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Optical Fiber Telecommunications Volume VIB

Optical Fiber Telecommunications Volume VIB
Author: Ivan Kaminow
Publisher: Academic Press
Total Pages: 1139
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 012397237X
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Optical Fiber Telecommunications VI (A&B) is the sixth in a series that has chronicled the progress in the R&D of lightwave communications since the early 1970s. Written by active authorities from academia and industry, this edition brings a fresh look to many essential topics, including devices, subsystems, systems and networks. A central theme is the enabling of high-bandwidth communications in a cost-effective manner for the development of customer applications. These volumes are an ideal reference for R&D engineers and managers, optical systems implementers, university researchers and students, network operators, and investors. Volume A is devoted to components and subsystems, including photonic integrated circuits, multicore and few-mode fibers, photonic crystals, silicon photonics, signal processing, and optical interconnections. Volume B is devoted to systems and networks, including advanced modulation formats, coherent detection, Tb/s channels, space-division multiplexing, reconfigurable networks, broadband access, undersea cable, satellite communications, and microwave photonics. All the latest technologies and techniques for developing future components and systems Edited by two winners of the highly prestigious OSA/IEEE John Tyndal award and a President of IEEE's Lasers & Electro-Optics Society (7,000 members) Written by leading experts in the field, it is the most authoritative and comprehensive reference on optical engineering on the market

Optical Fiber Telecommunications VIB

Optical Fiber Telecommunications VIB
Author: Jian Wang
Publisher: Elsevier Inc. Chapters
Total Pages: 74
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 0128060840
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In this chapter, we provide a comprehensive review of multimode communications using OAM. The fundamentals of OAM are introduced first followed by the techniques for OAM generation, multiplexing/demultiplexing, and detection. We then present recent research efforts to free-space communication links and fiber-based transmission links using OAM multiplexing together with optical signal processing using OAM (data exchange, add/drop, multicasting, monitoring, and compensation). Future challenges of OAM communications are discussed at the end.

Optical Fiber Telecommunications VIB

Optical Fiber Telecommunications VIB
Author: Juerg Leuthold
Publisher: Elsevier Inc. Chapters
Total Pages: 91
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 0128060816
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New pulse-shaping techniques allow for optical multiplexing with highest spectral efficiencies. We introduce the general theory of orthogonal pulse-shaping and then discuss with more emphasis the orthogonal frequency division multiplexing (OFDM) and Nyquist frequency division multiplexing schemes. Subsequently, we show that rectangularly shaped pulses as used for OFDM can mathematically be treated by the Fourier transform. This leads us to the theory of the time-discrete Fourier transform (DFT) and to a discussion of practical implementations of the DFT and its inverse in the optical domain. The chapter is concluded with exemplary implementations of OFDM transceivers that relay either on direct pulse-shaping or the DFT approaches.

Optical Fiber Telecommunications VIB

Optical Fiber Telecommunications VIB
Author: Gee-Kung Chang
Publisher: Elsevier Inc. Chapters
Total Pages: 31
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 012806093X
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Radio-over-fiber (RoF) link technology has been developed to support multiple wireless signals over optical fiber applications such as mobile backhaul networks and WLANs. Given that conventional wireless networks use packet-switch links between the central office and remote base stations, the cost and complexity of the high-speed wireless networks for data and video transmission increase exponentially while the area of effective coverage decreases. These wireless systems become more inefficient as the data rates and the carrier frequencies required for delivering multi-gigabit wireless services climb higher. However, radio-over-fiber link systems utilizing lightwave to carry multiple analog RF signals through optical fibers can greatly extend the cellular sizes while transparent to the bit rates, modulation formats, and protocols. As a result, the complexity of wireless system to deliver multi-band, multi-gigabit wireless services can be simplified by taking advantages of microwave photonics in optical wireless network design and system integration. The end-to-end RoF systems, from the generation schemes of 1–100 GHz optical wireless signals in the central office to the design of transceivers for base stations and radio access units, are reviewed and investigated in this chapter. Various radio-over-fiber link technologies and the optical wireless interface specifications required to build a converged multi-service, gigabit wireless access network are introduced. The system impairment and its mitigation of radio-over-fiber link transmission will be investigated and analyzed.

Optical Fiber Telecommunications VIB

Optical Fiber Telecommunications VIB
Author: René-Jean Essiambre
Publisher: Elsevier Inc. Chapters
Total Pages: 72
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 0128060735
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This chapter starts by providing some statistics on traffic demand in optical networks and the capacity scaling over time of commercial optical communication systems. Next there is a brief review of the basic results of information theory. We then describe the stochastic nonlinear Schrödinger equation (SNSE), the equation that governs nonlinear propagation in SMFs. This is followed by calculations of nonlinear capacity limit estimates for the SSMF, and advanced fibers with improved transmission characteristics are then presented along with an analytical formula of nonlinear capacity. We then introduce a set of coupled partial differential equations (PDEs) describing nonlinear propagation of polarization-division multiplexed (PDM) signals in SMFs along with nonlinear capacity estimates for these systems. This followed by a focus on multimode fibers (MMFs) and multicore fibers (MCFs). The rest of the chapter then focuses on nonlinear effects in MMFs and MCFs, with an emphasis on MMFs and FMFs. The chapter concludes by reporting experimental observations of two important effects involving nonlinear effects between spatial modes: inter-modal cross-phase modulation (IM-XPM) and inter-modal four-wave mixing (IM-FWM).

Optical Fiber Telecommunications VIB

Optical Fiber Telecommunications VIB
Author: Peter J. Winzer
Publisher: Elsevier Inc. Chapters
Total Pages: 92
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 0128060824
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At the beginning of an exciting new era in optical communications, we review fundamentals as well as practical experimental aspects of MIMO-SDM: we discuss the importance of selectively addressing all modes of a coupled-mode SDM channel at transmitter and receiver in order to achieve reliable capacity gains and show that reasonable levels of mode-dependent loss (MDL) are acceptable without much loss of channel capacity. We then introduce MIMO-DSP techniques as an extension of familiar algorithms used in polarization-division multiplexed (PDM) digital coherent receivers and discuss their functionality and scalability. Finally, we review the design of mode multiplexers (MMUXs) that allow for the mapping of the individual transmission signals onto an orthogonal basis of waveguide mode, and discuss their performance in experimental demonstrations.

Optical Fiber Telecommunications VIB

Optical Fiber Telecommunications VIB
Author: Charles H. Cox
Publisher: Elsevier Inc. Chapters
Total Pages: 37
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 0128060921
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The transmission of multi-band radio signals through optical fibers has drawn great attention recently for its potential in cellular backhaul networks, mobile cloud computing, and wireless local-area networks. As wireless services and technologies evolve to multi-gigabit radio access networks, their speed is increased but the wireless coverage of a single access point is inevitably reduced dramatically. As a result, the importance of >10GHz radio-over-fiber techniques has been emphasized for the capability of expanding wireless coverage feasibility, and in the meantime reducing system complexity and operation expenditure, especially in the high-speed millimeter-wave regime. In this chapter, we introduce the radio-over-fiber technique and its challenge of handling optical millimeter-wave generation, transmission, and converged multi-band system. By exploring real-world, system implementation and characterization, the unique features and versatile applications of radio-over-fiber technologies are investigated and reviewed to reach next-generation converged optical and wireless access networks.

Optical Fiber Telecommunications VIB

Optical Fiber Telecommunications VIB
Author: Ori Gerstel
Publisher: Elsevier Inc. Chapters
Total Pages: 49
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 0128060867
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This chapter introduces elastic optical networking, which is a new paradigm for the wavelength division multiplexing (WDM) layer, based on a much more flexible use of the spectrum without a rigid wavelength grid, transponders that can be programmed for different modulation formats, tightly packed channels in a so called “superchannel” and impairment-aware control planes that tie the client layer and the optical layer together. We start by reviewing the changes in network usage patterns that require an overhaul of the network architecture. We then survey the enabling technologies, including flexible spectrum reconfigurable add/drop multiplexers (FlexSpectrum ROADMs), bit rate variable transponders (also known as software defined), and control plane capabilities. We provide a vision of the resulting architecture, including how to decide on the connection bit rate and other properties and how to manage the spectrum, and compare it to today’s WDM systems. We finish by surveying progress in standards for this technology.

Optical Fiber Telecommunications VIB

Optical Fiber Telecommunications VIB
Author: Vincent W.S. Chan
Publisher: Elsevier Inc. Chapters
Total Pages: 54
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 0128060913
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Present-day networks are being challenged by dramatic increases in data rate demands of emerging applications. New network architectures for streaming/routing large “elephant” transactions will be needed for cost and power efficiencies. This chapter examines a number of possible optical network transport mechanisms: optical packet switching, burst switching, and flow switching and describes the necessary physical layer, routing, and transport layers architectures for these transport mechanisms. Performance comparisons are made based on capacity utilization, scalability, costs, and power consumption. A global-reach network architecture, incorporating optical flow switching, will provide significant lower cost and power consumption for large transactions. This transport mechanism will necessitate physical, media access control, routing, and transport layers and control plane architecture changes over the current Internet architecture and must co-exist with traditional TCP/IP electronic packet switching transport in the same optical network. Scalability in network management and control and session scheduling is identified as the most important driver in the architecture construct. The physical architecture coupled with a matched media access control protocol can help slow down the control plane and still can operate the network with highly dynamic sessions and at high efficiency which is critical for low cost and low power operations. For intra-data center networks when the network bandwidth is not as challenged as a wide area network some form of burst switching can be advantageous if fast light-weight protocols are needed albeit the network must be used at light occupancy for low collision probabilities.

Optical Fiber Telecommunications VIB

Optical Fiber Telecommunications VIB
Author: Y.C. Chung
Publisher: Elsevier Inc. Chapters
Total Pages: 87
Release: 2013-05-11
Genre: Technology & Engineering
ISBN: 0128060956
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Wavelength-division-multiplexed passive optical network (WDM PON) has long been considered as an ultimate solution for the future optical access network capable of providing practically unlimited bandwidth to each subscriber. On the other hand, it is still considered to be too expensive for the massive deployment. To solve this problem and meet the ever-increasing demand for bandwidth, there have been numerous efforts to improve the competitiveness of WDM PON. This chapter reviews the current status and future direction of these WDM PON technologies. We first review various colorless light sources, which are critical for the cost-effective implementation of the optical network units (ONUs), and several representative network architectures proposed for WDM PONs. We then review the recent research activities for the realization of high-speed (>10Gb/s) and long-reach WDM PONs. Various fault-monitoring and protection techniques are also reviewed as they can be increasingly important in the future high-capacity WDM PONs.