| 摘要 | 第5-6页 |
| ABSTRACT | 第6-7页 |
| ACKNOWLEDGEMENTS | 第8-29页 |
| Chapter 1 Introduction | 第29-52页 |
| 1.1 Integration of radio over fiber(RoF)with passive optical network(PON) | 第29-33页 |
| 1.2 Research objectives | 第33-34页 |
| 1.3 Contemporary work | 第34-40页 |
| 1.4 Research contribution | 第40-42页 |
| 1.5 Thesis overview | 第42-44页 |
| References | 第44-52页 |
| Chapter 2 Characterization of Radio over Fiber(RoF) Networks and Systems | 第52-81页 |
| 2.1 Radio spectrum | 第52-53页 |
| 2.2 Multi gigabit/s wireless network | 第53-63页 |
| 2.2.1 Wireless fidelity(WiFi) | 第54-55页 |
| 2.2.2 Worldwide interoperability for microwave access(WiMAX) | 第55-57页 |
| 2.2.3 Long term evolution(LTE) | 第57-58页 |
| 2.2.4 60-GHZ millimeter wave | 第58-63页 |
| 2.2.4.1 Millimeter wave applications | 第58-59页 |
| 2.2.4.2 Millimeter wave spectrum allocation | 第59-60页 |
| 2.2.4.3 Standardization of millimeter wave band | 第60-63页 |
| 2.2.4.3.1 IEEE 802.15.3c | 第61页 |
| 2.2.4.3.2 ECMA-387 | 第61-62页 |
| 2.2.4.3.3 Wireless Gigabit Alliance | 第62页 |
| 2.2.4.3.4 IEEE 802.11ad | 第62-63页 |
| 2.3 Overview of Radio over Fiber technology | 第63-66页 |
| 2.3.1 Radio over Fiber systems | 第64-66页 |
| 2.4 Pragmatic design approaches for applying RoF systems | 第66-75页 |
| 2.4.1 Fiber-wireless(FiWi) | 第68页 |
| 2.4.2 Wireless optical broadband access network(WOBAN) | 第68-70页 |
| 2.4.3 Metro-access ring integrated network(MARIN) | 第70-71页 |
| 2.4.4 Grid based reconfigurable optical-wireless network(GROW-Net) | 第71-73页 |
| 2.4.5 Fiber-optic networks for distributed,heterogeneous radio architectures and service provisioning (FUTON) | 第73-74页 |
| 2.4.6 A converged copper-optical-radio OFDMA based access network with high capacity and flexibility(ACCORDANCE) | 第74-75页 |
| 2.5 Chapter summery | 第75-77页 |
| References | 第77-81页 |
| Chapter 3 Wired Optical Access Network Architecture and System Design | 第81-131页 |
| 3.1 Evolution of optical access network | 第81-87页 |
| 3.1.1 Point-to-point optical network | 第83页 |
| 3.1.2 Active optical network(AON) | 第83-86页 |
| 3.1.2.1 Fiber to the cabinet(FTTCab) | 第84页 |
| 3.1.2.2 Fiber to the node(FTTN) | 第84-85页 |
| 3.1.2.3 Fiber to the building (FTTB) | 第85页 |
| 3.1.2.4 Fiber to the home (FTTH) | 第85-86页 |
| 3.1.3 Passive optical network | 第86页 |
| 3.1.4 Ring based optical network | 第86-87页 |
| 3.2 Multiple accesstechnique in PONs | 第87-95页 |
| 3.2.1 Time division multiple access PON(TDMA-PON) | 第88-90页 |
| 3.2.2 Subcarrier multiple access(SCMA)PON | 第90-91页 |
| 3.2.3 Wavelength division multiple access(WDMA)PON | 第91-92页 |
| 3.2.4 Optical code division multiple access(OCDMA)PON | 第92-94页 |
| 3.2.5 Orthogonal frequency division multiple access(OFDMA)PON | 第94-95页 |
| 3.3 Comparative analysis of multiple access techniques | 第95-97页 |
| 3.4 The PON standards overview | 第97-99页 |
| 3.4.1 Broadband PON Standard | 第97-98页 |
| 3.4.2 Gigabit PON Standard | 第98页 |
| 3.4.3 Ethernet PON standard | 第98-99页 |
| 3.5 Hybrid PON | 第99-113页 |
| 3.5.1 A novel high capacity Hybrid PON system | 第99-107页 |
| 3.5.1.1 Simulation setup and working principle | 第100-104页 |
| 3.5.1.2 Results and discussion | 第104-107页 |
| 3.5.2 A 32-wavelength remotely seeded colorless hybrid PON with QPSK modulation | 第107-113页 |
| 3.5.2.1 Concept and theoretical analysis for remotely seeded PON | 第107-108页 |
| 3.5.2.2 Simulation setup and working principle for 32-wavelenght system | 第108-110页 |
| 3.5.2.3 Results and discussion | 第110-113页 |
| 3.6 Next generation of passive optical networks stage-2 (NG-PON2) | 第113-124页 |
| 3.6.1 A novel analysis of available options for wavelength group selection and transceiver design for NG-PON2 | 第114-124页 |
| 3.6.1.1 Concept and Theoretical Analysis | 第115-116页 |
| 3.6.1.2 Simulation Setup and working Principle | 第116-117页 |
| 3.6.1.3 Setup for wavelength group selection | 第117页 |
| 3.6.1.4 Setup for CML vs. MZM | 第117-120页 |
| 3.6.1.5 Setup for remotely fed colorless ONU vs. tunable transceivers | 第120-122页 |
| 3.6.1.6 Results and discussions | 第122-124页 |
| 3.7 Chapter summery | 第124-126页 |
| References | 第126-131页 |
| Chapter 4 Excogitation of 60GHz Millimeter Radio Wave Technology andEnabling Techniques | 第131-158页 |
| 4.1 Enabling techniques for photonic generation of 60GHz millimeter wave | 第131-145页 |
| 4.1.1 Optical mm-wave generation by a directly modulated laser (DML) | 第131-132页 |
| 4.1.2 Dual laser sources | 第132-135页 |
| 4.1.2.1 Optical phase locked loop (OPLL) | 第134页 |
| 4.1.2.2 Optical injection phase locked loop (OIPLL) | 第134-135页 |
| 4.1.3 External intensity modulation | 第135-137页 |
| 4.1.3.1 Optical sideband millimeter wave | 第135-137页 |
| 4.1.4 Four wave mixing (FWM) | 第137-138页 |
| 4.1.5 Stimulated Brillouin scattering (SB S) | 第138-140页 |
| 4.1.6 Phase modulation techniques | 第140-141页 |
| 4.1.6.1 A fiber Bragg grating (FBG) based phase modulation technique | 第140-141页 |
| 4.1.6.2 A differential phase shift keying (DPSK) modulation technique | 第141页 |
| 4.1.7 Orthogonal frequency division multiplexing (OFDM) RoF system | 第141-143页 |
| 4.1.8 A millimeter wave generation system based on semiconductor optical amplifier | 第143-144页 |
| 4.1.9 12-tupling millimeter wave generation technique | 第144-145页 |
| 4.2 Multi-band generation techniques for convergence with PON | 第145-150页 |
| 4.2.1 Multiband signal generation by hybrid subcarrier modulation | 第146-147页 |
| 4.2.2 Multiband optical carrier generation technique | 第147-148页 |
| 4.2.3 Multi-wavelengths generation techniques | 第148-150页 |
| 4.2.3.1 A phase modulator based multi-wavelength generation | 第148-149页 |
| 4.2.3.2 A MZM-PM multi wavelength generation | 第149-150页 |
| 4.3 A novel converged mm-wave and wire-line data generation technique by single Mach Zehnder technique | 第150-154页 |
| 4.3.1 Simulation setup and working principle | 第150-152页 |
| 4.3.2 Results and discussions | 第152-154页 |
| 4.4 Chapter summery | 第154-156页 |
| References | 第156-158页 |
| Chapter 5 Seamless Integration of Hybrid Passive Optical Networks and Radioover Fiber | 第158-193页 |
| 5.1 RoF and PON integration strategies | 第158-160页 |
| 5.2 Multiplexing Schemes for integration of RoF with PON | 第160-165页 |
| 5.2.1 A time division multiplexing scheme for integration | 第160-162页 |
| 5.2.2 A subcarrier multiplexing scheme for integration | 第162-163页 |
| 5.2.3 A coarse wavelength division multiplexing scheme for integration | 第163页 |
| 5.2.4 A dense wavelength division multiplexing scheme for integration | 第163-164页 |
| 5.2.5 A proposed scheme for hybrid PON integration with 60GHz mm-wave | 第164-165页 |
| 5.3 A novel proposed techniques for integration of 2.5 Gbit/s RoF with XG-PON | 第165-167页 |
| 5.3.1 Concept and theoretical analysis | 第165-167页 |
| 5.4 Topological architectures for integrated systems | 第167-173页 |
| 5.4.1 Accompaniment of legacy wireless services in RoF-PON integrated systems | 第170-171页 |
| 5.4.2 Signal transmission options for high capacity wireless networks | 第171-172页 |
| 5.4.3 Radio signals propagation over hybrid passive optical networks | 第172-173页 |
| 5.5 The effectuation of mm-wave RoF architetures | 第173-178页 |
| 5.5.1 The point-to-point mm-wave RoF structural design | 第174-175页 |
| 5.5.2 The active star mm-wave RoF structural design | 第175-176页 |
| 5.5.3 The point-to-multipoint mm-wave RoF structural design | 第176-177页 |
| 5.5.4 The multipoint-to-multipoint mm-wave RoF structural design | 第177-178页 |
| 5.6 Possible impairments during integrated signal transmission in RoF-PON shared architectures | 第178-179页 |
| 5.7 TV integration with PON | 第179-188页 |
| 5.7.1 A novel converged PON design for UHD-TV distribution | 第180-181页 |
| 5.7.2 Simulation Setup | 第181-186页 |
| 5.7.3 Simulation Results | 第186-188页 |
| 5.8 Chapter summery | 第188-190页 |
| References | 第190-193页 |
| Chapter 6 Conclusion and Prospective | 第193-199页 |
| 6.1 Conclusion | 第193-196页 |
| 6.2 Prospective | 第196-199页 |
| List of Papers | 第199-200页 |
