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- 000 03903cam a2200313 i 4500
- 008 150916s2015 enka b 001 0 eng
- 020 __ |a 9781848217751 : |c CNY755.55
- 040 __ |a DLC |b eng |c DLC |e rda |d DLC
- 100 1_ |a Benslama, Malek.
- 245 10 |a Connections management strategies in satellite cellular networks / |c Malek Benslama, Wassila Kiamouche, Hadj Batatia.
- 260 __ |a London : |b ISTE ; |a Hoboken, NJ : |b Wiley, |c c2015.
- 300 __ |a xxi, 202 pages : |b illustrations ; |c 24 cm.
- 336 __ |a text |b txt |2 rdacontent
- 337 __ |a unmediated |b n |2 rdamedia
- 338 __ |a volume |b nc |2 rdacarrier
- 490 0_ |a Networks and telecommunications series
- 504 __ |a Includes bibliographical references and index.
- 505 0_ |a Cover; Title Page; Copyright; Contents; Preface; Abbreviations; General Introduction; 1: Foundations of Satellite Networks; 1.1. Introduction; 1.2. Satellite orbits; 1.2.1. Characteristics of the ellipse; 1.2.2. Kepler's laws; 1.2.3. Orbital parameters for earth satellites; 1.2.4. Orbital perturbations; 1.2.5. Maintaining and surviving an orbit; 1.3. Time, time variation and coverage; 1.3.1. Geometric data; 1.3.2. Approximation of coverage; 1.3.3. Time interval between two successive intersatellite transfers; 1.3.4. Time and time variation; 1.4. Orbital paths; 1.4.1. GEO-type systems 1.4.2. Elliptical systems1.4.3. MEO-type systems; 1.4.4. LEO-type systems; 1.5. Characteristics of cellular satellite systems; 1.6. The advantages of LEO systems; 1.7. Handover in LEO satellite networks; 1.7.1. Link-layer handover; 1.7.2. Network-layer handover; 2: An Introduction to Teletraffic; 2.1. Introduction; 2.2. The history of teletraffic theory and technique; 2.2.1. Queuing theory; 2.2.2. Teletraffic theory; 2.3. Basic concepts; 2.3.1. The birth-death process; 2.3.2. Poisson process; 2.4. Erlang-B and Erlang-C models; 2.4.1. Blocking probability and the Erlang-B formula 2.4.2. Queuing probability and the Erlang-C formula3: Channel Allocation Strategies and the Mobility Model; 3.1. Introduction; 3.2. Channel allocation techniques; 3.2.1. Fixed channel allocation techniques; 3.2.2. Dynamic channel allocation techniques; 3.3. Spotbeam handover and priority strategies; 3.3.1. Spotbeam handover; 3.3.2. Priority strategies for handover requests; 3.3.2.1. Concepts of guaranteed handover; 3.3.2.2. Concepts of guaranteed priority to handover; 3.4. Mobility model; 3.5. Analysis of the mobility model; 4: Evaluation Parameters Method; 4.1. Introduction 4.2. The advantages of the LEO MSS mobility model4.3. Evaluation parameters method; 4.3.1. Position of the MU in the cell; 4.3.2. The moment the next handover request initializes; 4.3.3. Maximum queuing time; 4.4. Pseudo-last useful instant queuing strategy; 4.4.1. Putting handover requests in a queue; 4.4.2. Handover request management; 4.4.3. LUI queuing strategy; 4.4.4. Pseudo-LUI queuing strategy; 4.5. Guard channel strategy: dynamic channel reservation-like; 4.5.1. Dynamic channel reservation technique [DEL 95, KIA 11]; 4.5.2. Dynamic channel reservation DCR-like technique 5: Analytical Study5.1. Introduction; 5.2. An analysis of FCA-QH with different queuing strategies; 5.3. Analytical study of FCR and FCR-like; 5.3.1. An analysis of FCR; 5.3.2. An analysis of FCR-like; 6: The Rescuing System; 6.1. Introduction; 6.2. Fuzzy logic; 6.2.1. Definition of fuzzy subsets; 6.2.2. Decisions in the fuzzy environment; 6.3. The problem; 6.4. Rescuing system [DEL 99]; 7: Results and Simulation; 7.1. Introduction; 7.2. The (folded) simulated network; 7.3. Simulation results
- 650 _0 |a Artificial satellites in telecommunication.
- 650 _0 |a Telecommunication systems.
- 650 _7 |a TECHNOLOGY & ENGINEERING / Telecommunications.