Conferences related to Demultiplexing

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Periodicals related to Demultiplexing

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Lightwave Technology, Journal of

All aspects of optical guided-wave science, technology, and engineering in the areas of fiber and cable technologies; active and passive guided-wave componentry (light sources, detectors, repeaters, switches, fiber sensors, etc.); integrated optics and optoelectronics; systems and subsystems; new applications; and unique field trials.


Photonics Technology Letters, IEEE

Rapid publication of original research relevant to photonics technology. This expanding field emphasizes laser and electro-optic technology, laser physics and systems, applications, and photonic/ lightwave components and applications. The journal offers short, archival publication with minimal delay.




Xplore Articles related to Demultiplexing

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Doubling of bandwidth utilization using two orthogonal polarizations and power unbalancing in a polarization-division-multiplexing scheme

M. I. Hayee; M. C. Cardakli; A. B. Sahin; A. E. Willner IEEE Photonics Technology Letters, 2001

We propose and experimentally implement a method of demultiplexing two data channels, which were multiplexed using orthogonal polarizations on the same wavelength in a power ratio of 1:2 in order to double the bandwidth utilization in the fiber. Our technique facilitates the straightforward decoding of the two data channels and does not require the demultiplexing of the two orthogonal polarizations ...


Method of improving bandwidth efficiency for OTDM transmission systems

Ming Chen; Bo Lv; Tangjun Li; Muguang Wang; Shuisheng Jian 2009 Asia Communications and Photonics conference and Exhibition (ACP), 2009

Spectrum compression based on filters for improving bandwidth efficiency is presented and demonstrated experimentally in 40Gb/s OTDM system. Even after 100km transmission, demultiplexing and clock recovery can be implemented successfully, and the data rate-to-bandwidth ratio has been improved to 4 times.


On the estimation of a maximal Lyapunov function and domain of attraction determination via a genetic algorithm

Faical Hamidi; Houssem Jerbi Systems, Signals and Devices, 2009. SSD '09. 6th International Multi-Conference on, 2009

The stability and the domain of attraction of autonomous nonlinear systems are important properties to be determined. This paper aims at examining a computational method for estimating the domain of attraction of nonlinear system. This very method is based on the concept of a maximal Lyapunov function candidate. The studied algorithm yields a rational Lyapunov function candidate Vm where its ...


An analytic signal processing approach to digital polyphase transmultiplexing: theory and design

H. Gockler Circuits and Systems, 1988., IEEE International Symposium on, 1988

A novel variety of the polyphase method (PPM) for digital demultiplexing of an L0-channel FDM (frequency-division multiplexed) signal is derived, and a design example of an application onboard a future communications satellite is given. This PPM applies bandpass sampling and is based on the processing of analytic signals by linear-phase FIR (finite-impulse-response) filters with complex coefficients, where at any stage ...


All-optical demultiplexing using fiber cross-phase modulation (XPM) and optical filtering

B. -E. Olsson; D. J. Blumenthal IEEE Photonics Technology Letters, 2001

All-optical demultiplexing of 80-Gb/s data to 10 Gb/s is demonstrated using spectral broadening-induced by cross-phase modulation (XPM) with subsequent optical band-pass filtering. Due to the time derivative effect of XPM, the control pulsewidth can be larger than the bit-slot of the incoming data, and still give a switch window suitable for demultiplexing. Operation at 10/sup -12/ bit-error rate is demonstrated. ...


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Educational Resources on Demultiplexing

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eLearning

Doubling of bandwidth utilization using two orthogonal polarizations and power unbalancing in a polarization-division-multiplexing scheme

M. I. Hayee; M. C. Cardakli; A. B. Sahin; A. E. Willner IEEE Photonics Technology Letters, 2001

We propose and experimentally implement a method of demultiplexing two data channels, which were multiplexed using orthogonal polarizations on the same wavelength in a power ratio of 1:2 in order to double the bandwidth utilization in the fiber. Our technique facilitates the straightforward decoding of the two data channels and does not require the demultiplexing of the two orthogonal polarizations ...


Method of improving bandwidth efficiency for OTDM transmission systems

Ming Chen; Bo Lv; Tangjun Li; Muguang Wang; Shuisheng Jian 2009 Asia Communications and Photonics conference and Exhibition (ACP), 2009

Spectrum compression based on filters for improving bandwidth efficiency is presented and demonstrated experimentally in 40Gb/s OTDM system. Even after 100km transmission, demultiplexing and clock recovery can be implemented successfully, and the data rate-to-bandwidth ratio has been improved to 4 times.


On the estimation of a maximal Lyapunov function and domain of attraction determination via a genetic algorithm

Faical Hamidi; Houssem Jerbi Systems, Signals and Devices, 2009. SSD '09. 6th International Multi-Conference on, 2009

The stability and the domain of attraction of autonomous nonlinear systems are important properties to be determined. This paper aims at examining a computational method for estimating the domain of attraction of nonlinear system. This very method is based on the concept of a maximal Lyapunov function candidate. The studied algorithm yields a rational Lyapunov function candidate Vm where its ...


An analytic signal processing approach to digital polyphase transmultiplexing: theory and design

H. Gockler Circuits and Systems, 1988., IEEE International Symposium on, 1988

A novel variety of the polyphase method (PPM) for digital demultiplexing of an L0-channel FDM (frequency-division multiplexed) signal is derived, and a design example of an application onboard a future communications satellite is given. This PPM applies bandpass sampling and is based on the processing of analytic signals by linear-phase FIR (finite-impulse-response) filters with complex coefficients, where at any stage ...


All-optical demultiplexing using fiber cross-phase modulation (XPM) and optical filtering

B. -E. Olsson; D. J. Blumenthal IEEE Photonics Technology Letters, 2001

All-optical demultiplexing of 80-Gb/s data to 10 Gb/s is demonstrated using spectral broadening-induced by cross-phase modulation (XPM) with subsequent optical band-pass filtering. Due to the time derivative effect of XPM, the control pulsewidth can be larger than the bit-slot of the incoming data, and still give a switch window suitable for demultiplexing. Operation at 10/sup -12/ bit-error rate is demonstrated. ...


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IEEE.tv Videos

No IEEE.tv Videos are currently tagged "Demultiplexing"

IEEE-USA E-Books

  • 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.

  • 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.



Standards related to Demultiplexing

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