Article ID Journal Published Year Pages File Type
425943 Future Generation Computer Systems 2013 12 Pages PDF
Abstract

Highly dynamic overlay networks have a native ability to adapt their topology through rewiring to resource location and migration. However, this characteristic is not fully exploited in distributed resource discovery algorithms of nomadic resources. Recent and emergent computing paradigms (e.g. agile, nomadic, cloud, peer-to-peer computing) increasingly assume highly intermittent and nomadic resources shared over large-scale overlays. This work presents a discovery mechanism, Stalkers (and its three versions—Floodstalkers, Firestalkers, kk-Stalkers), that is able to cooperatively extract implicit knowledge embedded within the network topology and quickly adapt to any changes of resource locations. Stalkers aims at tracing resource migrations by only following links created by recent requestors. This characteristic allows search paths to bypass highly congested nodes, use collective knowledge to locate resources, and quickly respond to dynamic environments. Numerous experiments have shown higher success rate and stable performance compared to other related blind search mechanisms. More specifically, in fast changing topologies, the Firestalkers version exhibits good success rate, and low latency and cost in messages compared to other mechanisms.

► Stalkers is an adaptive topology-aware discovery mechanism for mobile resources. ► Overlay links always embed useful information about the creating node and time. ► Rewiring to resource providers helps in tracing resource migration. ► Recently created links triggered by searches are hints about resource location. ► Stalkers can efficiently trigger topology adaptation to trace resource migrations.

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Physical Sciences and Engineering Computer Science Computational Theory and Mathematics
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