Conferences related to Demultiplexing

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2018 IEEE 7th International Conference on Photonics (ICP)

The conference focuses on new technologies in photonics field including fibre optic, lasers, nanophotonics, and biophotonics.


2018 International Conference on Microwave and Millimeter Wave Technology (ICMMT)

ICMMT2018 is intended to provide a broad international forum and nice opportunity for the scientists and engineers to present their new ideas and exchange information on research.


2017 13th International Wireless Communications and Mobile Computing Conference (IWCMC)

IWCMC 2016 will target a wide spectrum of the state-of-the-art as well as emerging topicspertaining to wireless networks, wireless sensors, vehicular communications, and mobilecomputing.


2017 19th International Conference on Transparent Optical Networks (ICTON)

ICTON addresses applications of transparent and all optical technologies in telecommunication networks, systems, and components. ICTON topics are well balanced between basic optics and network engineering. Interactions between those two groups of professionals are a valuable merit of conference. ICTON combines high level invited talks with carefully selected regular submissions.


2017 Asia Communications and Photonics Conference (ACP)

Asia Communications and Photonics Conference (ACP) is currently the largest conference in Asia-Pacific region on optical communications, photonics, optical sensing and relevant optoelectronic technologies. ACP comes from APOC and AOE, and it has been held annually tracing back to 2001.

  • 2016 Asia Communications and Photonics Conference (ACP)

    ACP Track 1: Novel Fibers and Fiber-based DevicesACP Track 2: Optical Transmission Systems, Subsystems and TechnologiesACP Track 3:Network Architectures, Management and ApplicationsACP/POEM Joint Track 4: Optoelectronic devices and IntegrationACP/POEM Joint Track 5: Optical Signal Processing and Microwave PhotonicsACP/POEM Joint Track 6: Photonics for EnergyACP/POEM Joint Track 7: Ultrafast Photonics and Optical StorageACP/PIBM Joint Track 8: Photonics in Biology and Medicine

  • 2014 Asia Communications and Photonics Conference (ACP)

    Optoelectronic Materials, Devices, and IntegrationNovel Fibers and Fiber-based DevicesOptical Transmission Systems, Subsystems, and TechnologiesNetwork Architectures, Management, and ApplicationsBiophotonics and Optical SensorsDisplays, Solid-State Lighting, Photovoltaics, and Energy-Efficient Photonics

  • 2012 Asia Communications and Photonics Conference (ACP 2012)

    Asia Communications and Photonics Conference (ACP) is Asia's premier conference in the Pacific Rim for photonics technologies, including optical communications, biophotonics, nanophotonics, illumination and applications in energy.

  • 2011 Asia Communications and Photonics Conference and Exhibition (ACP 2011)

    Asia Communications and Photonics Conference and Exhibition (ACP) is Asia's premier conference and exhibition in the Pacific Rim for photonics technologies, including optical communications, biophotonics, displays, illumination and applications in energy. The event will take place 13-16 November 2011 in Shanghai, China, at the Shanghai International Convention Center & Oriental Riverside Hotel. The five technical societies -- SPIE, The IEEE Photonics Society, OSA, the Chinese Optical Society, and the Chinese Institute of Communications -- have joined together to co-sponsor the ACP 2011 conference. The Local Organizing Committee with participation from Shanghai Institute of Optics and Fine Mechanics and Shanghai University will be responsible for local organization of the technical conference. Wen Global Solutions will continue as owner of the exhibition.

  • 2010 Asia Communications and Photonics Conference and Exhibition (ACP 2010)

    The Asia Optical Fiber Communication & Optoelectronic Exposition & Conference (AOE) and Asia -Pacific Optical Communications (APOC) have merged their conferences and tradeshow under a new name: Asia Communications and Photonics Conference and Exhibition (ACP).The combined event creates Asia's premier conference and exhibition in the Pacific Rim for photonics technologies, including optical communications, biophotonics, displays, illumination and applications in energy.

  • 2009 Asia Communications and Photonics Conference and Exhibition (ACP 2009)

    The Asia Optical Fiber Communication & Optoelectronic Exposition & Conference (AOE) and Asia-Pacific Optical Communications (APOC) have merged their conferences and tradeshow under a new name: Asia Communications and Photonics Conference and Exhibition (ACP).The combined event creates Asia's premier conference and exhibition in the Pacific Rim for photonics technologies, including optical communications, biophotonics, displays, illumination and applications in energy.

  • 2008 Asia Optical Fiber Communication & Optoelectronic Exposition & Conference (AOE)

    Optical Fiber Communications and Optoelectronics

  • 2007 Asia Optical Fiber Communication & Optoelectronic Exposition & Conference (AOE)

  • 2006 Asia Optical Fiber Communication & Optoelectronic Exposition & Conference (AOE)


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Periodicals related to Demultiplexing

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Advanced Packaging, IEEE Transactions on

The IEEE Transactions on Advanced Packaging has its focus on the modeling, design, and analysis of advanced electronic, photonic, sensors, and MEMS packaging.


Antennas and Propagation, IEEE Transactions on

Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.


Applied Superconductivity, IEEE Transactions on

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission


Communications Letters, IEEE

Covers topics in the scope of IEEE Transactions on Communications but in the form of very brief publication (maximum of 6column lengths, including all diagrams and tables.)


Communications Magazine, IEEE

IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...


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Most published Xplore authors for Demultiplexing

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Xplore Articles related to Demultiplexing

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Designing for beam propagation in periodic and nonperiodic photonic nanostructures: extended Hamiltonian method

Yang Jiao; Shanfui Fan; D. A. B. Miller The 16th Annual Meeting of the IEEE Lasers and Electro-Optics Society, 2003. LEOS 2003., 2003

In this work, we have demonstrated the use of Hamiltonian optics to design and analyze beam propagation in 2-D periodic and nonperiodic photonic nanostructures with slowly varying nonuniformities and also we have extended the Hamiltonian optics method to analyze the width of the beam propagating in these structures. We validated our method with finite difference time domain (FDTD) simulations, and ...


MIMO transmission and reception techniques using three-element ESPAR antennas

Osama N. Alrabadi; Constantinos B. Papadias; Antonis Kalis; Nicola Marchetti; Ramjee Prasad IEEE Communications Letters, 2009

A novel scheme for spatially multiplexing two BPSK signals using a 3-element ESPAR (electronically steerable parasitic array radiator) antenna was reported in. In this paper we first optimize the set of loads controlling the parasitic elements within the transmission mode by maximizing the outage capacity. We also propose different reception techniques for spatially demultiplexing real and complex signals (using the ...


All-optical clock-division operation using a mode-locked fiber laser based on the slow carrier recovery rate of SOA

Lei Xu; B. C. Wang; V. Baby; I. Glesk; P. R. Prucnal; Minyu Yao; Jianfeng Zhang LEOS 2001. 14th Annual Meeting of the IEEE Lasers and Electro-Optics Society (Cat. No.01CH37242), 2001

Summary form only given. In OTDM systems, separate channels at the same frame rate are multiplexed in time domain into a high-speed aggregate data stream. To access the individual time slots, high-speed all-optical clock division can be used to generate optical clock signal at the frame rate for time-domain demultiplexing. We build a numerical model of a mode-locked semiconductor fiber ...


Compact photonic crystal superprism demultiplexers based on diffraction compensation

Babak Momeni; Jiandong Huang; Murtaza Askari; Saeed Mohammadi; Mohammad Soltani; Ali Adibi 2006 Conference on Lasers and Electro-Optics and 2006 Quantum Electronics and Laser Science Conference, 2006

The superprism effect is one of unique dispersive properties of PCs that has been proposed for integrated wavelength demultiplexing. However, diffraction of separated wavelength channels has been a main drawback in such PC demultiplexers. We demonstrate in this talk new compact PC demultiplexers by combining diffraction compensation and the superprism effect with better resolution, smaller size, lower crosstalk, and less ...


Nonlinear spectral demultiplexing in arrays of curved waveguides

I. L. Garanovich; A. A. Sukhorukov; D. N. Neshev; Yu. S. Kivshar CLEO/Europe - EQEC 2009 - European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference, 2009

In this paper, curved nonlinear waveguide arrays are specially designed and numerically nonlinearly-induced symmetry breaking of the output beam profile is demonstrated. This phenomenon facilitates possibilities for tunable all- optical sorting of input ultra-broad spectrum beams into narrow spectrum output channels, realizing demultiplexing of individual spectral components.


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Educational Resources on Demultiplexing

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eLearning

Designing for beam propagation in periodic and nonperiodic photonic nanostructures: extended Hamiltonian method

Yang Jiao; Shanfui Fan; D. A. B. Miller The 16th Annual Meeting of the IEEE Lasers and Electro-Optics Society, 2003. LEOS 2003., 2003

In this work, we have demonstrated the use of Hamiltonian optics to design and analyze beam propagation in 2-D periodic and nonperiodic photonic nanostructures with slowly varying nonuniformities and also we have extended the Hamiltonian optics method to analyze the width of the beam propagating in these structures. We validated our method with finite difference time domain (FDTD) simulations, and ...


MIMO transmission and reception techniques using three-element ESPAR antennas

Osama N. Alrabadi; Constantinos B. Papadias; Antonis Kalis; Nicola Marchetti; Ramjee Prasad IEEE Communications Letters, 2009

A novel scheme for spatially multiplexing two BPSK signals using a 3-element ESPAR (electronically steerable parasitic array radiator) antenna was reported in. In this paper we first optimize the set of loads controlling the parasitic elements within the transmission mode by maximizing the outage capacity. We also propose different reception techniques for spatially demultiplexing real and complex signals (using the ...


All-optical clock-division operation using a mode-locked fiber laser based on the slow carrier recovery rate of SOA

Lei Xu; B. C. Wang; V. Baby; I. Glesk; P. R. Prucnal; Minyu Yao; Jianfeng Zhang LEOS 2001. 14th Annual Meeting of the IEEE Lasers and Electro-Optics Society (Cat. No.01CH37242), 2001

Summary form only given. In OTDM systems, separate channels at the same frame rate are multiplexed in time domain into a high-speed aggregate data stream. To access the individual time slots, high-speed all-optical clock division can be used to generate optical clock signal at the frame rate for time-domain demultiplexing. We build a numerical model of a mode-locked semiconductor fiber ...


Compact photonic crystal superprism demultiplexers based on diffraction compensation

Babak Momeni; Jiandong Huang; Murtaza Askari; Saeed Mohammadi; Mohammad Soltani; Ali Adibi 2006 Conference on Lasers and Electro-Optics and 2006 Quantum Electronics and Laser Science Conference, 2006

The superprism effect is one of unique dispersive properties of PCs that has been proposed for integrated wavelength demultiplexing. However, diffraction of separated wavelength channels has been a main drawback in such PC demultiplexers. We demonstrate in this talk new compact PC demultiplexers by combining diffraction compensation and the superprism effect with better resolution, smaller size, lower crosstalk, and less ...


Nonlinear spectral demultiplexing in arrays of curved waveguides

I. L. Garanovich; A. A. Sukhorukov; D. N. Neshev; Yu. S. Kivshar CLEO/Europe - EQEC 2009 - European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference, 2009

In this paper, curved nonlinear waveguide arrays are specially designed and numerically nonlinearly-induced symmetry breaking of the output beam profile is demonstrated. This phenomenon facilitates possibilities for tunable all- optical sorting of input ultra-broad spectrum beams into narrow spectrum output channels, realizing demultiplexing of individual spectral components.


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IEEE.tv Videos

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IEEE-USA E-Books

  • The IAX Protocol at a Glance

    This chapter contains sections titled: What Does IAX Stand For? Is IAX Specific to the Asterisk Platform? What is the Difference between IAX2 and IAX? Why another New VoIP Protocol? How Does IAX Solve VoIP Pains? How is Calls Multiplexing Achieved? And What About Demultiplexing? What Port Number Does IAX Use? What Transport Protocol Does IAX Use? Is IAX a Reliable Protocol? How Does IAX Ensure Reliability? Is there an IAX Registration Procedure? Does IAX Registration Differ from SIP Registration? How Are Media Streams Transported in IAX? Is CODEC Negotiation Supported by IAX? Is On‐Fly CODEC Change Possible During a Call? IAX: a Path‐Coupled or Decoupled Protocol? Can IAX be Aware of the Status of the Network Load? What About Security? Could IAX Devices Be Managed? Is Firmware Version Updating Supported by IAX? Can IAX Be Extended to Offer New Features? How is an IAX Resource Identified? What Does an IAX URI Look Like? Is it Possible to Set a Call Involving Several IAX Servers? Is it Possible to Discover the Location of an IAX Resource? What Is DUNDi? What Is TRIP? What Is ENUM? References Further Reading

  • A 10Gb/s CMOS Clock and Data Recovery Circuit with a HalfRate Linear Phase Detector

    A 10-Gb/s phase-locked clock and data recovery circuit incorporates an interpolating voltage-controlled oscillator and a half-rate phase detector. The phase detector provides a linear characteristic while retiming and demultiplexing the data with no systematic phase offset. Fabricated in a 0.18-µm CMOS technology in an area of 1.1 x 0.9 mm2, the circuit exhibits an RMS jitter of 1 ps, a peak-to-peak jitter of 14.5 ps in the recovered clock, and a bit-error rate of 1.28 x 10-6, with random data input of length 223 - 1. The power dissipation is 72 mW from a 2.5-V supply.

  • IAX Connectivity Considerations

    This chapter contains sections titled: Introduction IAX Transport Protocol IAX Port Number IAX Call Multiplexing and Demultiplexing IAX Reliability Mechanism Authentication and Encryption Conclusion References Further Reading

  • A Monolithic 480 Mb/s Parallel AGC/Decision/ClockRecovery Circuit in 1.2m CMOS

    A parallel architecture for high-data-rate AGC/decision/clock-recovery circuit, recovering digital NRZ data in optical-fiber receivers, is described. Improvement over traditional architecture in throughput is achieved through the use of parallel signal paths. An experimental prototype, fabricated in a 1.2-µm double-poly double-metal n-well CMOS process, achieves a maximum bit rate of 480 Mb/s. The chip contains variable gain amplifiers, clock recovery, and demultiplexing circuits. It yields a HER of 10- 11 with an 18 mV p-p differential input signal. The power consumption is 900 mW from a single 5 V supply.



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