作 者:(美)馬丁·哈恩吉 著
定 價:89
出 版 社:世界圖書出版有限公司北京分公司
出版日期:2020年07月01日
頁 數:312
裝 幀:平裝
ISBN:9787519242107
·本書是國際上將隨機幾何應用於無線網絡建模研究的領軍人物所著的權威教材。·隨機幾何這一有力數學工具能對無線網絡性能界限做出估計,為未來無線網絡架構和協議設計提供幫助。
●Preface
Notation
Part Ⅰ Point process theory
1 Introduction
1.1 What is stochastic geometry?
1.2 Point processes as spatial models for wireless networks
1.3 Asymptotic notation
1.4 Sets and measurability
Problems
2 Description of point processes
2.1 Description of one-dimensional point processes
2.2 Point process duality
2.3 Description of general point processes
2.4 Basic point processes
2.5 Distributional characterization
2.6 Properties of point processes
2.7 Point process transformations
2.8 Distances
2.9 Applications
Bibliographical notes
Problems
3 Point process models
3.1 Introduction
3.2 General finite point processes
3.3 Cox processes
3.4 Cluster processes
3.5 Hard-core processes
3.6 Gibbs processes
3.7 Shot-noise random fields
Bibliographical notes
Problems
4 Sums and products over point processes
4.1 Introduction
4.2 The mean of a sum
4.3 The probability generating functional
4.4 The Laplace functional
4.5 The moment-generating function of sums over Poisson processes
4.6 The probability generating and Laplace functionals for the Poisson point process
4.7 Summary of relationships
4.8 Functionals of other point processes
Bibliographical notes
Problems
5 Interference and outage in wireless networks
5.1 Interference characterization
5.2 Outage probability in Poisson networks
5.3 Spatial throughput in Poisson bipolar networks
5.4 Transmission capacity
5.5 Temporal correlation of the interference
5.6 Temporal correlation of outage probabilities
Bibliographical notes
Problems
6 Moment measures of point processes
6.1 Introduction
6.2 The first-order moment measure
6.3 Second moment measures
6.4 Second moment density
6.5 Second moments for stationary processes
Bibliographical notes
Problems
7 Marked point processes
7.1 Introduction and definition
7.2 Theory of marked point processes
7.3 Applications
Bibliographical notes
Problems
8 Conditioning and Palm theory
8.1 Introduction
8.2 The Palm distribution for stationary processes
8.3 The Palm distribution for general point processes
8.4 The reduced Palm distribution
8.5 Palm distribution for Poisson processes and Slivnyak's theorem
8.6 Second moments and Palm distributions for stationary processes
8.7 Palm distributions for Neyman-Scott cluster processes
8.8 Palm distribution for marked point processes
8.9 Applications
Bibliographical notes
Problems
Part Ⅱ Percolation,connectivity,and coverage
9 Introduction
9.1 Motivation
9.2 What is percolation?
10 Bond and site percolation
10.1 Random trees and branching processes
10.2 Preliminaries for bond percolation on the lattice
10.3 General behavior of the percolation probability
10.4 Basic techniques
10.5 Critical threshold for bond percolation on the square lattice
10.6 Further results in bond percolation
10.7 Site percolation
Bibliographical notes
Problems
11 Random geometric graphs and continuum percolation
11.1 Introduction
11.2 Percolation on ilbert's disk graph
11.3 Other percolation models
11.4 Applications
Bibliographical notes
Problems
12 Connectivity
12.1 Introduction
12.2 Connectivity of the random lattice
12.3 Connectivity of the disk graph
12.4 Connectivity of basic random geometric graphs
12.5 Other graphs
Bibliographical notes
Problems
13 Coverage
13.1 Introduction
13.2 Germ-grain and Boolean models
13.3 Boolean model with fixed disks
13.4 Applications
Bibliographical notes
Problems
Appendix Introduction to R
Referen
本書介紹無線網絡性能建模的重要數學工具——隨機幾何。這一有力工具能對無線網絡性能界限做出估計,為未來無線網絡架構和協議設計提供幫助。本書從一些概率論的基本知識出發,將數學理論與實際工程應用集成在一起講授,易於讀者理解。書中也會講到相關的滲流理論和隨機幾何圖論,並對R統計編程語言做簡要介紹。將數學理論、動手分析技術與實際示例和練習相結合,本書是對無線網絡性能建模和分析來說必需的空間隨機模型的全面指南。本書適合作為電子信息與通信工程專業、計算機專業與應用數學專業的高年級本科生或低年級碩士研究生的教材與教學參考書,也可供工程技術人員參考。