Visible light communications : vehicular applications /

Visible light communication (VLC) has emerged as an attractive alternative to radio frequency (RF) communication, due to its abundant, license free bandwidth and cost-effectiveness. The visible light spectrum is much larger than the entire RF spectrum, and largely unexplored. VLC has proved its viab...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Fernando, Xavier N. (Autor), Farahneh, Hasan (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2020]
Colección:IOP series in emerging technologies in optics and photonics.
IOP ebooks. 2020 collection.
Temas:
Optical communications.
Vehicular ad hoc networks (Computer networks)
Optical physics.
SCIENCE / Physics / Optics & Light.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Introduction
  • 1.1. Optical wireless communication
  • 1.2. VLC in autonomous vehicles and ITS
  • 1.3. Research in the usage of VLC in AV and ITS
  • 1.4. Standardization efforts
  • 1.5. The architecture of the VLC system
  • 1.6. Noise and SNR
  • 1.7. Chapter summary
  • 2. Channel modeling for the V2V-VLC system
  • 2.1. Channel modeling for VLC
  • 2.2. Channel modeling for V2V-VLC system
  • 2.3. (2 x 2) MIMO V2V-VLC system model
  • 2.4. Channel impulse response and transfer function
  • 2.5. Performance analysis of the V2V-VLC channel model
  • 2.6. Simulation and results
  • 2.7. Chapter summary
  • 3. Optical OFDM basics
  • 3.1. OFDM principle
  • 3.2. Optical OFDM
  • 3.3. Related work in adaptive modulation for VLC
  • 3.4. Optical OFDM scheme of a V2V-VLC system
  • 3.5. Performance analysis and bit loading algorithm
  • 3.6. Results and discussions
  • 3.7. Chapter summary
  • 4. Precoder and equalizer in 2 x 2 MIMO VLC systems
  • 4.1. Related work in precoding and equalization for VLC
  • 4.2. Dimming control technique and its performance in VLC systems
  • 4.3. Precoder and equalizer in 2 x 2 MIMO V2V-VLC systems
  • 4.4. Simulation and results
  • 4.5. Chapter summary
  • 5. Shadowing effects on visible light communication
  • 5.1. Shadowing in VLC
  • 5.2. Channel impulse response with shadowing
  • 5.3. Shadowing effect
  • 5.4. Error probability
  • 5.5. Simulations
  • 5.6. Chapter summary
  • 6. Sunlight effect on V2V-VLC system and denoising schemes
  • 6.1. Solar irradiance
  • 6..2 SNR of V2V-VLC system
  • 6.3. Related work in denoising schemes for VLC
  • 6.4. Noise calculations
  • 6.5. Differential receiver as a denoising scheme to improve the performance of V2V-VLC systems
  • 6.6. V2V-VLC denoising scheme using machine learning
  • 6.7. Chapter summary
  • Appendix A. Certain VLC terminologies.

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