Smart Antennas for Wireless Communications
Frank Gross
- 出版商: McGraw-Hill Education
- 出版日期: 2005-09-01
- 售價: $3,910
- 貴賓價: 9.5 折 $3,715
- 語言: 英文
- 頁數: 288
- 裝訂: Hardcover
- ISBN: 007144789X
- ISBN-13: 9780071447898
-
相關分類:
天線相關 Antennas、Wireless-networks
海外代購書籍(需單獨結帳)
買這商品的人也買了...
-
$580$458 -
$980$774 -
$520$510 -
$1,225Digital Systems Engineering (Hardcover)
-
$800$720 -
$780$616 -
$650$553 -
$650$507 -
$450$405 -
$820$697 -
$680$646 -
$550$495 -
$880$581 -
$750$585 -
$580$493 -
$390$332 -
$860$731 -
$580$458 -
$590$460 -
$890$757 -
$450$405 -
$780$702 -
$680$578 -
$580$452 -
$650$507
相關主題
商品描述
Description:
Smart antennas boost the power of a wireless network, saving energy and money and greatly increasing the range of wireless broadband. Smart Antennas is a rigorous textbook on smart antenna design and deployment.
Table of Contents:
1. Introduction
1.1. What is a Smart Antenna?
1.2. Why Are Smart Antennas Emerging Now?
1.3. What are the Benefits of Smart Antennas?
1.4. Smart Antennas Involve Many Disciplines
1.5. Overview of the Book
References
2. Fundamentals of Electromagnetic Fields
2.1. Maxwell’s Equations
2.2. The Helmholtz Wave Equation
2.3. Propagation in Rectangular Coordinates
2.4. Propagation in Spherical Coordinates
2.5. Electric Field Boundary Conditions
2.6. Magnetic Field Boundary Conditions
2.7. Planewave Reflection and Transmission Coefficients
2.7.1. Normal Incidence
2.7.2. Oblique Incidence
2.8. Propagation Over Flat Earth
2.9. Knife-Edge Diffraction
References
Problems
3. Antenna Fundamentals
3.1. Antenna Field Regions
3.2. Power Density
3.3. Radiation Intensity
3.4. Basic Antenna Nomenclature
3.4.1. Antenna Pattern
3.4.2. Antenna Boresight
3.4.3. Principal Plane Patterns
3.4.4. Beamwidth
3.4.5. Directivity
3.4.6. Beam Solid Angle
3.4.7. Gain
3.4.8. Effective Aperture
3.5. Friis Transmission Formula
3.6. Magnetic Vector Potential and the Far Field
3.7. Linear Antennas
3.7.1. Infinitesimal Dipole
3.7.2. Finite Length Dipole
3.8. Loop Antennas
3.8.1. Loop of Constant Phasor Current
References
Problems
4. Array Fundamentals
4.1. Linear Arrays
4.1.2. Two Element Array
4.1.3. Uniform N-Element Linear Array
4.1.2.1 Broadside Linear Array
4.1.2.2 End-Fire Linear Array
4.1.2.3 Beamsteered Linear Array
4.1.4. Uniform N-Element Linear Array Directivity
4.1.4.1. Broadside Array Maximum Directivity
4.1.4.2. End-Fire Array Maximum Directivity
4.1.4.3. Beamsteered Array Maximum Directivity
4.2. Array Weighting
4.2.2. Beamsteered and Weighted Arrays
4.3. Circular Arrays
4.3.2. Beamsteered Circular Arrays
4.4. Rectangular Planar Arrays
4.5. Fixed Beam Arrays
4.5.2. Butler Matrices
4.6. Fixed Sidelobe Canceling
4.7. Retrodirective Arrays
References
Problems
5. Principles of Random Variables and Processes
5.1. Definition of Random variables
5.2. Probability Density Functions
5.3. Expectation and Moments
5.4. Common probability density functions
5.5. Stationarity and ergodicity
5.6. Autocorrelation and power spectral density
5.7. Correlation matrix
References
Problems
6. Propagation Channel Characteristics
6.1. Flat Earth Model
6.2. Multipath Propagation Mechanisms
6.3. Propagation Channel Basics
6.3.1. Fading
6.3.2. Fast Fading Modeling
6.3.3. Channel Impulse Response
6.3.4. Power Delay Profile
6.3.5. Prediction of Power Delay Profiles
6.3.6. Power Angular Profile
6.3.7. Prediction of Angular Spread
6.3.8. Power Delay-Angular Profile
6.3.9. Channel Dispersion
6.3.10. Slow Fading Modeling
6.4. Improving Signal Quality
6.4.2. Equalization
6.4.3. Diversity
6.4.3.1. RAKE Receiver
6.4.4. Channel Coding
6.4.5. MIMO
References
Problems
7. Angle-of-Arrival Estimation
7.1. Fundamentals of Matrix Algebra
7.1.2. Vector Basics
7.1.3. Matrix Basics
7.2. Array Correlation Matrix
7.3 AOA Estimation Methods
7.3.1. Bartlett AOA Estimate
7.3.2. Capon AOA Estimate
7.3.3. Linear Prediction AOA Estimate
7.3.4. Maximum Entropy AOA Estimate
7.3.5. Pisarenko Harmonic Decomposition AOA Estimate
7.3.6. Min-Norm AOA Estimate
7.3.7. MUSIC AOA Estimate
7.3.8 Root-MUSIC AOA Estimate
7.3.9 ESPRIT AOA Estimate
References
Problems
8. Smart Antennas
8.1. Introduction
8.2. The Historical Development of “Smart Antennas”
8.3. Fixed Weight Beamforming Basics
8.3.1. Maximum Signal-to-Interference Ratio
8.3.2. Minimum Mean-Square Error
8.3.3. Maximum Likelihood
8.3.4. Minimum Variance
8.4. Adaptive Beamforming
8.4.1. Least Mean Squares
8.4.2. Sample Matrix Inversion
8.4.3. Recursive Least Squares
8.4.4. Constant Modulus
8.4.5. Least Squares Constant Modulus
8.4.6. Conjugate Gradient Method
8.4.7. Spreading Sequence Array Weights
8.4.7.1. Description of the New SDMA Receiver
8.4.7.2. Example using bi-phase chipping
References
Problems
商品描述(中文翻譯)
描述:
智能天線可以增強無線網絡的功率,節省能源和金錢,並大大增加無線寬帶的範圍。《智能天線》是一本關於智能天線設計和部署的嚴謹教材。
目錄:
1. 簡介
1.1 什麼是智能天線?
1.2 為什麼現在出現了智能天線?
1.3 智能天線的好處是什麼?
1.4 智能天線涉及多個學科
1.5 本書概述
參考文獻
2. 電磁場基礎
2.1 麥克斯韋方程組
2.2 Helmholtz波動方程
2.3 直角坐標中的傳播
2.4 球坐標中的傳播
2.5 電場邊界條件
2.6 磁場邊界條件
2.7 平面波反射和傳播係數
2.7.1 法向入射
2.7.2 斜入射
2.8 平地傳播
2.9 刀緣繞射
參考文獻
問題
3. 天線基礎
3.1 天線場區域
3.2 功率密度
3.3 輻射強度
3.4 基本天線術語
3.4.1 天線圖案
3.4.2 天線瞄準點
3.4.3 主平面圖案
3.4.4 波束寬度
3.4.5 方向性
3.4.6 波束立體角
3.4.7 增益
3.4.8 有效口徑
3.5 Friis傳輸公式
3.6 磁場矢量電位和遠場
3.7 線性天線
3.7.1 無窮小偶極子
3.7.2 有限長度偶極子
3.8 環形天線
3.8.1 常數相位電流環
參考文獻
問題
4. 陣列基礎
4.1 線性陣列
4.1.2 兩元素陣列
4.1.3 均勻N元素線性陣列
4.1.2.1 正射線性陣列
4.1.2.2 端火線性陣列
4.1.2.3 波束導向線性陣列
4.1.4 均勻N元素線性陣列方向性
4.1.4.1 正射陣列最大方向性
4.1.4.2 端火陣列最大方向性
4.1.4.3 波束導向陣列最大方向性
4.2 陣列加權
4.2.2 波束導向和加權陣列
4.3 環形陣列
4.3.2 波束導向環形陣列
4.4 矩形平面陣列
4.5 固定波束陣列
4.5.2 Butler矩陣
4.6 固定旁瓣抵消
4.7 反射式陣列
參考文獻
問題
5. 隨機變量和過程原理
5.1 隨機變量定義
5.2 概率密度函數
5.3 期望和矩
5.4 常見概率密度函數
5.5 靜態和遞歸性
5.6 自相關和功率譜密度
5.7 相關矩陣
參考文獻
問題
6. 傳播通道特性
6.1 平地模型
6.2 多徑傳播機制
6.3 傳播通道基礎
6.3.1 衰落
6.3.2 快速衰落建模
6.3.3 通道脈沖響應
6.3.4 功率延遲概況
6.3.5 功率延遲概況預測
6.3.6 功率角度概況
6.3.7 角度擴散預測
6.3.8 功率延遲-角度概況
6.3.9 通道色散
6.3.10 慢速衰落建模
6.4 改善信號質量
6.4.2 均衡
6.4.3 多樣性
6.4.3.1 RAKE接收器
6.4.4 通道編碼