Telecommunications Network Planning

Telecommunications - central to our daily lives - continues to change dramatically. These changes are the result of technological advances, deregulation, the proliferation of broadband service offers, and the spectacular popularity of the Internet and wireless services. In such adynamic technological and economic environment, competition is increasing among service providers and among equipment manufacturers. Consequently, optimization of the planning process is becoming essential. Although telecommunications network planning has been tackled by the Operations Research community for some time, many fundamental problems remain challenging. Through its fourteen chapters, this book covers some new and some still challenging older problems which arise in the planning of telecommunication networks.
Telecommunications Network Planning will benefit both telecommunications practitioners looking for efficient methods to solve their problems and operations researchers interested in telecommunications. The book examines network design and dimensioning problems; it explores Operation Research issues related to a new standard Asynchronous Transfer Mode (ATM); it overviews problems that arise when designing survivable SDH/SONET Networks; it considers some broadband network problems; and it concludes with three chapters on wireless and mobile networks. Leading area researchers have contributed their recent research on the telecommunications and network topics treated in the volume.

Résumé
Telecommunications Network Planning will benefit both telecommunications practitioners looking for efficient methods to solve their problems and operations researchers interested in telecommunications.

Contenu
1 Introduction.- 1.1 Introduction.- 1.2 Survey.- 1.3 Relaxations for the Fixed-Charge Problem.- 1.4 Conclusion.- References.- 2 Using Hop-indexed Models for Contrained Spanning and Steiner Tree Models.- 2.1 Introduction.- 2.2 A Hop-Indexed Formulation for the Steiner Tree Problem.- 2.3 A Hop Dependent Multicommodity Flow Formulation for the Spanning/Steiner Trees with Hop Constraints.- 2.4 A Hop-Indexed Flow Based Model for Capacitated Spanning Trees.- 2.5 Conclusions.- References.- 3 Hierarchical Two Level Location Problems.- 3.1 Introduction.- 3.2 Formulations for the Uncapacitated Problem.- 3.3 Solution Methods.- 3.4 Numerical Results.- 3.5 Formulation for the Capacitated Problem.- 3.6 Solution Methods.- 3.7 Numerical Results.- 3.8 Conclusion and Perspectives.- References.- 4 Multi-hour Dimensioning in Non-hierarchical Telecommunications Networks.- 4.1 Introduction.- 4.2 Literature Review.- 4.3 The Network LP Model.- 4.4 Applying the Primat-Dual Algorithm to Dimensioning.- 4.5 Solution of the Restricted Primal.- 4.6 Numerical Results.- 4.7 Conclusions.- References.- 5 Issues in ATM Network Planning: An Operations Research Perspective.- 5.1 Introduction.- 5.2 Why ATM?.- 5.3 Main Features of ATM.- 5.4 Design Issues.- 5.5 Conclusions.- References.- 6 The Common Structure of Packet - and Circuit-Switched Network Synthesis.- 6.1 Introduction.- 6.2 Single-Service Packet-Switched Networks.- 6.3 Single-Service Circuit-Switched Networks.- 6.4 Multi-Service Packet-Switched Networks.- 6.5 Multi-Service Circuit-Switched Networks.- 6.6 Conclusion.- References.- 7 Loss Models for Broadband Networks with Non-Linear Constraint Fuctions.- 7.1 Introduction.- 7.2 Separable Multiplexing for a Single Link.- 7.3 Separable Multiplexing in Networks.- 7.4 Performance Evaluation.- 7.5 Performance Comparisons.- 7.6 Numerical Study.- References.- 8 Reliability Issues In Telecommunications Network Planning.- 8.1 Telecommunications Networks.- 8.2 Reliability and Performability.- 8.3 Applications to Network Design.- 8.4 Future Prospects.- References.- 9 Design and Dimensioning Of Survivable Sdh/Sonet Networks.- 9.1 Introduction.- 9.2 SDH/SONET Networks.- 9.3 Network Survivabiiity.- 9.4 Reserve Network Dimensioning.- 9.5 Self-Healing Ring Network Design.- 9.6 Conclusion and Perspectives.- References.- 10 Comparative Methods and Issuses in Design of Mesh-restorable STM and ATM Networks.- 10.1 Introduction.- 10.2 Prior Work.- 10.3 Capacity Design of STM Path Restorable Networks.- 10.4 Proposed Design Method for ATM VP-Based Path Restorable Networks.- 10.5 Summary.- References.- 11 Fault Tolerant Virtual Path Layout: Optimization Models.- 11.1 Introduction.- 11.2 Broadband Multiclass Networks.- 11.3 Modeling Issues.- 11.4 Integer Programming Formulations.- 11.5 Solution Methods.- 11.6 Conclusions.- References.- 12 Survey of Research Issues In Leo/Meo Based Global Mobile Communication Systems.- 12.1 Introduction.- 12.2 A Research Agenda.- 12.3 GEO/LEO/MEO When Should Each System Be Used?.- 12.4 Discussion.- References.- 13 Mathematical Models and Exact Methods for Channel As-Signment in Cellular Networks.- 13.1 Introduction.- 13.2 Statement of the Channel Assignment Problem.- 13.3 Literature Survey.- 13.4 A First Integer Programming Formulation.- 13.5 A Column Generation Integer Programming Formulation.- 13.6 Computational Experiments.- 13.7 Concluding Remarks.- References.- 14 Tile Covers, Closed Tours and The Radio Spectrum.- 14.1 Introduction.- 14.2 Description of the Problem.- 14.3 Closed Tours.- 14.4 Tile Covers.- 14.5 Conclusions.- References.