Conferences related to Demultiplexing

Back to Top

No conferences are currently tagged "Demultiplexing"


Periodicals related to Demultiplexing

Back to Top

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.



Most published Xplore authors for Demultiplexing

Back to Top

Xplore Articles related to Demultiplexing

Back to Top

Duty-cycle Division Multiplexing (DCDM): A Novel and Economical Optical Multiplexing and Electrical Demultiplexing technique for High Speed Fiber Optics Networks

M. K. Abdullah; M. F. Abdalla; A. F. Abas; G. Amouzad 2007 IFIP International Conference on Wireless and Optical Communications Networks, 2007

A new multiplexing and demultiplexing technique based on duty cycle division is proposed, thus the name duty cycle division multiplexing (DCDM). DCDM can be applied in both electrical and optical domains. The new technique allows for more efficient use of time slots as well as the spectrum, taking advantage of both the conventional TDM and FDM. In this paper, three ...


Demonstration of a Self-Synchronized Polyphase Sampling and Demultiplexing Scheme for Radio-Frequency Analog Signals

Carlos Villa; Patrick Kumavor; Eric Donkor IEEE Photonics Technology Letters, 2008

A novel self-synchronizing optoelectronics polyphase scheme for sampling and demultiplexing radio-frequency (RF) signals is demonstrated. One unique feature of this approach is that the optically sampled RF signal always remains in the electrical domain and thus eliminates the need for electrical- to-optical and back to electrical conversions. Furthermore, the simplicity and ease of construction of the scheme readily allows it ...


A versatile multiplexing algorithm exclusively based on the MPEG-2 systems layer

S. Rivas; V. M. Gulias; C. Abalde 2005 1st International Conference on Multimedia Services Access Networks, 2005. MSAN '05., 2005

First Page of the Article ![](/xploreAssets/images/absImages/01489935.png)


A study of wireless parallel data transmission of extremely high data rate up to 6.17 Gbps per channel

Par Hakansson; Allan Huynh; Shaofang Gong 2006 Asia-Pacific Microwave Conference, 2006

In wired data transmissions, a technique to increase the data rate is to transmit data in parallel cables. This paper describes a technique for wireless and parallel data transmissions to increase the data rate to above Gbps. In the proposed system each transceiver pair can handle a data rate of up to 6.17 Gbps per channel using well-proven modulation techniques. ...


Demonstration of Duty Cycle Division Multiplexing with bit error rate estimation

S. M. Basir; G. A. Mahdiraji; A. Malekmohammadi; N. H. Ibrahim; A. F. Abas; M. K. Abdullah Communications (MICC), 2009 IEEE 9th Malaysia International Conference on, 2009

Experimental demonstration of Duty Cycle Division Multiplexing (DCDM) is reported which validates the potential implementation of the system in communication field. We also presented the operation of bit error rate (BER) estimation algorithm, which is specially derived for DCDM. With the increase of link attenuation, the signal amplitude decreased and the pulses are distorted. BER estimation on the received signal ...


More Xplore Articles

Educational Resources on Demultiplexing

Back to Top

eLearning

Duty-cycle Division Multiplexing (DCDM): A Novel and Economical Optical Multiplexing and Electrical Demultiplexing technique for High Speed Fiber Optics Networks

M. K. Abdullah; M. F. Abdalla; A. F. Abas; G. Amouzad 2007 IFIP International Conference on Wireless and Optical Communications Networks, 2007

A new multiplexing and demultiplexing technique based on duty cycle division is proposed, thus the name duty cycle division multiplexing (DCDM). DCDM can be applied in both electrical and optical domains. The new technique allows for more efficient use of time slots as well as the spectrum, taking advantage of both the conventional TDM and FDM. In this paper, three ...


Demonstration of a Self-Synchronized Polyphase Sampling and Demultiplexing Scheme for Radio-Frequency Analog Signals

Carlos Villa; Patrick Kumavor; Eric Donkor IEEE Photonics Technology Letters, 2008

A novel self-synchronizing optoelectronics polyphase scheme for sampling and demultiplexing radio-frequency (RF) signals is demonstrated. One unique feature of this approach is that the optically sampled RF signal always remains in the electrical domain and thus eliminates the need for electrical- to-optical and back to electrical conversions. Furthermore, the simplicity and ease of construction of the scheme readily allows it ...


A versatile multiplexing algorithm exclusively based on the MPEG-2 systems layer

S. Rivas; V. M. Gulias; C. Abalde 2005 1st International Conference on Multimedia Services Access Networks, 2005. MSAN '05., 2005

First Page of the Article ![](/xploreAssets/images/absImages/01489935.png)


A study of wireless parallel data transmission of extremely high data rate up to 6.17 Gbps per channel

Par Hakansson; Allan Huynh; Shaofang Gong 2006 Asia-Pacific Microwave Conference, 2006

In wired data transmissions, a technique to increase the data rate is to transmit data in parallel cables. This paper describes a technique for wireless and parallel data transmissions to increase the data rate to above Gbps. In the proposed system each transceiver pair can handle a data rate of up to 6.17 Gbps per channel using well-proven modulation techniques. ...


Demonstration of Duty Cycle Division Multiplexing with bit error rate estimation

S. M. Basir; G. A. Mahdiraji; A. Malekmohammadi; N. H. Ibrahim; A. F. Abas; M. K. Abdullah Communications (MICC), 2009 IEEE 9th Malaysia International Conference on, 2009

Experimental demonstration of Duty Cycle Division Multiplexing (DCDM) is reported which validates the potential implementation of the system in communication field. We also presented the operation of bit error rate (BER) estimation algorithm, which is specially derived for DCDM. With the increase of link attenuation, the signal amplitude decreased and the pulses are distorted. BER estimation on the received signal ...


More eLearning Resources

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

Back to Top

No standards are currently tagged "Demultiplexing"


Jobs related to Demultiplexing

Back to Top