Short-Reach Optical Wireless Communication (eBook)
508 Seiten
Wiley-IEEE Press (Verlag)
978-1-394-30039-6 (ISBN)
A deep dive into indoor optical wireless communication networks
In Short-Reach Optical Wireless Communication: By Directed Narrow Beams, distinguished researcher Ton Koonen delivers an in-depth discussion of the design of indoor optical wireless networks and their key functions. The book explores the steering function for directing beams two-dimensionally to devices, the localization function for device finding and the receive function for devices in order to maximize the range of angles and aperture through which light can be captured.
These functions have been analyzed, designed, realized, and validated, as well as integrated in a laboratory setting for proof of concept of bidirectional all-optical wireless communication.
The book also includes:
- A thorough introduction to how key optical wireless communication techniques are realized and validated
- Illustrative examples of optical wireless technology
- Practical discussions of foundational concepts that underlie optical wireless communication and its expected benefits, and a comparison with radio wireless techniques
- A large collection of figures, including photos of experimental setups, layouts of system concepts, and optical system modelling based on ray tracing analysis using MATLAB
Perfect for academic and industrial researchers with an interest in optical wireless communication, Short-Reach Optical Wireless Communication: By Directed Narrow Beams will also benefit professionals working and studying in the areas of optical communication modules and systems.
Ton Koonen is an Emeritus Professor at Eindhoven University of Technology. He has authored or co-authored over 800 publications. He is a former Associate Editor of the IEEE/OPTICA Journal of Lightwave Technology and the Dutch Member of the Management Committee of the European Conference on Optical Communication.
A deep dive into indoor optical wireless communication networks In Short-Reach Optical Wireless Communication: By Directed Narrow Beams, distinguished researcher Ton Koonen delivers an in-depth discussion of the design of indoor optical wireless networks and their key functions. The book explores the steering function for directing beams two-dimensionally to devices, the localization function for device finding and the receive function for devices in order to maximize the range of angles and aperture through which light can be captured. These functions have been analyzed, designed, realized, and validated, as well as integrated in a laboratory setting for proof of concept of bidirectional all-optical wireless communication. The book also includes: A thorough introduction to how key optical wireless communication techniques are realized and validatedIllustrative examples of optical wireless technologyPractical discussions of foundational concepts that underlie optical wireless communication and its expected benefits, and a comparison with radio wireless techniquesA large collection of figures, including photos of experimental setups, layouts of system concepts, and optical system modelling based on ray tracing analysis using MATLAB Perfect for academic and industrial researchers with an interest in optical wireless communication, Short-Reach Optical Wireless Communication: By Directed Narrow Beams will also benefit professionals working and studying in the areas of optical communication modules and systems.
List of Acronyms and Symbols
Acronyms
| 2D | two dimensional |
| ADR | angular diversity receiver |
| AoA | angle of arrival |
| ASE | amplified stimulated emission |
| AWGR | arrayed waveguide grating router |
| BER | bit error ratio |
| BFL | back focal length |
| BROWSE | Beam-steered Reconfigurable Optical-Wireless System for Energy-efficient communication (ERC Advanced Grant project) |
| BS-ILC | beam-steered infrared light communication |
| BW | bandwidth |
| CapEx | Capital Expenditures |
| CC | corner cube |
| CCC | central communication controller |
| CMOS | complementary metal oxide semiconductor |
| CoG | center of gravity |
| CPC | compound parabolic concentrator |
| CWDM | coarse wavelength division multiplexing |
| CW | continuous wave |
| DBR | distributed Bragg reflector |
| DMT | discrete multi-tone (modulation) |
| DS | downstream |
| DSB | double side-band |
| DWDM | dense wavelength division multiplexing |
| EDFA | Erbium-doped fiber amplifier |
| EFL | effective focal length |
| EMI | electro-magnetic interference |
| ERC | European Research Council |
| FoV | field of view |
| FP | Fabry Perot (cavity) |
| FSR | free spectral range |
| FttH | fiber-to-the-home |
| FttR | fiber-to-the-room |
| FWHM | full width at half maximum |
| GPON | gigabit passive optical network |
| GEPON | Gigabit Ethernet Passive Optical Network |
| HD | high definition (video) |
| IEEE | Institute of Electrical and Electronics Engineers |
| IM | intensity modulation |
| IoT | Internet of Things |
| IR | infrared |
| ISM | Industrial, Scientific and Medical (frequency bands) |
| ITU | International Telecommunication Union |
| LD | laser diode |
| LED | light-emitting diode |
| LiFi | light fidelity |
| LO | local oscillator |
| LoS | line of sight |
| MD | mobile device |
| MDU | multi-dwelling unit |
| MEMS | micro electro-mechanical system |
| MGDM | mode group division multiplexing |
| MIMO | multiple input multiple output |
| MMF | multi-mode fiber |
| MZI | Mach Zehnder Interferometer |
| MZM | Mach Zehnder Modulator |
| NA | numerical aperture |
| NLoS | non-line-of-sight |
| NPV | net present value |
| NRZ | non-return-to-zero (modulation) |
| NWO | Nederlandse Organisatie voor Wetenschappelijk Onderzoek (Netherlands Organization for Scientific Research) |
| O/E | optical-to-electrical (conversion) |
| OOK | on–off keying (modulation) |
| OPA | optical phased array |
| OpEx | operating expenses |
| OWC | optical wireless communication |
| OXC | optical cross-connect |
| PAA | phased array antenna |
| PAM | pulse amplitude modulation |
| PD | photodiode |
| PDL | polarization-dependent loss |
| PIC | photonic-integrated circuit |
| PMMA | polymethylmethacrylate |
| POF | plastic optical fiber |
| PON | passive optical network |
| PRA | pencil radiating antenna |
| PRBS | pseudo-random bit sequence |
| P2P | point-to-point |
| P2MP | point-to-multipoint |
| QAM | quadrature amplitude modulation |
| RAP | radio access point |
| REAM | reflective electro-absorption modulator |
| RF | radio frequency |
| RG | residential gateway |
| RoF | radio over fiber |
| RR | retro-reflector |
| RSS | received signal strength |
| Rx | receiver |
| SDM | spatial division multiplexing |
| SGC | surface grating coupler |
| SLM | spatial light modulator |
| SMF | single-mode fiber |
| SOA | semiconductor optical amplifier |
| SSB | single sideband |
| TDM | time division multiplexing |
| TDMA | time division multiple access |
| TIA | transimpedance amplifier |
| TRL | technology readiness level |
| TRx | transceiver |
| TTD | true time delay |
| Tx | transmitter |
| US | upstream |
| USP | unique selling point |
| UTC | uni-traveling-carrier (photodiode) |
| UWB | ultra-wideband (radio) |
| VCSEL | vertical cavity surface emitting laser diode |
| VIPA | virtually imaged phased array |
| VLC | visible light communication |
| WDM | wavelength division multiplexing |
| Wi-Fi | radio-based wireless connection standard |
| XG-PON | 10-Gigabit-capable passive optical network |
Symbols
| αCC | side length of corner cube |
| α | incidence angle (of optical beam) |
| △λtun | wavelength tuning range |
| △λFSR | wavelength Free Spectral Range |
| η A | fill factor of area |
| η AP | fraction of number of rays captured by an aperture |
| η antenna | radiation efficiency of antenna |
| η CC | fraction of incident power retroreflected by corner cube |
| η matrix | fill factor of photodiode matrix |
| λ | wavelength (of light, or radio wave) |
| φ, ψ | beam steering angles (in two dimensions) |
| ω | radial frequency |
| c 0 | speed of light (in vacuum) |
| C d | capacitance of photodiode |
| D A | directivity (of an antenna) |
| D beam | beam diameter |
| D lens | lens diameter |
| f | focal length (of a lens) |
| G A | antenna... |
| Erscheint lt. Verlag | 28.4.2025 |
|---|---|
| Sprache | englisch |
| Themenwelt | Technik ► Elektrotechnik / Energietechnik |
| Schlagworte | bidirectional communication • device localization • lens aberrations • optical beam steering • optical ray tracing • optical retro-reflector • optical wireless communication applications • optical wireless communication technology • wide field-of-view broadband optical receivers |
| ISBN-10 | 1-394-30039-5 / 1394300395 |
| ISBN-13 | 978-1-394-30039-6 / 9781394300396 |
| Informationen gemäß Produktsicherheitsverordnung (GPSR) | |
| Haben Sie eine Frage zum Produkt? |
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