Title :
Experiments with Honeybee Foraging Inspired Load Balancing
Author :
Randles, Martin ; Lamb, David ; Taleb-Bendiab, A.
Author_Institution :
Sch. of Comput. & Math. Sci., Liverpool John Moores Univ., Liverpool, UK
Abstract :
This paper investigates and analyses the dynamics engendered by the engineering of self-organisation in a global Service Oriented Architecture. The effects are assessed via a resource allocation algorithm for load balancing, based on the observed behaviour of foraging honeybees. It is implemented at the application layer of a simulated server farm type system and its impact is investigated across this layer and the resource layer through the analyses of the digital ecosystems arising and the associated partitioning into task specific communities of server functions. The specific topological self-organisation of scale-free connectivity is shown to ensue in a remote layer from the initially artificially engineered honeybee foraging behaviour for self-organisation.
Keywords :
resource allocation; self-adjusting systems; software architecture; digital ecosystems; global service oriented architecture; honeybee foraging inspired load balancing; resource allocation algorithm; scale free connectivity; self organisation engineering; simulated server farm type system; task specific communities; Analytical models; Ecosystems; Load management; Monitoring; Partitioning algorithms; Resource management; Routing; Service oriented architecture; Topology; Web and internet services;
Conference_Titel :
Developments in eSystems Engineering (DESE), 2009 Second International Conference on
Conference_Location :
Abu Dhabi
Print_ISBN :
978-1-4244-5401-3
Electronic_ISBN :
978-1-4244-5402-0
DOI :
10.1109/DeSE.2009.19
