Making Telecoms Work : From Technical Innovation to Commercial Success.

Bridging the industry divide between the technical expertise of engineers and the aims of market and business planners, Making Telecoms Work provides a basis for more effective interdisciplinary analysis of technology, engineering, market and business investment risk and opportunity. Since fixed and...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Varrall, Geoff
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken : John Wiley & Sons, 2011.
Edición:2nd ed.
Temas:
Telecommunication systems.
Technological innovations.
Systèmes de télécommunications.
Innovations.
telecommunication systems.
TECHNOLOGY & ENGINEERING > Mobile & Wireless Communications.
TECHNOLOGY & ENGINEERING > Radio.
Technological innovations
Telecommunication systems
Acceso en línea:Texto completo
Tabla de Contenidos:
  • MAKING TELECOMS WORK; Contents; Foreword; List of Acronyms and Abbreviations; Acknowledgements; 1 Introduction; 1.1 Differentiating Technology and Engineering Innovation; 1.2 Differentiating Invention and Innovation; 1.3 The Role of Standards, Regulation and Competition Policy; 1.4 Mobile Broadband Auction Values
  • Spectral Costs and Liabilities and Impact on Operator Balance Sheets; 1.5 TV and Broadcasting and Mobile Broadband Regulation; 1.6 Technology Convergence as a Precursor of Market Convergence?
  • 1.7 Mobile Broadband Traffic Growth Forecasts and the Related Impact on Industry Profitability1.8 Radio versus Copper, Cable and Fibre
  • Comparative Economics; 1.9 Standardised Description Frameworks
  • OSI Seven-Layer Model as a Market and Business Descriptor; 1.10 Technology and Engineering Economics
  • Regional Shifts and Related Influence on the Design and Supply Chain, RF Component Suppliers and the Operator Community; 1.11 Apple as an Example of Technology-Led Market Innovation; Part I USER HARDWARE; 2 Physical Layer Connectivity; 2.1 Differentiating Guided and Unguided Media.
  • 2.2 The Transfer of Bandwidth from Broadcasting to Mobile Broadband2.3 The Cost of Propagation Loss and Impact of OFDM; 2.4 Competition or Collaboration?; 2.5 The Smith Chart as a Descriptor of Technology Economics, Vector Analysis and Moore's Law; 2.6 Innovation Domains, Enabling Technologies and their Impact on the Cost of Delivery; 2.6.1 Graphene
  • The New Enabler?; 2.6.2 The Evolution of Photonics; 2.6.3 Free-Space Optics; 2.6.4 Infrared Optical Systems; 2.7 Cable Performance Benchmarks; 2.8 Hybrid Fibre Coaxial Systems; 2.9 The DVB-S Satellite Alternative; 2.10 Terrestrial TV.
  • 2.11 Copper Access
  • ADSL and VDSL Evolution2.12 The Copper Conundrum
  • the Disconnect between Competition Policy and Technical Reality; 2.13 OFDM in Wireless
  • A Similar Story?; 2.13.1 Transforms in Historical Context; 2.13.2 How Fourier Transforms Deliver Performance Differentiation; 2.13.3 Characteristics of the Fourier Transform; 2.13.4 The IDFT and DFT as Used in a WiFi Transceiver; 2.13.5 Properties of a Sinusoid; 2.13.6 The IDFT and DFT in Wide-Area OFDM (LTE); 2.13.7 The Impact of Transforms on DSP and Microcontroller Architectures
  • Maths in the Microcontroller.
  • 2.13.8 How Fourier Transforms Add Value2.13.9 Power Drain and Battery Capacity; 2.14 Chapter Summary; 3 Interrelationship of the Physical Layer with Other Layers of the OSI Model; 3.1 MAC Layer and Physical Layer Relationships; 3.2 OFDM and the Transformative Power of Transforms; 3.2.1 The Origins of Matrix Maths and the Hadamard Transform; 3.2.2 The Hadamard Matrix and the Hadamard Transform; 3.2.3 The Properties of a Hadamard Matrix; 3.2.4 Differences Between the FFT and the FHT; 3.2.5 Some Naming Issues; 3.2.6 How the FHT and FFT Deliver Cost Reduction.

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