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Congestion Control in Data Transmission Networks: Sliding Mode and Other Designs
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Katalogdatensatz500176981
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Feldname
Details
Vorliegende Sprache
eng
ISBN
978-1-4471-4146-4
Name
Ignaciuk, Przemysław
Bartoszewicz, Andrzej
Name ANZEIGE DER KETTE
Bartoszewicz, Andrzej
T I T E L
Congestion Control in Data Transmission Networks
Zusatz zum Titel
Sliding Mode and Other Designs
Verlagsort
London
Verlag
Springer
Erscheinungsjahr
2013
2013
Umfang
Online-Ressource (XVI, 382 p. 207 illus., 90 illus. in color, digital)
Reihe
Communications and Control Engineering
Notiz / Fußnoten
Description based upon print version of record
Weiterer Inhalt
Congestion Control in Data Transmission Networks; Preface; Acknowledgments; Contents; Abbreviations; List of Symbols; Chapter 1: Introduction; 1.1 Data Transfer Concepts; 1.2 Congestion; References; Chapter 2: Congestion Control in Data Transmission Networks: Historical Perspective; 2.1 Comparison Criteria; 2.2 Early Concepts of Congestion Control; 2.3 Initial Rate-Based Proposals; 2.4 Evolution of Congestion Control Techniques; 2.5 Sliding-Mode Congestion Control; References; Chapter 3: Fundamentals of Sliding-Mode Controller Design; 3.1 Variable Structure Systems; 3.2 Sliding-Mode Control. 3.3 Chattering3.4 Sliding Modes in Discrete-Time Systems; References; Chapter 4: Flow Control in Continuous-Time Systems; 4.1 Flow Control in a Single Virtual Circuit; 4.1.1 Network Model; 4.1.2 Sliding-Mode Flow Controller; 4.1.3 Properties of the Proposed Controller; 4.1.4 Simulation Results; 4.2 Flow Control in a Multisource Network; 4.2.1 Network Model; 4.2.2 Sliding-Mode Flow Controller; 4.2.3 Properties of the Proposed Controller; 4.2.4 Simulation Results; 4.3 Chapter Summary; References; Chapter 5: Flow Control in a Single-Source Discrete-Time System. 5.1 Flow Control in a Network with Constant Delay5.1.1 Network Model; 5.1.1.1 State-Space Representation; 5.1.2 SM Controller with LQ Optimal Sliding Plane; 5.1.2.1 Controller Design; 5.1.2.2 Properties of the Proposed Controller; 5.1.2.3 Simulation Results; 5.1.3 Methods for Constraining Excessive Initial Flow Rates; 5.1.3.1 Application of a Time-Varying Hyperplane; 5.1.3.2 Application of a Reaching Law; 5.1.3.3 Application of a Saturation Element; 5.2 Flow Control in a Network with Variable Delay; 5.2.1 Network Model; 5.2.1.1 State-Space Representation; 5.2.2 SM Controller with Saturation. 5.2.2.1 Proposed Control Strategy5.2.2.2 Properties of the Proposed Strategy; 5.2.2.3 Simulation Results; 5.2.3 Delay Variability Compensation; 5.2.3.1 Compensation Mechanism; 5.2.3.2 Case Studies; 5.2.3.3 Proposed Control Strategy; 5.2.3.4 Properties of the Proposed Strategy; 5.2.3.5 Simulation Results; 5.3 Chapter Summary; References; Chapter 6: Flow Control in a Multisource Discrete-Time System; 6.1 Flow Control in a Network with Constant Delay; 6.1.1 Network Model; 6.1.1.1 State-Space Representation; 6.1.2 SM Controller with LQ Suboptimal Sliding Plane; 6.1.2.1 Controller Design. 6.1.2.2 Properties of the Proposed Controller6.1.2.3 Simulation Results; 6.1.3 Methods for Constraining Excessive Initial Flow Rates; 6.1.3.1 Application of a Time-Varying Hyperplane; 6.1.3.2 Application of a Reaching Law; 6.1.3.3 Application of a Saturation Element; 6.1.3.4 Simulation Results; 6.1.4 Variable Source Number and Time-Varying Rate Allocation; 6.1.4.1 Variable Rate Allocation; 6.1.4.2 Proposed Control Strategy; 6.1.4.3 Properties of the Proposed Strategy; 6.1.4.4 Simulation Results; 6.2 Flow Control in a Network with Variable Delay; 6.2.1 Network Model. 6.2.1.1 State-Space Representation
Titelhinweis
Buchausg. u.d.T.ISBN: 978-1-447-14146-4
ISBN
ISBN 978-1-4471-4147-1
Klassifikation
TJFM
TEC004000
*93-02
94A05
93B12
629.8
TJ212-225
Kurzbeschreibung
Congestion Control in Data Transmission Networks details the modeling and control of data traffic in communication networks. It shows how various networking phenomena can be represented in a consistent mathematical framework suitable for rigorous formal analysis. The monograph differentiates between fluid-flow continuous-time traffic models, discrete-time processes with constant sampling rates, and sampled-data systems with variable discretization periods.The authors address a number of difficult real-life problems, such as:optimal control of flows with disparate, time-varying delay;the existence of source and channel nonlinearities;the balancing of quality of service and fairness requirements; andthe incorporation of variable rate allocation policies.Appropriate control mechanisms which can handle congestion and guarantee high throughput in various traffic scenarios (with different networking phenomena being considered) are proposed. Systematic design procedures using sound control-theoretic foundations are adopted. Since robustness issues are of major concern in providing efficient data-flow regulation in todays networks, sliding-mode control is selected as the principal technique to be applied in creating the control solutions. The controller derivation is given extensive analytical treatment and is supported with numerous realistic simulations. A comparison with existing solutions is also provided. The concepts applied are discussed in a number of illustrative examples, and supported by many figures, tables, and graphs walking the reader through the ideas and introducing their relevance in real networks.Academic researchers and graduate students working in computer networks and telecommunications and in control (especially time-delay systems and discrete-time optimal and sliding-mode control) will find this text a valuable assistance in ensuring smooth data-flow within communications networks.
SWB-Titel-Idn
373365039
Signatur
Springer E-Book
Bemerkungen
Elektronischer Volltext - Campuslizenz
Elektronische Adresse
$uhttp://dx.doi.org/10.1007/978-1-4471-4147-1
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