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Author:   Maciej Stasiak (Poznan University of Technology) ,  Mariusz Glabowski (Poznan University of Technology) ,  Arkadiusz Wisniewski (Orange) ,  Piotr Zwierzykowski (Poznan University of Technology)
Publisher:   John Wiley & Sons Inc
Imprint:   John Wiley & Sons Inc
Dimensions:   Width: 19.60cm , Height: 2.10cm , Length: 25.20cm
Weight:   0.730kg
ISBN:  

9780470665862

ISBN 10:   0470665866
Pages:   340
Publication Date:   03 December 2010
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
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Table of Contents

List of Figures. List of Tables. Preface. Part I Standards for Mobile Networks. 1 Global System for Mobile Communications. 1.1 Introduction. 1.2 System architecture. 1.3 Time structure of the GSM system. 1.4 Logical channels. 1.5 High Speed Circuit Switched Data (HSCSD). 1.6 GPRS packet transmission. 1.7 EDGE packet transmission. 1.8 Traffic management mechanisms in cellular networks. 2 Universal Mobile Telecommunications System. 2.1 Introduction. 2.2 Architecture of the system. 2.3 Wideband access with WCDMA coding and multiplexing – essentials. 2.4 Channels in the WCDMA radio interface. 2.5 Modulation. 2.6 Signal reception techniques. 2.7 Radio resource management in the UMTS system. 2.8 High-speed packet data transmission. 2.9 Services. 3 Long-Term Evolution. 3.1 Introduction. 3.2 System architecture. 3.3 Transmission techniques in the LTE system. 3.4 Channels in the radio interface of the LTE system. 3.5 Radio resource management in LTE. Part II Teletraffic Engineering for Mobile Networks. 4 Basic Definitions and Terminology. 4.1 Introduction. 4.2 Call stream. 4.3 Service stream. 4.4 Markov processes. 4.5 The concept of traffic. 4.6 Quality of service in telecommunication systems. 5 Basic Elements of Traffic Engineering used in Mobile Networks. 5.1 Introduction. 5.2 Erlang model. 5.3 Engset model. 5.4 Comments. 6 Modeling of Systems with Single-Rate Overflow Traffic. 6.1 Introduction. 6.2 Basic information on overflow systems. 6.3 Models of alternative groups. 6.4 Equivalent groups. 6.5 Modeling of overflow traffic in systems with finite number of traffic sources. 6.6 Comments. 7 Models of Links Carrying Multi-Service Traffic. 7.1 Introduction. 7.2 Multi-dimensional Erlang distribution. 7.3 Full-availability group with multi-rate traffic. 7.4 State-dependent systems. 7.5 Systems with finite and infinite number of traffic sources. 7.6 Limited-availability group. 7.7 Full-availability group with reservation. 7.8 Full-availability group with threshold mechanism. 7.9 Full-availability group with compression mechanism. 7.10 Full-availability group with priorities. 8 Modeling of Systems with Multi-Rate Overflow Traffic. 8.1 Introduction. 8.2 Single-service model of the group with overflow traffic. 8.3 Dimensioning of alternative groups with multi-rate traffic. 8.4 Multi-service model of the group with overflow traffic. 8.5 Comments. 9 Equivalent Bandwidth. 9.1 ON/OFF Source. 9.2 Markov Modulated Poisson Process. 9.3 Interrupted Bernoulli Process. 9.4 Comments. 9.5 Self-similar traffic. 9.6 Exemplary methods for determining equivalent bandwidth. 9.7 Bandwidth discretization. 10 Models of the Nodes in the Packet Network. 10.1 Introduction. 10.2 Little's law. 10.3 Model of the M/M/1 system. 10.4 Model of the M/M/1/N-1 system. 10.5 Model of the M/M/m system. 10.6 Model of the M/M/m/N system. 10.7 Model of the M/G/1 system. 10.8 M/D/1 system. 10.9 Queueing systems with one service station and non-preemptive priorities. 10.10 Model M/G/R PS. Part III Application of Analytical Models for Mobile Networks. 11 Modeling and Dimensioning of the Radio Interface. 11.1 Modeling of resource allocations in the radio interface of mobile cellular networks. 11.2 Cellular system with hard capacity carrying single-service traffic. 11.3 Cellular system with soft capacity carrying single-service traffic. 11.4 Cellular system with hard and soft capacity carrying a mixture of multiservice traffic streams. 11.5 HSPA traffic in the radio interface of the UMTS network. 11.6 Comments. 12 Modeling and Dimensioning of the Iub interface. 12.1 Introduction. 12.2 Exemplary architecture of the Iub interface. 12.3 Modeling of the Iub interface. 12.4 Comments. 13 Application of Multi-Rate Models for Modeling UMTS Networks. 13.1 Introduction. 13.2 Models of group of cells carrying multi-rate traffic. 13.3 Models of traffic overflow. 13.4 Handover mechanisms. 13.5 Comments. Conclusion. Appendix A. Index.

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Author Information

Professor Maciej Stasiak, Poznañ University of Technology, Poland Professor Stasiak received M.S. and Ph.D. degrees in electrical engineering from the Institute of Communications Engineering, Moscow, Russia, in 1979 and 1984, respectively. In 1996 He received Dr Hab. degree from Poznan University of Technology.He is currently a head of the Chair of Communications and Computer Networks Poznan University of Technology, and the author or co-author of more than 150 scientific papers and three books. He is engaged in research and teaching in the area of performance analysis and modelling of multiservice networks and switching systems. Dr. Mariusz Glabowski, Poznañ University of Technology, Poland Mariusz Glabowski received the M. Sc. and Ph. D. degrees in telecommunication from the Poznañ University of Technology, Poland, in 1997 and 2001, respectively. Since 1997 he has been working in the Institute of Electronics and Telecommunications, Poznañ University of Technology, where he currently is an Assistant Professor. Dr. Arkadiusz Wisniewski, Orange, Poland Dr Wisniewski received the M. Sc. and Ph.D degree in telecommunication from Poznan University of Technology, Poland, in 1995 and 2009 respectively. Between 1995-98 he worked as a software designer and in 1998 he joined PTK Centertel (Orange) Polish mobile network operator where he was responsible for planning and optimization the dual band 900/1800 GSM network and UMTS FDD network. Since 2001 he has been in charge of radio planning and optimization of GSM and UMTS network in the western part of Poland. Dr. Piotr Zwierzykowski, Poznañ University of Technology, Poland Piotr Zwierzykowski is Assistant Professor at the Chair of Communications and Computer Networks at Poznañ University of Technology. He is the author or co-author of two books and over 90 papers. Dr Piotr Zwierzykowski is engaged in research and teaching in the area of performance analysis and modelling of multiservice switching systems.

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