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