GSM

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GSM (Global System for Mobile Communications, originally Groupe Spécial Mobile), is a standard set developed by the European Telecommunications Standards Institute (ETSI) to describe technologies for second generation digital cellular networks. (Wikipedia.org)






Conferences related to GSM

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2014 IEEE 25th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)

The International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC) is an annual academic conference in the wireless research arena organized by the Institute of Electrical and Electronics Engineers' Communications Society. This event has emerged as one of the Communications Society flagship conferences in telecommunications with a long history of bringing together academia, industry and regulatory bodies.


2014 IEEE 80th Vehicular Technology Conference (VTC Fall)

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 IEEE 78th Vehicular Technology Conference (VTC Fall)

    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.

  • 2012 IEEE Vehicular Technology Conference (VTC Fall)

    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.

  • 2011 IEEE Vehicular Technology Conference (VTC Fall)

    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.

  • 2010 IEEE Vehicular Technology Conference (VTC 2010-Fall)

    TBD


2013 European Wireless Conference (EW)

TRANSMISSION TECHNIQUES AND SIGNAL PROCESSINGSUSTAINABLE AND ADVANCED WIRELESS TECHNOLOGYWIRELESS NETWORKINGM2M and WS&ANRADIO CHANNEL AND RF SUBSYSTEMS

  • 2010 European Wireless Conference (EW)

    The goal of EW2010 conference is to provide a forum for researchers and developers from universities, research labs, and companies to share new findings and discuss challenges about wireless and mobile networks. The conference will include presentations of theoretical and experimental achievements, innovative wireless and mobile systems, prototypes, and standardization.

  • 2009 European Wireless Conference (EW)

    The annual European Wireless (EW) conference is one of the leading conferences in the wireless research area and has a long history back to 1998. Even though it started as a European conference, today the scope of the conference has evolved to cover a wide range of global issues at the core of wireless and mobile research.

  • 2008 European Wireless Conference (EW)

    Wireless Communications: 1) Transmission Techniques and Signal Processing 2) Radio Channel and RF Subsystem 3) Radio Network Aspects 4) Radio Communication Systems and Technology


2012 7th International ICST Conference on Communications and Networking in China (CHINACOM)

The aim of CHINACOM is to bring together Chinese and international researchers and practitioners in communications, networking and information technologies to showcase the latest advances in these areas. The central theme of ChinaCom 2012 is "Shaping tomorrow with communications and networking technologies."


2012 IEEE International Conference on Electro/Information Technology (EIT 2012)

This conference provides a high profile forum for disseminating the latest research on electrical and computer engineering with application in information technology. It brings together academic researchers, industrial scientists, and IT professionals from electrical engineering, computer engineering, computer science, and informatics to share late-breaking advances of these interdisciplinary fields.

  • 2011 IEEE International Conference on Electro/Information Technology (EIT 2011)

    The 2011 Electro/Information Technology Conference, Sponsored by the IEEE Region 4 (R4), is focused on basic/applied research results in the fields of electrical and computer engineering as they relate to IT and its applications. The purpose of the conference is to provide a forum for researchers and industrial investigators to share principles, practices, concepts, and experiences and exchange ideas and discuss developments.

  • 2010 IEEE International Conference on Electro/Information Technology (EIT 2010)

    The 2010 Electro/Information Technology International Conference, sponsored by the IEEE Region 4, is focused on basic/applied research in the fields of electrical and computer engineering as they relate to information technology and its applications. This is an opportunity for professional development through workshops and tutorials.

  • 2009 IEEE International Conference on Electro/Information Technology (eit2009)

    The 2009 Electro/Information Technology Conference, sponsored by the IEEE Region 4 (R4), is focused on basic/applied research results in the fields of electrical and computer engineering as they relate to Information Technology and its applications. The purpose of the conference is to provide a forum for researchers and industrial investigators to exchange ideas and discuss developments in this growing field.


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Periodicals related to GSM

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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 ...


Electromagnetic Compatibility, IEEE Transactions on

EMC standards; measurement technology; undesired sources; cable/grounding; filters/shielding; equipment EMC; systems EMC; antennas and propagation; spectrum utilization; electromagnetic pulses; lightning; radiation hazards; and Walsh functions


Wireless Communications, IEEE

IEEE Wireless Communications Magazine was the number four most-cited journal in telecommunications and the number nineteen 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 deals with all technical and policy issues related to personalization, location-independent communications in ...




Xplore Articles related to GSM

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Computation of radar cross section of waveguide arrays

K. K. Chan; K. Chadwick Antennas and Propagation Society International Symposium, 1999. IEEE, 1999

A review of the open literature shows that not much information has been published on the radar cross-section (RCS) of waveguide arrays. An accurate method for the computation of the RCS of active waveguide arrays is presented. It combines the plane wave angular spectrum method used by Stalzer et al. (1978) to find the active element radiation pattern of an ...


A Widlar-bandgap based intermediate-frequency voltage-controlled oscillator for GSM/DCS transceiver ICs

A. Dec; K. Suyama; Y. Kimura; T. Ichinose Radio Frequency Integrated Circuits (RFIC) Symposium, 2003 IEEE, 2003

This paper presents an intermediate-frequency voltage-controlled oscillator using a Widlar-bandgap for stable operation over supply and temperature variations without degrading the phase noise performance. The design is fabricated in a 0.35 μm SOI BiCMOS process and is packaged in a QFN24 plastic package. The VCO operates at 1 GHz with a tuning range of 250 MHz and achieves a phase ...


Analysis of a new channel access method for home base station

M. I. Silventoinen; M. Kuusela; P. A. Ranta Universal Personal Communications, 1996. Record., 1996 5th IEEE International Conference on, 1996

This paper addresses the problem of allocating frequencies in a GSM-based home base station (HBS) system. A novel solution called total frequency hopping (TFH) is presented in order to overcome the frequency allocation and the inter-HBS synchronisation problems. The HBS system will use the same frequency band as the overlaying GSM network and thus creates more interference to it. The ...


Clutter based Enhance Error Rate Table (CERT) for error correction in location estimation of mobile nodes

A. Muhammad; Patrice Boursier; M. S. Mazliham; M. Shahrulniza; Jawahir Che Mustapha Yusuf Communication Software and Networks (ICCSN), 2011 IEEE 3rd International Conference on, 2011

Receive Signal Strength (RSS) and Available Signal Strength (ASS) are the primary parameters used in location estimation of a mobile node. These parameters come with error because of attenuation, atmospheric absorption and other external factors. All the factors indeed lead towards the inaccurate location estimation. This research work is a continuation of our previous research in which we proposed ERT ...


A smartphone SP10T T/R switch in 180-nm SOI CMOS with 8kV+ ESD protection by co-design

X. Shawn Wang; Xin Wang; Fei Lu; Li Wang; Rui Ma; Zongyu Dong; Li Sun; Albert Wang; C. Patrick Yue; Dawn Wang; Alvin Joseph Proceedings of the IEEE 2013 Custom Integrated Circuits Conference, 2013

This paper reports the first 8kV+ ESD-protected SP10T transmit/receive (T/R) antenna switch for quad-band (0.85/0.9/1.8/1.9-GHz) GSM and multiple W-CDMA smartphones fabricated in an 180-nm SOI CMOS. A novel physics-based switch-ESD co-design methodology is applied to ensure full-chip optimization for a SP10T test chip and its ESD protection circuit simultaneously.


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Educational Resources on GSM

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eLearning

Computation of radar cross section of waveguide arrays

K. K. Chan; K. Chadwick Antennas and Propagation Society International Symposium, 1999. IEEE, 1999

A review of the open literature shows that not much information has been published on the radar cross-section (RCS) of waveguide arrays. An accurate method for the computation of the RCS of active waveguide arrays is presented. It combines the plane wave angular spectrum method used by Stalzer et al. (1978) to find the active element radiation pattern of an ...


A Widlar-bandgap based intermediate-frequency voltage-controlled oscillator for GSM/DCS transceiver ICs

A. Dec; K. Suyama; Y. Kimura; T. Ichinose Radio Frequency Integrated Circuits (RFIC) Symposium, 2003 IEEE, 2003

This paper presents an intermediate-frequency voltage-controlled oscillator using a Widlar-bandgap for stable operation over supply and temperature variations without degrading the phase noise performance. The design is fabricated in a 0.35 μm SOI BiCMOS process and is packaged in a QFN24 plastic package. The VCO operates at 1 GHz with a tuning range of 250 MHz and achieves a phase ...


Analysis of a new channel access method for home base station

M. I. Silventoinen; M. Kuusela; P. A. Ranta Universal Personal Communications, 1996. Record., 1996 5th IEEE International Conference on, 1996

This paper addresses the problem of allocating frequencies in a GSM-based home base station (HBS) system. A novel solution called total frequency hopping (TFH) is presented in order to overcome the frequency allocation and the inter-HBS synchronisation problems. The HBS system will use the same frequency band as the overlaying GSM network and thus creates more interference to it. The ...


Clutter based Enhance Error Rate Table (CERT) for error correction in location estimation of mobile nodes

A. Muhammad; Patrice Boursier; M. S. Mazliham; M. Shahrulniza; Jawahir Che Mustapha Yusuf Communication Software and Networks (ICCSN), 2011 IEEE 3rd International Conference on, 2011

Receive Signal Strength (RSS) and Available Signal Strength (ASS) are the primary parameters used in location estimation of a mobile node. These parameters come with error because of attenuation, atmospheric absorption and other external factors. All the factors indeed lead towards the inaccurate location estimation. This research work is a continuation of our previous research in which we proposed ERT ...


A smartphone SP10T T/R switch in 180-nm SOI CMOS with 8kV+ ESD protection by co-design

X. Shawn Wang; Xin Wang; Fei Lu; Li Wang; Rui Ma; Zongyu Dong; Li Sun; Albert Wang; C. Patrick Yue; Dawn Wang; Alvin Joseph Proceedings of the IEEE 2013 Custom Integrated Circuits Conference, 2013

This paper reports the first 8kV+ ESD-protected SP10T transmit/receive (T/R) antenna switch for quad-band (0.85/0.9/1.8/1.9-GHz) GSM and multiple W-CDMA smartphones fabricated in an 180-nm SOI CMOS. A novel physics-based switch-ESD co-design methodology is applied to ensure full-chip optimization for a SP10T test chip and its ESD protection circuit simultaneously.


More eLearning Resources

IEEE.tv Videos

No IEEE.tv Videos are currently tagged "GSM"

IEEE-USA E-Books

  • The Layered and MultiCarrier Radio Access Design

    This chapter contains sections titled: Introduction Service Interaction Analysis Layered Cell Architectures References

  • SecondGeneration Mobile Systems

    This chapter contains sections titled: The Wireless Communications Scene Global System for Mobile Communications  -  GSM

  • LowPower LowPhaseNoise Differentially Tuned Quadrature VCO Design in Standard CMOS

    This paper describes the design and optimization or voltage controlled oscillators with quadrature outputs. Systematic design or fully integrated LC- VCOs with a high inductance tank leads to a cross-coupled double core LC-VCO as the optimal solution in tenns or power consumption. Futhennore, a novel fully differential frequency tuning concept is introduced to ease high integration. The concepts are verified with a 0.25-µm standard CMOS fully integrated quadrature voltage-controlled oscillator (VCO) for zero- or low-IF DCS1800, DECT, or GSM receivers. At 2.5-V power supply voltage and a total power dissipation of 20 mW, the quadrature VCO features a worst-case phase noise of -143 dBc/Hz at 3-MHz frequency offset over the tuning range. The oscillator is tuned from 1.71 to 1.99 GHz through a differential nMOS/pMOS varactor input.

  • Receivers

    This chapter contains sections titled: Receiver RF Design Considerations for Wireless Communications Systems Design and Performance of Low-Current GaAs MMIC's for L-Band Front-End Applications Ultra-Low DC Power Consumptions in Monolithic L-Band Components GaAs Monolithic 1.5-2.5 GHz Image Rejection Receiver Low Power GaAs ICS for Mobile Communication Equipment Ultra Low Power Low Noise Amplifiers for Wireless Communications Low Current GaAs Integrated Down Converter for Portable Communication Applications X-Band Monolithic Series Feedback LNA An RF Front-End for Digital Mobile Radio A Si Bipolar Monolithic RF Bandpass Amplifier A 1-GHz BiCMOS RF Front-End IC A One-Chip 2GHz Single Superhet Receiver for 2Mb/s FSK Radio Communication A Low-Voltage Silicon Bipolar RF Front-End for PCN Receiver Applications A Highly Linear 1-GHz CMOS Downconversion Mixer A 1.5 GHz Highly Linear CMOS Downconversion Mixer A Fully Integrated 900 MHz CMOS Double Quadrature Downconverter Design Techniques for 1GHz Downconversion ICs Fabricated in a 1 ?>m 13 GHz BiCMOS Process A 1 GHz CMOS RF Front-End IC for a Direct-Conversion Wireless Receiver A 100 MHz IF Amplifier/Quadrature Demodulator for GSM Cellular Radio Mobile Terminals A Cellular Analog Front End with a 98dB IF Receiver A 270-kb/s 35-m W Modulator IC for GSM Cellular Radio Hand-Held Terminals A CMOS Limiting Amplifier and Signal-Strength Indicator Characteriation of a Microwave Silicon single-Chip Direct Conversion RF Transceiver A Single-Chip GaAs RF Transceiver for 1.9-GHz Digital Mobile Communication Systems A 1.9-GHz Single Chip IF Transceiver for Digital Cordless Phones A Direct-Conversion Receiver for 900 MHz(ISM Band)Spread-Spectrum Digital Cordless Telephone A 2.7-V 900-MHz CMOS LNA and Mixer A 12 mW Wide Dynamic Range CMOS Front-End for a Portable GPS Receiver

  • Utilization of GSM Measurements for UMTS Site Overlay

    This chapter contains sections titled: Introductory Considerations Using GSM Measurements to Characterize Path Losses in UMTS Neighbor-Cell Overlap and Soft Handover Overhead Measurement Interference and Pilot Pollution Detection References

  • A 2V 900MHz Monolithic CMOS DualLoop Frequency Synthesizer for GSM Receivers

    A 900-MHz monolithic CMOS dual-loop frequency synthesizer suitable for GSM receivers is presented. Implemented in a 0.5µm CMOS technology and at a 2-V supply voltage, the dual-loop frequency synthesizer occupies a chip area of 2.64 mm2 and consumes a low power of 34 mW.The measured phase noise of the synthesizer is -121.8 dBc/Hz at 600-kHz offset, and the measured spurious levelsare -79.5 and -82.0 dBc at 1.6 and 11.3MHz offset, respectively.

  • No title

    Periodic structures are of great importance in electromagnetics due to their wide range of applications such as frequency selective surfaces (FSS), electromagnetic band gap (EBG) structures, periodic absorbers, meta-materials, and many others. The aim of this book is to develop efficient computational algorithms to analyze the scattering properties of various electromagnetic periodic structures using the finite-difference time-domain periodic boundary condition (FDTD/PBC) method. A new FDTD/PBC-based algorithm is introduced to analyze general skewed grid periodic structures while another algorithm is developed to analyze dispersive periodic structures. Moreover, the proposed algorithms are successfully integrated with the generalized scattering matrix (GSM) technique, identified as the hybrid FDTD-GSM algorithm, to efficiently analyze multilayer periodic structures. All the developed algorithms are easy to implement and are efficient in both computational time and memory usage. These lgorithms are validated through several numerical test cases. The computational methods presented in this book will help scientists and engineers to investigate and design novel periodic structures and to explore other research frontiers in electromagnetics. Table of Contents: Introduction / FDTD Method and Periodic Boundary Conditions / Skewed Grid Periodic Structures / Dispersive Periodic Structures / Multilayered Periodic Structures / Conclusions

  • Multiuser Communications

    This chapter contains sections titled: Introduction Information Theoretic Overview Orthogonal Resource Partitioning Non-Orthogonal Resource Partitioning Spectral Efficiency and Performance Issues Practical Illustrations: GSM, CDMA and Wireless LAN Summary Problems

  • Channel Models

    This chapter reviews the most common models for wireless propagation channels. For the prediction of the pathloss, the Okomura-Hata model, the COST-231 Hata model, and the Walfish-Ikegami model are commonly used for outdoor environments, while the Motley-Keenan model is used for indoor. For the delay dispersion, tapped delay line models are commonly used. The COST 207 models (also known as GSM models) were introduced in the 1980s; later the ITU models were used in the context of third-generation cellular systems. The Saleh- Valenzuela model is particularly popular for indoor environments. More recent models that describe also angular dispersion are the COST 259 Directional Channel Model, the 3GPP SCM (spatial channel model), the IEEE 802.11n channel model, and the Winner model (also known as ITU IMT-Advanced model); the IEEE 802.15.4a model is intended for ultra-wideband channels. All those models are described in the chapter. We furthermore discuss alternative generic modeling methods, including geometry-based stochastic channel models (GSCM) and deterministic models such as ray tracing and ray launching.

  • Regular Pulse Excited Coding

    This chapter contains sections titled: Theoretical Background The 13 kbps RPE-LTP GSM Speech Encoder The 13 kbps RPE-LTP GSM Speech Decoder Bit-sensitivity of the 13 kbps GSM RPE-LTP Codec Application Example: A Tool-box Based Speech Transceiver Chapter Summary



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