Performance Models and Risk Management in Communications Systems

This volume covers recent developments in the design, operation, and management of telecommunication and computer network systems in performance engineering and addresses issues of uncertainty, robustness, and risk. Uncertainty regarding loading and system parameters leads to challenging optimization and robustness issues. Stochastic modeling combined with optimization theory ensures the optimum end-to-end performance of telecommunication or computer network systems. In view of the diverse design options possible, supporting models have many adjustable parameters and choosing the best set for a particular performance objective is delicate and time-consuming. An optimization based approach determines the optimal possible allocation for these parameters. Researchers and graduate students working at the interface of telecommunications and operations research will benefit from this book. Due to the practical approach, this book will also serve as a reference tool for scientists and engineers in telecommunication and computer networks who depend upon optimization.

Covers recent developments in the design, operation, and management of mobile telecommunication and computer systems Presents the topics with a practical approach Covers uncertainty modeling, optimization and robustness issues, stochastic modeling and optimization theory, optimal system design methodologies, and performance modeling with decision making Includes supplementary material: sn.pub/extras

Inhalt
Preface.- Foreword.- Distributed and Robust Rate Control for Communication Networks Tansu Alpcan.- Of Threats and Costs: A Game-Theoretic Approach to Security Risk Management Patrick Maill´E, Peter Reichl, Bruno Tuffin.- Computationally Supported Quantitative Risk Management for Information Systems Denis Trek.- Cardinality Constrained Critical Node Detection Problem Ashwin Arulselvan, Clayton W. Commander, Oleg Shylo, Panos M. Pardalos.- Reliability Based Routing Algorithms for Energy Aware Communication in Wireless Sensor Networks Janos Levendovszky, Andras Olah, Gergely Treplan, Long Tran-Thanh.- Opportunistic Scheduling with Deadline Constraints in Wireless Networks David I Shuman, Mingyan Liu.- A Hybrid Polyhedral Uncertainty Model for The Robust Network Loading Problem Aysegul Altin, Hande Yaman, Mustafa C. Pinar.- Analytical Modelling Of IEEE 802.11e Enhanced Distributed Channel Access Protocol In Wireless Lans Jia Hu, Geyong Min, Mike E. Woodward, Weijia Jia.- Dynamic Overlay Single-Domain Contracting For End-To-End Contract Switching Murat Yuksel, Aparna Gupta, Koushik Kar.- Modelling a Grid Market Economy Fernando Martnez Ortuno, Uli Harder, Peter Harrison**