Maria Chli scite author profile

Maria Chli

5Publications

108Citation Statements Received

90Citation Statements Given

How they've been cited

104

108

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Affiliations

Aston University, Imperial College London

Publications

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Decentralized Supply Chain Formation Using Max‐sum Loopy Belief Propagation

Winsper

Chli

2012

Computational Intelligence

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Supply chain formation is the process by which a set of producers within a network determine the subset of these producers able to form a chain to supply goods to one or more consumers at the lowest cost. This problem has been tackled in a number of ways, including auctions, negotiations, and argumentation-based approaches. In this paper we show how this problem can be cast as an optimization of a pairwise cost function. Optimizing this class of energy functions is NP-hard (Boykov et al., 2001) but efficient approximations to the global minimum can be obtained using loopy belief propagation (LBP). Here we detail a max-sum LBP-based approach to the supply chain formation problem, involving decentralized message-passing between supply chain participants. Our approach is evaluated against a well-known decentralized double-auction method and an optimal centralized technique, showing several improvements on the auction method: it obtains better solutions for most network instances which allow for competitive equilibrium † while also optimally solving problems where no competitive equilibrium exists, for which the double-auction method frequently produces inefficient solutions.

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Stability of multi-agent systems

Chli

Wilde

Goossenaerts

et al.

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Deep Reinforcement Learning for Autonomous Traffic Light Control

Garg

Chli

Vogiatzis

2018

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Using the Max-Sum Algorithm for Supply Chain Emergence in Dynamic Multiunit Environments

Chli

Winsper

2015

IEEE Trans. Syst. Man Cybern, Syst.

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Supply chain formation (SCF) is the process of determining the set of participants and exchange relationships within a network with the goal of setting up a supply chain that meets some predefined social objective. Many proposed solutions for the SCF problem rely on centralized computation, which presents a single point of failure and can also lead to problems with scalability. Decentralized techniques that aid supply chain emergence offer a more robust and scalable approach by allowing participants to deliberate between themselves about the structure of the optimal supply chain. Current decentralized supply chain emergence mechanisms are only able to deal with simplistic scenarios in which goods are produced and traded in single units only and without taking into account production capacities or input-output ratios other than 1:1. In this paper, we demonstrate the performance of a graphical inference technique, max-sum loopy belief propagation (LBP), in a complex multiunit unit supply chain emergence scenario which models additional constraints such as production capacities and input-to-output ratios. We also provide results demonstrating the performance of LBP in dynamic environments, where the properties and composition of participants are altered as the algorithm is running. Our results suggest that max-sum LBP produces consistently strong solutions on a variety of network structures in a multiunit problem scenario, and that performance tends not to be affected by on-the-fly changes to the properties or composition of participants.Index Terms-Max-sum algorithm, mechanism design, supply chain formation (SCF).

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Internet search: Subdivision-based interactive query expansion and the soft semantic web

Chli

Wilde

2006

Applied Soft Computing

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Maria Chli

Decentralized Supply Chain Formation Using Max‐sum Loopy Belief Propagation

Stability of multi-agent systems

Deep Reinforcement Learning for Autonomous Traffic Light Control

Using the Max-Sum Algorithm for Supply Chain Emergence in Dynamic Multiunit Environments

Internet search: Subdivision-based interactive query expansion and the soft semantic web

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