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市場調查報告書
支援智慧型電網解決方案的LTE、以及應用程式與市場的展望分析報告書
LTE Support of the Smart-grid Solutions, Applications, and Market Outlook
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支援智慧型電網解決方案的LTE、以及應用程式與市場的展望分析報告書 是由出版商Mind Commerce Publishing LLC在2012年01月所出版的。
這份英文市場調查報告書包含142 Pages 價格從美金1995起跳。
對於溝通與通訊、包含固定網路寬頻及各種無線方式的很多實現方法中、第4代(4G)行動電話(尤其是LTE)的引進與運用所適合的選項都包含在內。本報告書內容包括:針對現在的智慧型電網應用程式的通訊角色與LTE的具體性優點進行檢討、LTE的課題及可能性的解決方案之分析、內容綱要摘記如下:
第1章 實施摘要
第2章 智慧型電網
- 智慧型電網的促進因素
- 智慧型電網的功能
- 對一般消費者與企業來說智慧型電網的優點
- 智慧型電網的構成
- 智慧型電網的終點
- 智慧型電網的未來趨勢
- 個案研究
- 智慧型電網與電氣汽車
第3章 LTE的智慧型電網
- 電信與智慧型電網
- 智慧型電網的未來趨勢
- 通用無線環境的未來技術
- 通用無線環境TDD系統的未來技術
- 未來的TDD系統特徴
- TDD系統的課題
- TDD系統的下一個技術
- TDD拓撲結構
- 無線連結網路(RAN)
- 全球LTE展開
- 個案研究:無線網路會如何支援智慧型電網
- 智慧型電網對3G網路的支援
- M2M(機械對機械)與智慧型電網
- M2M網域的電信最新及下一個技術
- 2M應用程式
- 智慧型電網的WIMAX支援
- 智慧型電網的LTE與4G支援
- LTE整體
- LTE的架構
- 第4代行動通訊與LTE
- 現在的網路到LTE策略的轉移
- LTE解決方案間的比較
- LTE的代表分析
- 毫微微蜂巢式基地台技術
- LTE毫微微蜂巢式基地台應用程式與一體化
第4章
Abstract
Overview:
Electric power system delivery has often been cited as the greatest and most
complex mechanism ever built. It consists of a vast amount of infrastructure
including wires, cables, towers, transformers and circuit breakers. The
so-called “Smart Grid” is expected to bring dramatic improvements in
everything from general network management to demand response and other
demand-side improvements. Ultimately it will help the supply-side as new
technologies are implemented that create efficiencies for utilities.
While there are many potential approaches for communications and signaling,
including fixed network broadband and various wireless methods and procedures,
Fourth Generation (4G) cellular (specifically LTE) is a viable option for
implementation and operation. This report evaluates current Smart Grid
infrastructure and applications and looks into its future. This research
analyzes the role of telecommunication in Smart Grid applications and the
specific benefits of the LTE. The reader will be able to identify and
understand the benefits of the LTE as well as challenges and potential
solutions.
Audience:
- Smart Grid infrastructure, services and integration companies
- Telecom operators and other broadband service providers
- LTE application developers and service integrators
- Next Generation application and service providers
- LTE infrastructure and equipment providers
- Infrastructure privacy/security companies
- OSS/BSS vendors and service providers
- Electrical utilities
- Governmental Agencies
Report Statistics
- Publication Date: January 2012
- Author: Mustafa Elmoslhey
- Total Number of Pages: 142
- Keywords: Smart Grid, Smartgrid, LTE, Long Term Evolution, 4G, LTE
Smart Grid, LTE Smart Grid Applications
Table of Contents
1.0. EXECUTIVE SUMMARY
2.0. SMART GRID
- 2.1. DRIVERS FOR SMART GRID
- 2.2. SMART GRID FUNCTIONALITY
- 2.3. THE SMART GRID BENEFITS FOR THE CONSUMER AND THE ENTERPRISE
- 2.4. SMART GRID ARCHITECTURE
- 2.4.1. GOALS OF THE SMART GRID
- 2.4.2. FUTURE TRENDS OF THE SMART GRID
- 2.4.3. CASE STUDY: USING THE SMART GRID
- 2.4.4. SMART GRID AND ELECTRIC VEHICLES
3.0. SMART GRID IN LTE
- 3.1. TELECOMS AND SMART GRID
- 3.2. EVOLUTION OF THE TELECOMMUNICATION INDUSTRY
- 3.3. FUTURE TECHNOLOGIES FOR A UNIVERSAL RADIO ENVIRONMENT
- 3.4. FUTURE TECHNOLOGIES FOR A UNIVERSAL RADIO ENVIRONMENT TDD SYSTEM
- 3.5. FEATURES OF FUTURE TDD SYSTEM
- 3.6. CHALLENGES OF THE TDD SYSTEM
- 3.7. THE UPCOMING TECHNOLOGY OF TDD SYSTEM
- 3.8. TDD TOPOLOGY
- 3.9. RADIO ACCESS NETWORK (RAN)
- 3.9.1. ENERGY SAVING IN LTE
- 3.10. WORLDWIDE LTE DEPLOYMENT
- 3.10.1. LTE DEPLOYMENT PLANS BY COMPANY
- 3.10.2. LTE DEPLOYMENT PLANS BY REGION
- 3.10.3. THE US MARKET
- 3.10.4. THE MEXICAN MARKET
- 3.10.5. THE CANADIAN MARKET
- 3.10.6. THE PUERTO RICAN MARKET
- 3.10.7. THE COLOMBIAN MARKET
- 3.10.8. CHILE MARKET
- 3.10.9. THE BRAZILIAN MARKET
- 3.10.10. ADVANCED METERING INFRASTRUCTURE (AMI)
- 3.10.11. AMI NETWORK
- 3.10.12. DEPLOYING AMI
- 3.10.13. SMART METERS
- 3.10.14. EVOLUTION OF THE SMART GRID
- 3.11. CASE STUDY: HOW CAN WIRELESS NETWORKS SUPPORTS THE SMART GRID
- 3.11.1. RADIO FREQUENCY MESH NETWORKS
- 3.12. 3G NETWORK SUPPORT FOR THE SMART GRID
- 3.12.1. CHARACTERISTICS OF 3G SYSTEMS
- 3.12.2. 3G NETWORKS SUPPORT FOR THE SMART GRID
- 3.13. MACHINE-TO-MACHINE (M2M) AND SMART GRID
- 3.13.1. M2M BUILDING BLOCKS
- 3.13.2. M2M EVOLUTION
- 3.13.3. WIRELESS TRANSPORT OF M2M DATA TO AND FROM THE MONITORING
FACILITY
- 3.13.4. THE BACK-END OPERATIONS AND SUPPORT INFRASTRUCTURE
- 3.13.5. M2M SOLUTION BUILDING BLOCKS: A MORE IN-DEPTH VIEW
- 3.13.6. THE MACHINE THE CUSTOMER INTENDS TO MONITOR AND CONTROL
- 3.13.7. THE IN-FIELD HARDWARE DEVICE CREATED BY THE HARDWARE VENDOR
- 3.13.8. WIRELESS NETWORK
- 3.13.9. THE BACK-END SERVER
- 3.13.10. THE INTERNET
- 3.13.11. THE CUSTOMER FACILITY FOR MONITORING AND CONTROLLING THE
MACHINES
- 3.13.13. WIMAX
- 3.13.14. ZIGBEE
- 3.13.15. 6LOWPAN
- 3.14. LATEST AND UPCOMING TECHNOLOGIES FOR TELECOM IN THE M2M DOMAIN
- 3.14.1. PICOCELL
- 3.14.2. FEMTOCELL
- 3.14.3. MICROCELLS
- 3.14.4. ADVANTAGES AND WORKING PRINCIPLE
- 3.14.5. PROTOTYPE OF ZEPPELIN BASED COMMUNICATION BACKBONE
- 3.14.6. OVERVIEW
- 3.14.7. PRODUCT ANALYSIS
- 3.14.8. MAXIMUM DURATION ALOFT: 18 MONTHS
- 3.14.9. 3G
- 3.14.10. 4G
- 3.14.11. KNOWN BOTTLENECKS IN 4G
- 3.14.12. LTE
- 3.14.13. INTELLIGENT SENSORS
- 3.15. M2M APPLICATIONS
- 3.15.1. M2M IN AUTOMATION
- 3.15.2. M2M IN TELECOMMUNICATION
- 3.15.3. M2M IN ENERGY AND SMART METERING SYSTEM
- 3.16. WIMAX SUPPORT FOR THE SMART GRID
- 3.17. LTE AND 4G SUPPORT FOR THE SMART GRID
- 3.18. LTE IN GENERAL
- 3.18.1. HISTORY OF NGN AND LTE
- 3.18.2. LTE KEY TECHNOLOGIES
- 3.19. LTE ARCHITECTURE
- 3.19.1. SERVICE ARCHITECTURE
- 3.20. MOBILE TELECOMMUNICATIONS 4TH GENERATION AND LTE
- 3.20.1. TARGET OF 4G SYSTEM
- 3.20.2. APPLICATIONS AND SERVICES OF 4G SYSTEM
- 3.20.3. TELE PRESENCE
- 3.20.4. INFORMATION ACCESS
- 3.20.5. INTER-MACHINE COMMUNICATION
- 3.20.6. INTELLIGENT SHOPPING
- 3.20.7. LOCATION-BASED SERVICES
- 3.20.8. LBS IN GENERAL
- 3.20.9. TECHNIQUES
- 3.20.10. CELL ID-BASED LOCATION
- 3.20.11. TERMINAL-BASED LOCATION TECHNIQUES
- 3.20.12. GLOBAL POSITIONING SYSTEM (GPS)
- 3.20.13. GPS DISADVANTAGES
- 3.20.14. LOCATION ARCHITECTURE AND INTERFACES
- 3.20.15. PROTOCOLS BASED ON PLAIN-TEXT XML
- 3.20.16. ROAMING LOCATION PROTOCOL (RLP)
- 3.20.17. DIFFERENCE BETWEEN MLP AND RLP
- 3.20.18. ADDING LOCATION VALUE
- 3.20.19. APPLICATIONS AND CONTENT
- 3.20.20. KEY SERVICE ADVANCES
- 3.20.21. DEVICES DEVELOPMENTS
- 3.20.22. NETWORK INTERFACES
- 3.20.23. MOBILE INTERFACES
- 3.20.24. HIGH-PERFORMANCE BROADBAND SYSTEMS STRATEGIES
- 3.20.25. EDGE/HSPA/LTE FEATURES 2011-2014
- 3.20.26. ADOPTION OF TECHNOLOGIES TO 2030
- 3.21. MIGRATION FROM THE CURRENT NETWORKS TO LTE STRATEGIES
- 3.22. COMPARISON BETWEEN LTE SOLUTIONS
- 3.22.1. THROUGHPUT PERFORMANCE
- 3.23. LTE PERFORMANCE ANALYSIS
- 3.23.1. LATENCY
- 3.23.2. EFFICIENCY
- 3.23.1. LTE BENEFITS FOR THE SMART GRID
- 3.24. FEMTOCELL TECHNOLOGY
- 3.24.1. FEMTOCELL FEATURES
- 3.24.2. FEMTOCELL ISSUES
- 3.24.3. DEPLOYING LTE FEMTOCELL STRATEGIES
- 3.24.4. FEMTOCELL ACCESS CONTROL STRATEGY
- 3.24.5. LTE FEMTOCELL TECHNICAL ISSUES
- 3.24.6. PRIVACY OF FEMTOCELL
- 3.25. LTE FEMTOCELL APPLICATIONS AND INTEGRATIONS
- 3.25.1. USING RFID WITH FEMTOCELLS
- 3.25.2. USING WIRELESS SENSORS
- 3.25.3. FUTURE OF FEMTOCELLS
- 3.25.4. ROI OF THE FEMTOCELLS
- 3.25.5. FEMTOCELL SUPPORT FOR THE SMART GRID APPLICATIONS
4.0. SMART GRID MARKET OUTLOOK
- 4.1. WORLDWIDE ELECTRICITY DEMAND FOR THE SMART GRID
- 4.1.1. ELECTRICITY DEMAND AND THE USE OF THE SMART GRID
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