We propose a self-organization scheme for cost-effective and load-balanced routing in multi-hop networks. To avoid overloading nodes that provide favourable routing conditions, we assign each node with a cost function that penalizes high loads. Thus, finding routes to sink nodes is formulated as an optimization problem in which the global objective function strikes a balance between route costs and node loads. We apply belief propagation (its min-sum version) to solve the network optimization problem and obtain a distributed algorithm whereby the nodes collectively discover globally optimal routes by performing low-complexity computations and exchanging messages with their neighbours. We prove that the proposed method converges to the globa...
This paper proposes a new self-organization and topology dynamic adjustment strategy. Network nodes ...
A peer-to-peer (P2P) system is a networked system characterized by the lack of centralized control, ...
In this paper we address the problem of local balancing in multi-hop wireless networks. We introduce...
We propose a self-organization scheme for cost-effective and load-balanced routing in multi-hop netw...
ABSTRACT: We consider a single source that imparts to a single goal helped by a few transfers throug...
Abstract—This paper introduces GODDeS: a fully distributed self-organizing decision-theoretic routin...
Many sensor networks suffer from the energy hole problem which is a special case of load imbalance c...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Traditional wireless networks form the wireless counterpart of wired networks, in which providing in...
International audienceA large use of applications of Wireless Sensor Networks (WSNs) pushes research...
This paper investigates the problem of finding optimal paths in single-source single-destination acc...
A wireless network is any type of computer network that uses wireless communication links for connec...
A wireless ad hoc network is a dynamic communication network formed by decentralized wireless device...
Large networks require scalable routing. Traditionally, protocol overhead is reduced by ...
This paper presents and experimentally evaluates a new algorithm for efficient one-hop link-state ro...
This paper proposes a new self-organization and topology dynamic adjustment strategy. Network nodes ...
A peer-to-peer (P2P) system is a networked system characterized by the lack of centralized control, ...
In this paper we address the problem of local balancing in multi-hop wireless networks. We introduce...
We propose a self-organization scheme for cost-effective and load-balanced routing in multi-hop netw...
ABSTRACT: We consider a single source that imparts to a single goal helped by a few transfers throug...
Abstract—This paper introduces GODDeS: a fully distributed self-organizing decision-theoretic routin...
Many sensor networks suffer from the energy hole problem which is a special case of load imbalance c...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Traditional wireless networks form the wireless counterpart of wired networks, in which providing in...
International audienceA large use of applications of Wireless Sensor Networks (WSNs) pushes research...
This paper investigates the problem of finding optimal paths in single-source single-destination acc...
A wireless network is any type of computer network that uses wireless communication links for connec...
A wireless ad hoc network is a dynamic communication network formed by decentralized wireless device...
Large networks require scalable routing. Traditionally, protocol overhead is reduced by ...
This paper presents and experimentally evaluates a new algorithm for efficient one-hop link-state ro...
This paper proposes a new self-organization and topology dynamic adjustment strategy. Network nodes ...
A peer-to-peer (P2P) system is a networked system characterized by the lack of centralized control, ...
In this paper we address the problem of local balancing in multi-hop wireless networks. We introduce...