Conferences related to Time division multiplexing

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2013 IEEE 77th Vehicular Technology Conference (VTC Spring)

VTC will bring together individuals from academia, industry and government to discuss and exchange ideas in the fields of mobile, wireless and vehicular technology as well as the applications and services associated with such technology. Features include world-class plenary speakers, panel sessions, tutorials, and both technical and application-based sessions.


2013 Sixth International Workshop on Signal Design and its Applications in Communications (IWSDA)

The aim of the workshop is to foster fruitful interactions among signal designers, coding theorists, cryptographic researchers, and communications practitioners from all over the world.

  • 2011 Fifth International Workshop on Signal Design and its Applications in Communications (IWSDA)

    New Concepts in Signal Design, Discrete Signal Designs and Characteristics, Theoretical Signal Bounds, Signal design and Finite Fields/Rings, Randomness of Signals, Multi-dimensional Signal Design, Signal Acquisition and Tracking, error control coding, cryptography, positioning systems, Spread-Spectrum techniques, CDMA systems Applications, DSP/ASIC/FPGA implementation issues, etc

  • 2009 Fourth International Workshop on Signal Design and its Applications in Communications (IWSDA)

    The aim of these workshops is to foster fruitful interactions among signal designers, coding theorists, cryptographic researchers, and communications practitioners from all over the world.

  • 2007 Third International Workshop on Signal Design and its Applications in Communications (IWSDA)



Periodicals related to Time division multiplexing

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Communications, IEEE Transactions on

Telephone, telegraphy, facsimile, and point-to-point television, by electromagnetic propagation, including radio; wire; aerial, underground, coaxial, and submarine cables; waveguides, communication satellites, and lasers; in marine, aeronautical, space and fixed station services; repeaters, radio relaying, signal storage, and regeneration; telecommunication error detection and correction; multiplexing and carrier techniques; communication switching systems; data communications; and communication theory. In addition to the above, ...


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.


Selected Areas in Communications, IEEE Journal on

All telecommunications, including telephone, telegraphy, facsimile, and point-to-point television, by electromagnetic propagation, including radio; wire; aerial, underground, coaxial, and submarine cables; waveguides, communication satellites, and lasers; in marine, aeronautical, space, and fixed station services; repeaters, radio relaying, signal storage, and regeneration; telecommunication error detection and correction; multiplexing and carrier techniques; communication switching systems; data communications; communication theory; and wireless communications.


Selected Topics in Quantum Electronics, IEEE Journal of

40% devoted to special issues published in J. Quantum Electronics. Other topics: solid-state lasers, fiber lasers, optical diagnostics for semi-conductor manufacturing, and ultraviolet lasers and applications.



Most published Xplore authors for Time division multiplexing

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Xplore Articles related to Time division multiplexing

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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 ...


A 45nm CMOS near-field communication radio with 0.15A/m RX sensitivity and 4mA current consumption in card emulation mode

Yogesh Darwhekar; Evgeniy Braginskiy; Koby Levy; Abhishek Agrawal; Vikas Singh; Ronen Issac; Ofer Blonskey; Ofer Adler; Yoav Benkuzari; Matan Ben-Shachar; Srikanth Manian; Apu Sivadas; Subhashish Mukherjee; Gangadhar Burra; Nir Tal; Yariv Shlivinski; Guy Bitton; Sreekiran Samala 2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers, 2013

Near Field Communication (NFC) is an emerging technology that is penetrating the mobile phone market rapidly. Compliance to multiple NFC standards [1-3] requires designs to support wide dynamic range of field (0.15 to 12A/m), multiple data rates (1.65 to 848Kb/s), various modulation transition times (0.01 to 8usec), wide range of modulation indices (8 to 100%) and line coding techniques (Manchester, ...


Highly Scalable Amplified Hybrid TDM/DWDM Array Architecture for Interferometric Fiber-Optic Sensor Systems

Yi Liao; Ed Austin; Philip J. Nash; Stuart A. Kingsley; David J. Richardson Journal of Lightwave Technology, 2013

We present a distributed amplified hybrid dense wavelength division multiplexing (DWDM) and time division multiplexing (TDM) array architecture for large scale interferometric fiber-optic sensor array systems. This architecture employs a distributed Erbium doped fiber amplifier (EDFA) scheme to decrease the distribution loss among multiplexed wavelengths, and employs TDM at each wavelength to increase the total number of sensors that can ...


Optimal Resource Sharing for Integration of Unicast and Multicast Data on TDM Radio Channels

Vladimir Vukadinovic; Gunnar Karlsson Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks and Workshops, 2007. WiOpt 2007. 5th International Symposium on, 2007

Future integration of multicast and unicast data on time-slotted radio channels will require efficient resource sharing mechanisms. These mechanisms need to be optimized to provide the best possible performance for the users. In this paper, we consider the case where members of a video streaming multicast group share the common resources with unicast users on a HSDPA-like TDM channel. We ...


Wavelength division multiplexing: ultra high speed fiber optics

J. R. Kiniry IEEE Internet Computing, 1998

The global telecommunications and networking backbone contains millions of kilometers of fiber-optic cabling, but we use only one ten-thousandth of the potential bandwidth of those cables. One reason is that a single converter from electrical to optical signals can only make use of a small amount of the optical spectrum, limiting the achievable bandwidth to about 2.5 Gbit/s. Wavelength division ...


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Educational Resources on Time division multiplexing

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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 ...


A 45nm CMOS near-field communication radio with 0.15A/m RX sensitivity and 4mA current consumption in card emulation mode

Yogesh Darwhekar; Evgeniy Braginskiy; Koby Levy; Abhishek Agrawal; Vikas Singh; Ronen Issac; Ofer Blonskey; Ofer Adler; Yoav Benkuzari; Matan Ben-Shachar; Srikanth Manian; Apu Sivadas; Subhashish Mukherjee; Gangadhar Burra; Nir Tal; Yariv Shlivinski; Guy Bitton; Sreekiran Samala 2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers, 2013

Near Field Communication (NFC) is an emerging technology that is penetrating the mobile phone market rapidly. Compliance to multiple NFC standards [1-3] requires designs to support wide dynamic range of field (0.15 to 12A/m), multiple data rates (1.65 to 848Kb/s), various modulation transition times (0.01 to 8usec), wide range of modulation indices (8 to 100%) and line coding techniques (Manchester, ...


Highly Scalable Amplified Hybrid TDM/DWDM Array Architecture for Interferometric Fiber-Optic Sensor Systems

Yi Liao; Ed Austin; Philip J. Nash; Stuart A. Kingsley; David J. Richardson Journal of Lightwave Technology, 2013

We present a distributed amplified hybrid dense wavelength division multiplexing (DWDM) and time division multiplexing (TDM) array architecture for large scale interferometric fiber-optic sensor array systems. This architecture employs a distributed Erbium doped fiber amplifier (EDFA) scheme to decrease the distribution loss among multiplexed wavelengths, and employs TDM at each wavelength to increase the total number of sensors that can ...


Optimal Resource Sharing for Integration of Unicast and Multicast Data on TDM Radio Channels

Vladimir Vukadinovic; Gunnar Karlsson Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks and Workshops, 2007. WiOpt 2007. 5th International Symposium on, 2007

Future integration of multicast and unicast data on time-slotted radio channels will require efficient resource sharing mechanisms. These mechanisms need to be optimized to provide the best possible performance for the users. In this paper, we consider the case where members of a video streaming multicast group share the common resources with unicast users on a HSDPA-like TDM channel. We ...


Wavelength division multiplexing: ultra high speed fiber optics

J. R. Kiniry IEEE Internet Computing, 1998

The global telecommunications and networking backbone contains millions of kilometers of fiber-optic cabling, but we use only one ten-thousandth of the potential bandwidth of those cables. One reason is that a single converter from electrical to optical signals can only make use of a small amount of the optical spectrum, limiting the achievable bandwidth to about 2.5 Gbit/s. Wavelength division ...


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