This work is motivated by the need for an ad hoc sensor network to autonomously optimise its performance for given task objectives and constraints. Arguing thatcommunication is the main bottleneck for distributed computation in a sensor network we formulate two approaches for optimisation of computing rates. The first is a team problem for maximising the minimum communication throughput of sensors and the second is a game problem in which cost for each sensor is a measure of its communication time with its neighbours. We investigate adaptive algorithms using which sensors can tune to the optimal channel attempt rates in a distributed fashion. For the team problem, the adaptive scheme is a stochastic gradient algorithm derived from the augme...
With recent advances in communication and sensing technologies, distributed sensor networks (DSNs) a...
This dissertation contributes toward design, convergence analysis and improving the performance of t...
The goal of this article is to show how a simple self-synchronization mechanism, borrowed from biolo...
This work is motivated by the need for an ad hoc sensor network to autonomously optimise its perform...
The work in this paper is motivated by the idea of using randomly deployed, ad hoc wireless networks...
This work is motivated by the idea of using randomly deployed wireless networks of miniature smart s...
This paper demonstrates a decentralized method for optimization using game-theoretic multi-agent tec...
This paper demonstrates a decentralized method for optimization using game-theoretic multi-agent tec...
This dissertation deals with developing optimization algorithms which can be distributed over a netw...
The unifying theme of this thesis is the design and analysis of adaptive procedures that are aimed a...
A multi-agent system is defined as a collection of autonomous agents which are able to interact with...
We propose an approach to self-optimizing wireless sensor networks (WSNs) which are able to find, in...
We study distributed inference, learning and optimization in scenarios which involve networked entit...
Copyright © 2014 Li-Chuan Tseng et al.This is an open access article distributed under theCreative C...
Inspired by current challenges in data-intensive and energy-limited sensor networks, we formulate a ...
With recent advances in communication and sensing technologies, distributed sensor networks (DSNs) a...
This dissertation contributes toward design, convergence analysis and improving the performance of t...
The goal of this article is to show how a simple self-synchronization mechanism, borrowed from biolo...
This work is motivated by the need for an ad hoc sensor network to autonomously optimise its perform...
The work in this paper is motivated by the idea of using randomly deployed, ad hoc wireless networks...
This work is motivated by the idea of using randomly deployed wireless networks of miniature smart s...
This paper demonstrates a decentralized method for optimization using game-theoretic multi-agent tec...
This paper demonstrates a decentralized method for optimization using game-theoretic multi-agent tec...
This dissertation deals with developing optimization algorithms which can be distributed over a netw...
The unifying theme of this thesis is the design and analysis of adaptive procedures that are aimed a...
A multi-agent system is defined as a collection of autonomous agents which are able to interact with...
We propose an approach to self-optimizing wireless sensor networks (WSNs) which are able to find, in...
We study distributed inference, learning and optimization in scenarios which involve networked entit...
Copyright © 2014 Li-Chuan Tseng et al.This is an open access article distributed under theCreative C...
Inspired by current challenges in data-intensive and energy-limited sensor networks, we formulate a ...
With recent advances in communication and sensing technologies, distributed sensor networks (DSNs) a...
This dissertation contributes toward design, convergence analysis and improving the performance of t...
The goal of this article is to show how a simple self-synchronization mechanism, borrowed from biolo...