IEEE Organizations related to Mimo Communication

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Conferences related to Mimo Communication

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2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting

The joint meeting is intended to provide an international forum for the exchange of information on state of the art research in the area of antennas and propagation, electromagnetic engineering and radio science


GLOBECOM 2020 - 2020 IEEE Global Communications Conference

IEEE Global Communications Conference (GLOBECOM) is one of the IEEE Communications Society’s two flagship conferences dedicated to driving innovation in nearly every aspect of communications. Each year, more than 2,900 scientific researchers and their management submit proposals for program sessions to be held at the annual conference. After extensive peer review, the best of the proposals are selected for the conference program, which includes technical papers, tutorials, workshops and industry sessions designed specifically to advance technologies, systems and infrastructure that are continuing to reshape the world and provide all users with access to an unprecedented spectrum of high-speed, seamless and cost-effective global telecommunications services.


ICASSP 2020 - 2020 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)

The ICASSP meeting is the world's largest and most comprehensive technical conference focused on signal processing and its applications. The conference will feature world-class speakers, tutorials, exhibits, and over 50 lecture and poster sessions.


2019 13th European Conference on Antennas and Propagation (EuCAP)

The conference provides an overview of the state of the art developments and innovations in Antennas, Propagation, and Measurements, highlighting the latest requirements for future applications.


2019 21st International Conference on Advanced Communication Technology (ICACT)

With technically co-sponsored by IEEE ComSoc(Communications Society), IEEE ComSocCISTC(Communications & Information Security Technical Community), and IEEE ComSocONTC(Optical Networking Technical Community), the ICACT(International Conference onAdvanced Communications Technology) Conference has been providing an open forum forscholars, researchers, and engineers to the extensive exchange of information on newlyemerging technologies, standards, services, and applications in the area of the advancedcommunications technology. The conference official language is English. All the presentedpapers have been published in the Conference Proceedings, and posted on the ICACT Websiteand IEEE Xplore Digital Library since 2004. The honorable ICACT Out-Standing Paper Awardlist has been posted on the IEEE Xplore Digital Library also, and all the Out-Standing papersare subjected to the invited paper of the "ICACT Transactions on the Advanced Communications Technology" Journal issue by GIRI

  • 2018 20th International Conference on Advanced Communication Technology (ICACT)

    With technically co-sponsored by IEEE ComSoc(Communications Society), IEEE ComSoc CISTC(Communications & Information Security Technical Community), and IEEE ComSoc ONTC(Optical Networking Technical Community), the ICACT(International Conference on Advanced Communications Technology) Conference has been providing an open forum for scholars, researchers, and engineers to the extensive exchange of information on newly emerging technologies, standards, services, and applications in the area of the advanced communications technology. The conference official language is English. All the presented papers have been published in the Conference Proceedings, and posted on the ICACT Website and IEEE Xplore Digital Library since 2004. The honorable ICACT Out-Standing Paper Award list has been posted on the IEEE Xplore Digital Library also, and all the Out-Standing papers are subjected to the invited paper of the "ICACT Transactions on the Advanced Communications Technology" Journal issued by GIRI

  • 2017 19th International Conference on Advanced Communication Technology (ICACT)

    With technically co-sponsored by IEEE ComSoc(Communications Society), IEEE ComSoc CISTC(Communications & Information Security Technical Community), and IEEE ComSoc ONTC(Optical Networking Technical Community), the ICACT(International Conference on Advanced Communications Technology) Conference has been providing an open forum for scholars, researchers, and engineers to the extensive exchange of information on newly emerging technologies, standards, services, and applications in the area of the advanced communications technology. The conference official language is English. All the presented papers have been published in the Conference Proceedings, and posted on the ICACT Website and IEEE Xplore Digital Library since 2004. The honorable ICACT Out-Standing Paper Award list has been posted on the IEEE Xplore Digital Library also, and all the Out-Standing papers are subjected to the invited paper of the "ICACT Transactions on the Advanced Communications Technology" Journal issued by

  • 2016 18th International Conference on Advanced Communication Technology (ICACT)

    With technically co-sponsored by IEEE ComSoc(Communications Society), IEEE ComSoc CISTC(Communications & Information Security Technical Community), and IEEE ComSoc ONTC(Optical Networking Technical Community), the ICACT(International Conference on Advanced Communications Technology) Conference has been providing an open forum for scholars, researchers, and engineers to the extensive exchange of information on newly emerging technologies, standards, services, and applications in the area of the advanced communications technology. The conference official language is English. All the presented papers have been published in the Conference Proceedings, and posted on the ICACT Website and IEEE Xplore Digital Library since 2004. The honorable ICACT Out-Standing Paper Award list has been posted on the IEEE Xplore Digital Library also, and all the Out-Standing papers are subjected to the invited paper of the "ICACT Transactions on the Advanced Communications Technology" Journal issued by GiRI.

  • 2015 17th International Conference on Advanced Communication Technology (ICACT)

    With technically co-sponsored by IEEE ComSoc(Communications Society), IEEE ComSoc CISTC(Communications & Information Security Technical Community), and IEEE ComSoc ONTC(Optical Networking Technical Community), the ICACT(International Conference on Advanced Communications Technology) Conference has been providing an open forum for scholars, researchers, and engineers to the extensive exchange of information on newly emerging technologies, standards, services, and applications in the area of the advanced communications technology. The conference official language is English. All the presented papers have been published in the Conference Proceedings, and posted on the ICACT Website and IEEE Xplore Digital Library since 2004. The honorable ICACT Out-Standing Paper Award list has been posted on the IEEE Xplore Digital Library also, and all the Out-Standing papers are subjected to the invited paper of the "ICACT Transactions on the Advanced Communications Technology" Journal issued by GiRI.

  • 2014 16th International Conference on Advanced Communication Technology (ICACT)

    Technology, service, architecture, strategy, and policy in newly emerging system, standard, service, and variety of application on the area of telecommunications. ICACT 2014 provides an open forum for scholar, researcher, engineer, policy maker, network planner, and service provider in the advanced communication technologies.

  • 2013 15th International Conference on Advanced Communication Technology (ICACT)

    Technology, standard, service, architecture, strategy, and policy in newly emerging systems and a variety of applications in the area of communications. ICACT2013 provides an open forum for scholar, researcher, engineer, policy maker, network planner, and service provider in the advanced communications technologies.

  • 2012 14th International Conference on Advanced Communication Technology (ICACT)

    Technology, service, architecture, strategy, and policy in newly emerging systems, standards, service, and a variety of applications in the area of telecommunicatons. ICACT 2012 provides an open forum for scholars, researchers, engineers, policy makers, network planners, and service providers in the advanced communication technologies.

  • 2011 13th International Conference on Advanced Communication Technology (ICACT)

    International Conference on Advanced Communication Technology (ICACT) provides an open forum for researchers, engineers, policy, network planners, and service providers in the advanced communication technologies. Extensive exchange of information will be provided on newly emerging systems, standards, services, and variety of applications on the area of telecommunications.

  • 2010 12th International Conference on Advanced Communication Technology (ICACT)

    ICACT is an annual conference providing an open forum for researchers, engineers, network planners, and service providers in telecommunications. Extensive exchange of information will be provided on newly emerging systems, standards, services, and variety of applications in the area of telecommunications.

  • 2009 11th International Conference on Advanced Communication Technology (ICACT)

    ICACT is an annual conference providing an open forum for researchers, engineers, network planners, and service providers in telecommunications. Extensive exchange of information will be provided on newly emerging systems, standards, services, and variety of applications in the area of telecommunications.

  • 2008 10th International Conference Advanced Communication Technology (ICACT)

  • 2007 9th International Conference Advanced Communication Technology (ICACT)

  • 2006 8th International Conference Advanced Communication Technology (ICACT)

  • 2005 7th International Conference Advanced Communication Technology (ICACT)

  • 2004 6th International Conference Advanced Communication Technology (ICACT)


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Periodicals related to Mimo Communication

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Most published Xplore authors for Mimo Communication

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Xplore Articles related to Mimo Communication

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5G RAN

Optical and Wireless Convergence for 5G Networks, None

This chapter focuses on the key radio access network radio‐enabling technologies and their implementations. It explains how hardware implementation and associated impairments can limit the performance of 5G new radio technology. The chapter presents the main uses cases that are likely to be implemented first and launched on commercial 5G networks. It discusses massive MIMO (M‐MIMO), distributed MIMO, dual connectivity, ...


Multiple-Antenna-Assisted Non-Orthogonal Multiple Access

IEEE Wireless Communications, 2018

Non-orthogonal multiple access (NOMA) is potentially capable of circumventing the limitations of the classic orthogonal multiple access schemes. Hence, it has recently received significant research attention in both industry and academia. This article is focused on exploiting multiple antenna techniques in NOMA networks, with an emphasis on investigating the rate region of MIMO-NOMA, while reviewing two popular multiple antennas aided ...


On the Zero-Forcing Receiver Performance for Massive MIMO Drone Communications

2018 IEEE 19th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC), 2018

We study the uplink ergodic rate performance of the zero-forcing (ZF) receiver in a Massive multiple-input and multiple-output (MIMO) enabled drone communication system. Considering a 3D geometric model for line-of-sight (LoS) propagation, approximate but accurate analyses of lower and upper bounds on the uplink ergodic rate with estimated channel state information (CSI) are provided.


Alamouti-STBC Based Performance Estimation of Multi Tx and Rx Antenna Over MIMO-OFDM

2018 2nd International Conference on Trends in Electronics and Informatics (ICOEI), 2018

Analysis on numerous researches on MIMO STBC system so as to achieve the higher system performance is standard that the performance of the wireless communication systems can be enhanced by utilization multiple transmit and receive antennas (MIMO), that is typically supposed because the MIMO technique, and has been included. The Alamouti STBC may be a promising thanks to notice the ...


Performance analysis of regularized channel inversion precoding in multiuser MIMO-GFDM downlink systems

2017 IEEE Asia Pacific Conference on Wireless and Mobile (APWiMob), 2017

In this paper, we will apply the regularized channel inversion (RCI) combined with one of the 5G waveform candidates, namely generalized frequency division multiplexing (GFDM), in multiuser MIMO downlink systems. RCI, known as the simplest linear precoding based on MMSE criterion, performs well on previous multiuser MIMO systems using orthogonal frequency division multiplexing (OFDM) in order to reduce the effect ...


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Educational Resources on Mimo Communication

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IEEE.tv Videos

2011 IEEE Awards Alexander Graham Bell Medal - Arogyaswami J. Paulraj
Reconfigurable Distributed MIMO for Physical-layer Security - Zygmunt Haas - IEEE Sarnoff Symposium, 2019
Brooklyn 5G - 2015 - Charlie Zhang - Realizing Massive MIMO in LTE-Advanced and 5G
Brooklyn 5G Summit: Massive MIMO Technology for 5G (6GHz - 100GHz)
Evaluating Over-The-Air Performance of MIMO Wireless Devices
Technologies for 5G course, Part 1 - IEEE Smart Tech Workshop
Technologies for 5G course, Part 2 - IEEE Smart Tech Workshop
Technologies for 5G course, Part 3 - IEEE Smart Tech Workshop
Millimeter Wave Mobile Communications for 5G Cellular: It Will Work!
Technologies for 5G course, Part 4 - IEEE Smart Tech Workshop
Prospects and Challenges for GHz to THz Technologies/Architectures for Future Wireless Communications pt.2
Prospects and Challenges for GHz to THz Technologies/Architectures for Future Wireless Communications pt.1
IMS 2014: MIMO and Beamforming Solutions for 5G Technology
Brooklyn 5G - 2015 - Andreas F. Molisch - Channel Measurements for Massive MIMO
Enhancing 5G+ Performance: ML & DL for 5G - Tim O'Shea - B5GS 2019
The Vienna LTE-A Dowlink Link-Level Simulator
Brooklyn 5G Summit: Enabling 5G Gigabit Interactivity Everywhere
5G and Beyond: International Network Generations Roadmap (INGR) - IEEE Future Networks webinar
Massive MIMO Active Antenna Arrays for Advanced Wireless Communications: IEEE CAS lecture by Dr. Mihai Banu
Panel 2: Bringing Massive MIMO to reality - Brooklyn 5G - 2015

IEEE-USA E-Books

  • 5G RAN

    This chapter focuses on the key radio access network radio‐enabling technologies and their implementations. It explains how hardware implementation and associated impairments can limit the performance of 5G new radio technology. The chapter presents the main uses cases that are likely to be implemented first and launched on commercial 5G networks. It discusses massive MIMO (M‐MIMO), distributed MIMO, dual connectivity, device‐to‐device (D2D) communications, carrier aggregation, and licensed assisted access spectrum technologies. The chapter also presents the transmitter, receiver, and transceiver hardware impairments. It also discusses their impact on the effective implementation of the technologies with specific focus on the M‐MIMO and on the millimeter wave frequency bands. The massive growth in mobile data, the number of connected devices and the dramatic change in user expectations, are key market drivers shaping the IMT‐2020 5G vision. One of the potential technologies to meet the huge data rate demands in next generations wireless networks is D2D communications.

  • Multiple-Antenna-Assisted Non-Orthogonal Multiple Access

    Non-orthogonal multiple access (NOMA) is potentially capable of circumventing the limitations of the classic orthogonal multiple access schemes. Hence, it has recently received significant research attention in both industry and academia. This article is focused on exploiting multiple antenna techniques in NOMA networks, with an emphasis on investigating the rate region of MIMO-NOMA, while reviewing two popular multiple antennas aided NOMA structures, as well as underlining resource management problems of both single-carrier and multi- carrier MIMO-NOMA networks. This article also points out several effective methods of tackling the practical implementation constraints of multiple- antenna NOMA networks. Finally, some promising open research directions are provided in the context of multiple- antenna-aided NOMA.

  • On the Zero-Forcing Receiver Performance for Massive MIMO Drone Communications

    We study the uplink ergodic rate performance of the zero-forcing (ZF) receiver in a Massive multiple-input and multiple-output (MIMO) enabled drone communication system. Considering a 3D geometric model for line-of-sight (LoS) propagation, approximate but accurate analyses of lower and upper bounds on the uplink ergodic rate with estimated channel state information (CSI) are provided.

  • Alamouti-STBC Based Performance Estimation of Multi Tx and Rx Antenna Over MIMO-OFDM

    Analysis on numerous researches on MIMO STBC system so as to achieve the higher system performance is standard that the performance of the wireless communication systems can be enhanced by utilization multiple transmit and receive antennas (MIMO), that is typically supposed because the MIMO technique, and has been included. The Alamouti STBC may be a promising thanks to notice the gain within the wireless communications system exploitation MIMO. To extend the code rate and also the output of the orthogonal area time block code for over 4 transmit antennas is analyzed. The designed system is outperformed once imposed with M-PSK (i.e upto 1024-PSK) modulation. The system organized and tested for 4×N, wherever N is variety of receiver antennas.

  • Performance analysis of regularized channel inversion precoding in multiuser MIMO-GFDM downlink systems

    In this paper, we will apply the regularized channel inversion (RCI) combined with one of the 5G waveform candidates, namely generalized frequency division multiplexing (GFDM), in multiuser MIMO downlink systems. RCI, known as the simplest linear precoding based on MMSE criterion, performs well on previous multiuser MIMO systems using orthogonal frequency division multiplexing (OFDM) in order to reduce the effect of inter user interference (IUI). This paper will present how the RCI in the multiuser MIMO-GFDM systems performs such good results as the RCI implemented in the multiuser MIMO-OFDM systems based on bit error rate (BER) parameter without causing significant increase in system complexity. Moreover, the proposed system using GFDM shows good result in terms peak-to-average power ratio (PAPR) value. On systems using GFDM, we develop two systems employing 16-QAM and 16-OQAM, respectively, to show the difference of both systems. In addition to provide the performance of RCI in the multiuser MIMO-GFDM system, this paper also presents the performance of RCI in the multiuser MIMO-GFDM system with different number of users.

  • A FAM-2D RLS based smart Massive MIMO system

    In this paper we implement a Fast Array Multichannel 2D Recursive Least Square (FAM 2D-RLS) based smart antenna system for massive MIMO. A rectangular antenna array in the X-Y plane is considered. The direction of arrival (DOA) is estimated using MUSIC algorithm. The estimated DOA is used by the adaptive beamformer to generate beams that have maximum gain in the direction of receiver and nulls in the direction of interferes. The computational complexity is calculated and convergence performance is simulated and compared with standard adaptive algorithms. It is seen that convergence performance of FAM 2D-RLS is similar to that of a standard RLS algorithm while the computational complexity is comparable to that of standard Least Mean Square algorithm (LMS). It is also observed that the computational cost of the adaptive filter is directly proportional to the total number of antennas in the antenna array. Hence the contributions in this paper is highly relevant in the case of massive MIMO systems. The simulations are performed in MATLAU & SystemVue.

  • Structure-Shared Planar UWB MIMO Antenna With High Isolation for Mobile Platform

    A two-port structure-shared planar ultrawideband (UWB) antenna with high isolation is presented in this communication. The proposed antenna consists of a planar monopole and two back-to-back tapered slots etched on the monopole. The monopole and the tapered slots are fed by the microstrip line and the differential feeding network, respectively. The differential feeding network of the tapered slots excites the modes, which are orthogonal to those of the monopole. Therefore, high isolation between the two ports can be achieved without additional decoupling structures. The measured results show that the proposed antenna can operate from 3 to 10 GHz with the reflection coefficient of the two ports lower than -10 dB and the isolation higher than 38 dB. The measured realized peak gains are above 2.6 dB, and the measured envelope correlation coefficients are less than 9 × 10-5. The proposed UWB multiple- input-multiple-output (MIMO) antenna can be applied in the MIMO communication systems, especially those requiring high isolation.

  • A Review on Methods of FBMC and other Techniques of Massive MIMO

    In this paper we discuss the various methods of implementation of Massive MIMO using filter banks, OFDM, UFMC. The demand for greater output relative to input will see a definite increase in context of wireless system in the coming time. 5G is the most anticipated technology that will surely suffice in dealing with demands in terms of rate of data, latency, increasing number of users online at the same time, improving the quality of service provided etc. The large scale antenna system - popularly known as Massive MIMO (multi input multi output) is the leading technology to realize 5G network. However implementation of this system of antennas is a real challenge that is being faced and with so many ways available for implementation, which one to choose is a dilemma. A recent idea that is gaining momentum is the use of filter bank multicarrier (FBMC). Filter bank architecture is the basis of FBMC. There are various properties of FBMC that encourages its use such as no presence of cyclic prefix, carrier assemblage and ability of self equalization. These parameters are very helpful in achieving many goals such as (i) reducing the complex nature of the system, (ii) reducing the ratio of peak and average power, (iii) reducing delay in the system (also known as latency), (iv) responsiveness to carrier frequency offset and (v) increasing efficiency in the bandwidth provided.

  • Performance analysis of 2 × 2 MIMO antenna with meta-material for ultra-wideband applications

    A 2 × 2 MIMO antenna based on meta-material is designed and analyzed for ultra-wideband (UWB) applications. The antenna is designed on 1.6mm thick FR4 substrate having small dimensions of 40mm × 40 mm. The leaf shape antenna structure with Full Ground (FG) is chosen which provides three wide bands from 0.1 GHz to 1.2 GHz, 1.2 GHz to 6.3 GHz and 6.5 GHz to 15.3 GHz. The composition of ground is varied from FG to Partial Ground (PG) to eventually PG with meta-material (PG with MM). The effect of PG with MM layer on the leaf structure shows that the return losses become smoother in nature with merging of first two bands into one, i.e., 0.1 GHz to 6.2 GHz. The structure designed provides good amount of isolation between four antenna elements. The compact size of antenna provides applications in portable UWB, X-band and Ku-band.

  • Fast QR Decomposition Based on FPGA

    The QR-decomposition (QRD) is an implementation necessary for many different detection algorithms such as MIMO (Multiple Input and Multiple Output) in wireless communication system. In this article, a QRD processor which decomposes the matrix into an orthogonal (Q matrix) and upper triangular matrix (R matrix) using Gram Schmidt algorithm is designed and implemented using a 32-bit High speed processor based on FPGA. This design requires 16 clock cycle to compute QR decomposition with 15.625 M QRDs per second throughput at 250 MHz operating frequency.



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