Radio photonics : techniques and enabling technology /
This book covers recent technological developments and advanced aspects of optical transmission techniques, focusing on the fundamental mechanics relevant to radiofrequency and optical engineers.
Clasificación: | Libro Electrónico |
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Autor principal: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :
IOP Publishing,
[2021]
|
Colección: | IOP (Series). Release 21.
IOP series in advances in optics, photonics and optoelectronics. IOP ebooks. 2021 collection. |
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- 1. Introduction to RPoF techniques
- 1.1. Introductory remarks
- 1.2. 5G and 6G frequency bands and spectrum allocations
- 1.3. RPoF and transfer functions
- 1.4. RPoF transmission techniques
- 1.5. EM field sensing
- 1.6. Distortion effects in RPoF
- 1.7. Optical transport guided media
- 1.8. Modulation formats and optical signal generation
- 1.9. Opto-electronic reception : incoherent and self-coherent
- 1.10. Organization of the chapters
- 2. Multi-carrier radio photonics
- 2.1. Historical remarks
- 2.2. Optical and RF spectra
- 2.3. Optical transmitter
- 2.4. Linear and nonlinear testing methods for RPoF
- 2.5. Reception subsystems
- 2.6. Plasmonic ultra-wideband technology for RPoF EM sensing and transmission
- 2.7. Appendix : ITU grid
- 3. RPoF long-distance transmission
- 3.1. Introductory remarks : why use single sideband (SSB) and frequency orthogonality for long-haul RPoF?
- 3.2. The generation of a carrier suppression (CS)-SSB
- 3.3. CS-SSB implementation
- 3.4. Mitigation of fiber dispersion by frequency orthogonality modulation for RPoF
- 3.5. Carrier re-injection in SSB modulation for RPoF mitigation of IMD
- 3.6. The noise figure and SFDR of the RPoF link
- 3.7. Dispersion resistant chirp signaling for RPoF
- 3.8. Appendix 3.1 : other DPM-IQM-dual polarization mux-IQ modulators
- 3.9. Appendix 3.2 : RPoF link analyses and design
- 3.10. Appendix 3 : EVM, BER, and SNR relationship
- 4. Radio-photonic transmission with IF processing and nonlinear suppression
- 4.1. Baseband and RF shifted band reception RPoF
- 4.2. Optical filters for RPoF link pre-processing
- 4.3. Optical filtering in self-coherent RPoF links
- 4.4. Linearization of the RPoF link
- 4.5. Coherent reception and frequency shifting in RPoF
- 4.6. Appendix : basic photonic active and passive components for an RFoF using an IF local oscillator
- 5. Digital RFoF access transmission technology
- 5.1. Introduction
- 5.2. Transmitter : complex signaling by the phasor
- 5.3. Transmission using band limited signaling of DSB-DB-PAM-4
- 5.4. The single sideband duo-binary PAM-4 (SSB-DB-PAM-4) system
- 5.5. Optical time interleaving for >200 GBd
- 5.6. Tbps super-channel transmission by DSP based coherent QAM
- 5.7. RPoF front-haul networking to antennae sites
- 5.8. Remarks
- 6. 5G, 6G, and 7G radio-photonic networking : multiple-band radio-photonic antenna testing and networking
- 6.1. The demand for testing of antennae operating in multiple-frequency regions
- 6.2. Generation of a CS-SSB to carry the test signals
- 6.3. CS-SSB generation by modulation in a DD-MZM, QPSK, or PM-IQ modulator
- 6.4. Distribution of multi-radio-photonic carriers in passive optical networking
- 6.5. Multiplexed RPoF up-link
- 6.6. Radio-photonic networks and optical to the antenna
- 6.7. Appendix
- 7. Electro-photonic RF oscillator
- 7.1. Introductory remarks
- 7.2. EPO type 2 : an integrated external modulation laser EPO
- 7.3. Type 3 : a dual parallel EPO with MZM complementary output ports
- 7.4. EPO type 4 : a self-homodyne reception dual-loop EPO
- 7.5. EPO type 5 : a single sideband carrier suppressed (CS-SSB) external modulation laser (EML)
- 7.6. EPO type 6 : an optical tunable EPO (OTEPO)--a master-slave heterodyne-coherent receiving tunable EPO
- 7.7. Type 7 : an optical polarization modulator-based EPO (OPolM-EPO)
- 7.8. Type 8 : EPO generation integrated in-line of an HMLL
- 7.9. Optical phase lock loop for an EPO
- 8. SMF and RF transfer function
- 8.1. Introductory remarks
- 8.2. Optical fiber : general properties
- 8.3. Dispersion
- 8.4. Concluding remarks.