Ant-based load balancing in telecommunications networks
Adaptive Behavior
Ant algorithms for discrete optimization
Artificial Life
OSPF: Anatomy of an Internet Routing Protocol
OSPF: Anatomy of an Internet Routing Protocol
A distributed scheme for autonomous service composition
Proceedings of the first ACM international workshop on Multimedia service composition
Biologically inspired self-adaptive multi-path routing in overlay networks
Communications of the ACM - Self managed systems
SASHA: toward a self-healing hybrid sensor network architecture
EmNets '05 Proceedings of the 2nd IEEE workshop on Embedded Networked Sensors
STOC '08 Proceedings of the fortieth annual ACM symposium on Theory of computing
Parameterised Gradient Based Routing (PGBR) for Future Internet
AINA '09 Proceedings of the 2009 International Conference on Advanced Information Networking and Applications
Bio-inspired network-centric operation and control for sensor/actuator networks
Transactions on computational systems biology VIII
Distributed multimedia service composition with statistical QoS assurances
IEEE Transactions on Multimedia
Self-organization in communication networks: principles and design paradigms
IEEE Communications Magazine
Self-organizing network services with evolutionary adaptation
IEEE Transactions on Neural Networks
A game theoretic framework for peer-to-peer market economy
International Journal of Grid and Utility Computing
Frontiers of Computer Science in China
Bio-inspired service management framework: green data-centres case study
International Journal of Grid and Utility Computing
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There is currently much debate in defining what form the Future Internet will take [22, 23, 24]. The current Internet is struggling to meet the needs of an ever-evolving society. This is largely due to the Internet now become a thriving marketplace with services at the core. The range, number and complexity of services are set to increase with an even more dynamic service environment envisioned in the future. However, as these services grow, service composition will become an important feature of the service environment, leading to new challenges in service discovery and composition mechanisms. At the same time, dynamic service environments will also require that the underlying infrastructure networks are flexible enough to handle the changing service landscape. One area this is particularly important is in dynamic routing to deal with highly dynamic and frequent service changes. In this paper, we adopt mechanisms from biology and apply these to the problems identified, resulting in an integrated Bio-inspired service management and dynamic routing solution for Future Internet. We demonstrate how the bio-inspired mechanisms not only improve each problem individually, but through their integration also improve overall network performance. Simulation results are presented to validate the proposed solution.