IEEE Organizations related to Mimo Radar

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2020 IEEE International Radar Conference (RADAR)

Everything to do with radar hardware, techniques, processing and systems.

  • 2019 International Radar Conference (RADAR)

    RADAR2019 is in the frame of the international relations set up between the IET, the IEEE, the CIE, the IEAust and the SEE. The conference will focus on new research and developments in the fields: Radar Systems (ground based, airborne, spaceborne), Radar Environment and Phenomenology, Electromagnetic Modeling Radar Component Technologies, Remote Sensing from Airborne or Spaceborne Systems, SAR & ISAR Imagery Waveform design, beamforming and signal processing Emerging, Radar Applications, Smart Visualization and Information processing, System Modeling, Simulation and Validation, Radar Management Techniques Automatic Classification. The conference will take place at Toulon Neptune Palais. Located on the French Riviera, Toulon is an important centre for naval construction and aeronautical equipment,hosting the major naval centre on France's Mediterranean coast, also home of the French Navy aircraft carrier Charles De Gaulle.

  • 2018 International Conference on Radar (RADAR)

    All aspects of radar systems for civil and defence applications.

  • 2017 International Radar Conference (Radar)

    radar environment and phenomenology, radar systems, remote sensing from airborne or spaceborne systems, waveform design, beamforming and signal processing, emerging technologies, advanced sub-systems technologies, computer modelling, simulation and validation, radar management techniques

  • 2016 CIE International Conference on Radar (RADAR)

    The 2016 CIE International Conference on Radar (Radar 2016) will be held in October 10-13 in Guangzhou, China. Radar 2016 is one of the international radar conference series which is held separately in USA, China, UK, Australia and France. It is the 7th International Radar Conference held in China. The conference topics of Radar 2016 will cover all aspects of radar system for civil or defense application.The professional theme of Radar 2016 is “Innovative thinking into the future”. It is our pleasure and honor to invite you to attend Radar 2016 conference. All accepted papers will be published in the conference proceedings We hope to meet you in Guangzhou, China.

  • 2014 International Radar Conference (Radar)

    Radar 2014 cover all aspects of radar systems for civil, security and defence application. Waveform design, beamforming, signal processing, Emerging applications and technologies, sub-systems technologies, Radar environment.

  • 2013 International Conference on Radar

    Radar 2013 cover all aspects of radar systems for civil, security and defence application. Waveform design, beamforming, signal processing, Emerging applications and technologies, sub-systems technologies, Radar environment.

  • 2012 International Radar Conference (Radar)

    Radar Environment/Phenomenology, Radar Systems, Remote Sensing from Airborne/Spaceborne Systems, Waveform Design, Beamforming/Signal Processing, Emerging Applications, Advanced Sub-Systems, Computer Modelling, Simulation/Validation.

  • 2011 IEEE CIE International Conference on Radar (Radar)

    This series of successfully organized international conference on radar shows the very fruitful cooperation between IEEE AESS, IET/UK, SEE/France, EA/Australia CIE/China, and the academy societies of other countries , such as Germany, Russia, Japan, Korea and Poland. Radar 2011 is a forum of radar engineers and scientists from all over the world. The conference topics of Radar 2011 will cover all aspects of radar system for civil and defense applications.

  • 2009 International Radar Conference Radar "Surveillance for a Safer World" (RADAR 2009)

    The conference will focus on new research and developments in the field of radar techniques for both military and civil applications. Topics to be covered at Radar 2009 include: Radar Environment and Phenomenology Radar Systems Remote Sensing from Airborne or Spaceborne Systems Waveform Design, Beamforming and Signal Processing Emerging Radar Applications Emerging Technologies Advanced Sub-Systems Technologies Computer Modeling, Simulation and V

  • 2008 International Conference on Radar (Radar 2008)

    All aspects of radar systems for civil, security and defence applications. Themes include: Radar in the marine environment, Radar systems, Multistatic and netted radars, Radar subsystems, Radar techniques, processing and displays, Modelling and simulation of radar environments, Electronic attack, Electronic protection, Test and Evaluation

  • 2003 IEEE International Radar Conference


2020 IEEE Radar Conference (RadarConf20)

Annual IEEE Radar Conference

  • 2018 IEEE Radar Conference (RadarConf18)

    This conference will be a continuation of the annual IEEE radar series (formerly the IEEE National Radar conference). These conferences cover the many disciplines that span the applications of modern radar systems, including systems-level through subsystem and component technologies, antennas, and signal processing (deterministic and adaptive). The scope includes systems architectures of monostatic, bistatic and multistatic, and ground-based, airborne, shipborne, and spaceborne realizations.

  • 2017 IEEE Radar Conference (RadarCon)

    This conference will be a continuation of the annual IEEE radar series (formerly the IEEE National Radar conference). These conferences cover the many disciplines that span the applications of modern radar systems. This includes systems-level through subsystem and component technologies, antennas, and signal processing (deterministic and adaptive). The scope includes systems architectures of monostatic, bistatic and multistatic, and ground-based, airborne, and spaceborn realizations.

  • 2016 IEEE Radar Conference (RadarCon)

    A continuing series of annual RADAR Conferences IEEE-AESS

  • 2015 IEEE Radar Conference (RadarCon)

    The scope of the IEEE 2015 International Radar Conference includes all aspects of civil and military radar. Topics range from fundamental theory to cutting-edge applications, from signal processing, modeling, simulation to hardware implementation and experimental results.

  • 2014 IEEE Radar Conference (RadarCon)

    The 2014 IEEE Radar Conference will showcase innovations and developments in radar technology. Topics will include presentations describing developments in radar systems and their implementations, phenomenology, target and clutter modeling, signal processing, component advances, etc.

  • 2013 IEEE Radar Conference (RadarCon)

    The conference theme is The Arctic The New Frontier as it presents a vast and challenging environment for which radar systems operating in a multi-sensor environment are currently being developed for deployment on space, air, ship and ground platforms and for both remote sensing of the environment and for the monitoring of human activity. It is one of the major challenges and applications being pursued in the field of radar development in Canada.

  • 2012 IEEE Radar Conference (RadarCon)

    The 2012 IEEE Radar Conference will host 400 to 600 attendees interested in innovations and developments in radar technology. The radar related topics will include presentations describing developments in radar systems and their implementations, phenomenology, target and clutter modeling, component advances, signal processing and data processing utilizing advanced algorithms. The conference will also include exhibits by vendors of radar systems, radar components, instrumentation, related software and publ

  • 2011 IEEE Radar Conference (RadarCon)

    RadarCon11 will feature topics in radar systems, technology, applications, phenomenology,modeling, & signal processing. The conference theme, In the Eye of the Storm, highlights the strong regional interest in radar for severe weather analysis and tracking. Broader implications of the theme reflect global interests such as radar's role in assessing climate change, supporting myriad defense applications, as well as issues with spectrum allocation and management.

  • 2010 IEEE International Radar Conference

    RADAR Systems, RADAR technology

  • 2009 IEEE Radar Conference

    The conference's scope is civil and military radar, including science, technology, and systems. The theme for RADAR '09 is "Radar: From Science to Systems," emphasizing scientific or observational requirements and phenomenology that lead to the systems that we in the radar community develop.

  • 2008 IEEE Radar Conference

    The 2008 IEEE Radar Conference will focus on the key aspects of radar theory and applications as listed below. Exploration of new avenues and methodologies of radar signal processing will also be encouraged. Tutorials will be held in a number of fields of radar technology. The Conference will cover all aspects of radar systems for civil, security and defense applications.

  • 2007 IEEE Radar Conference

  • 2006 IEEE Radar Conference

  • 2005 IEEE International Radar Conference

  • 2004 IEEE Radar Conference

  • 2003 IEEE Radar Conference

  • 2002 IEEE Radar Conference

  • 2001 IEEE Radar Conference

  • 2000 IEEE International Radar Conference

  • 1999 IEEE Radar Conference

  • 1998 IEEE Radar Conference

  • 1997 IEEE Radar Conference

  • 1996 IEEE Radar Conference


IGARSS 2020 - 2020 IEEE International Geoscience and Remote Sensing Symposium

All fields of satellite, airborne and ground remote sensing.


2019 20th International Radar Symposium (IRS)

The International Radar Symposium aims to provide a forum for both academic and industrial professionals in radar from all over the world and to bring together academicians, researchers, engineers, system analysts, graduate and undergraduate students with government and non-government organizations to share and discuss both theoretical and practical knowledge. We invite everybody to submit outstanding and valuable original research papers and participate in the technical exhibition during the conference.

  • 2018 19th International Radar Symposium (IRS)

    The International Radar Symposium aims to provide a forum for both academic and industrialprofessionals in radar from all over the world and to bring together academicians, researchers,engineers, system analysts, graduate and undergraduate students with government and nongovernmentorganizations to share and discuss both theoretical and practical knowledge. Thescope of the Symposium includes, but is not limited to the following major radar topics: radarsystems, radar applications, emerging technologies, advanced sub-systems, processingtechniques, detection/tracking/classification, radar system simulations.

  • 2017 18th International Radar Symposium (IRS)

    The International Radar Symposium aims to provide a forum for both academic and industrial professionals in radar from all over the world and to bring together academicians, researchers, engineers, system analysts, graduate and undergraduate students with government and non-government organizations to share and discuss both theoretical and practical knowledge. The scope of the Symposium includes, but is not limited to the following major radar topics: radar systems, radar applications, emerging technologies, advanced sub-systems, processing techniques, detection/tracking/classification, radar system simulations.

  • 2016 17th International Radar Symposium (IRS)

    The main goal of the conference is to create forum for radar scientists from all of the world to present their latest research results, new trends in science and technology and exchange ideas.

  • 2015 16th International Radar Symposium (IRS)

    IRS 2015 is a single and unique element in a series of 16 International radar conferences organized so far in Germany and in Poland. The conference series started in Munich in 1998. Due to the rapid development of analog and digital technologies, radar technique is still an expanding technical and economical segment with practical applications in the civilian as well as in the military area. The world-wide family of radar researchers and experts is quite small and it is always a pleasure to meet scientists, engineers, and international experts to discuss new ideas, latest research results and future developments. High-level presentations will allow each participant to get in-depth view on the current status of radar systems and components. IRS 2015 will be held in the beautiful city of Dresden, Germany and opens the door to all radar experts from countries in East Europe.

  • 2014 15th International Radar Symposium (IRS)

    International Radar Symposium (IRS) is a famous annual Conference that is conducted since 1998 normally in different cities of Germany and sometimes in Poland. In 2010 it was held in Lithuania. In 2014 this Conference will be held in Lviv, Ukraine in the framework of the Microwave and Radar Week (MRW-2014) in combination with two other conferences. Radar Systems Advanced Sub-SystemsRadar ApplicationsAirport Surveillance & SafetyPassive, Noise & MIMO RadarsSAR/ISAR/UltrawidebandTracking and Data FusionEmerging TechnologiesProcessing TechniquesComputer ModelingEnvironment Sensing and ModelingSecurity Space Technology & Remote Sensing

  • 2013 14th International Radar Symposium (IRS)

    The symposium will focus on new development in the field of radar systems, signal processing techniques, and radar applications in both civil and military topics.

  • 2012 13th International Radar Symposium (IRS)

    The aim of the International Radar Symposium IRS-2012 is to bring together the worldwide family of radar researchers and experts. We are looking for contributors on the topics relating to radar technologies, systems and advanced sub-systems, processing techniques, as well as radar applications in the civil and the military areas.

  • 2011 12th International Radar Symposium (IRS)

    Due to the rapid development of technologies, radar is still an expanding technical and economical segment with practical applications both in the civil and military areas. The symposium will focus on new development in the field of radar systems, techniques, and applications.

  • 2010 11th International Radar Symposium (IRS)

    Main Topics Radar Systems Advanced Sub-Systems Radar Applications Airport Surveillance & Safety Passive, Noise & MIMO Radars SAR/ISAR/Ultrawideband Tracking and Data Fusion Emerging Technologies Processing Techniques Computer Modeling Environment Sensing and Modeling Security Space Technology & Remote Sensing

  • 2008 International Radar Symposium (IRS)

    The aim of the International Radar Symposium IRS-2008 is to bring together the worldwide family of radar researchers and experts. We are looking for contributors on the topics relating to radar technologies, systems and advanced sub-systems, processing techniques, as well as radar applications in the civil and the military areas.

  • 2006 International Radar Symposium (IRS)


2019 44th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz)

Science, technology and applications spanning the millimeter-waves, terahertz and infrared spectral regions


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Periodicals related to Mimo Radar

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Most published Xplore authors for Mimo Radar

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Xplore Articles related to Mimo Radar

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Cognitive sub-Nyquist hardware prototype of a collocated MIMO radar

2016 4th International Workshop on Compressed Sensing Theory and its Applications to Radar, Sonar and Remote Sensing (CoSeRa), 2016

We present the design and hardware implementation of a radar prototype that demonstrates the principle of a sub-Nyquist collocated multiple-input multiple-output (MIMO) radar. The setup allows sampling in both spatial and spectral domains at rates much lower than dictated by the Nyquist sampling theorem. Our prototype realizes an X-band MIMO radar that can be configured to have a maximum of ...


MIMO radar images of a trihedral corner reflector for near-field measurement

2017 International Applied Computational Electromagnetics Society Symposium (ACES), 2017

Multiple-input multiple-output (MIMO) radar is of great research interest in recent years. The impacts of inherent bistatic geometry of a MIMO array on target images might be severe at short distances. This is due to the fact that each virtual element synthesized by a MIMO array cannot be considered as a mono-static transmit/receive element. In this paper, we study the ...


Simulation of time jitter effects on the detection performance of M-sequence-based MIMO radar systems

2013 IEEE Radio and Wireless Symposium, 2013

This paper studies the effects of time jitter on the detection performance of an M-sequence based MIMO radar system through time domain simulations. The performance of MIMO radar systems with a non-coherent MIMO, and a coherent re- phased netted radar (RPNR) processing were evaluated in terms of the probability of detection versus signal to noise ratio (SNR). A Gaussian distributed ...


Low angle estimation with colored noise in bi-static MIMO radar

2016 11th International Symposium on Antennas, Propagation and EM Theory (ISAPE), 2016

This paper proposes a method to estimate the unknown angular location of a bi- static multiple input multiple output (MIMO) radar target in the low angle scenario. The multipath model is formulated, in which the specular reflection is treated as an image target and the diffuse reflection is taken as spatial correlated stationary Gaussian noise. Based on this model, the ...


Session MA6: MIMO radar and sensor fusion

2008 42nd Asilomar Conference on Signals, Systems and Computers, 2008

None


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Educational Resources on Mimo Radar

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IEEE.tv Videos

2014 Dennis J. Picard Medal for Radar Technologies and Applications
2011 IEEE Dennis J. Picard Medal for Radar Technologies and Applications - James M. Headrick
Richard Klemm - IEEE Dennis J. Picard Medal for Radar Technologies and Applications, 2019 IEEE Honors Ceremony
IMS 2011 Microapps - Volume Manufacturing Trends for Automotive Radar Devices
IMS 2014: MIMO and Beamforming Solutions for 5G Technology
2012 IEEE Honors - Dennis J. Picard Medal for Radar Technologies and Applications
IEEE Dennis J. Picard Medal for Radar Technologies and Applications - Mark E. Davis - 2018 IEEE Honors Ceremony
Reconfigurable 60-GHz Radar Transmitter SoC - Wooram Lee - RFIC 2019 Showcase
Honors 2020: Joseph R. Guerci Wins the IEEE Dennis J. Picard Medal for Radar Technologies and Applications
Brooklyn 5G - 2015 - Andreas F. Molisch - Channel Measurements for Massive MIMO
Nadav Levanon receives the IEEE Dennis J. Picard Medal for Radar Technologies and Applications - Honors Ceremony 2016
IMS 2012 Microapps - Virtual Flight Testing of Radar System Performance Daren McClearnon, Agilent EEsof
Hugh Griffiths accepts the IEEE Dennis J. Picard Medal for Radar Technologies and Applications - Honors Ceremony 2017
IMS 2012 Special Sessions: The Evolution of Some Key Active and Passive Microwave Components - N. J. Kolias
Massive MIMO Active Antenna Arrays for Advanced Wireless Communications: IEEE CAS lecture by Dr. Mihai Banu
2013 IEEE Dennis J. Picard Medal
CMOS mmWave Radar SoC Architecture and Applications - Sreekiran Samala - RFIC Showcase 2018
2011 IEEE Awards Alexander Graham Bell Medal - Arogyaswami J. Paulraj
Green Radar State of Art: theory, practice and way ahead.
MicroApps: Radar Design Flow with NI-AWR Integrated Framework (National Instruments)

IEEE-USA E-Books

  • Cognitive sub-Nyquist hardware prototype of a collocated MIMO radar

    We present the design and hardware implementation of a radar prototype that demonstrates the principle of a sub-Nyquist collocated multiple-input multiple-output (MIMO) radar. The setup allows sampling in both spatial and spectral domains at rates much lower than dictated by the Nyquist sampling theorem. Our prototype realizes an X-band MIMO radar that can be configured to have a maximum of 8 transmit and 10 receive antenna elements. We use frequency division multiplexing (FDM) to achieve the orthogonality of MIMO waveforms and apply the Xampling framework for signal recovery. The prototype also implements a cognitive transmission scheme where each transmit waveform is restricted to those pre-determined subbands of the full signal bandwidth that the receiver samples and processes. Real-time experiments show reasonable recovery performance while operating as a 4 × 5 thinned random array wherein the combined spatial and spectral sampling factor reduction is 87.5% of that of a filled 8 × 10 array.

  • MIMO radar images of a trihedral corner reflector for near-field measurement

    Multiple-input multiple-output (MIMO) radar is of great research interest in recent years. The impacts of inherent bistatic geometry of a MIMO array on target images might be severe at short distances. This is due to the fact that each virtual element synthesized by a MIMO array cannot be considered as a mono-static transmit/receive element. In this paper, we study the characteristics of near-field MIMO images for a trihedral corner reflector like scattering mechanism which is sensitive to bistatic measurement geometry.

  • Simulation of time jitter effects on the detection performance of M-sequence-based MIMO radar systems

    This paper studies the effects of time jitter on the detection performance of an M-sequence based MIMO radar system through time domain simulations. The performance of MIMO radar systems with a non-coherent MIMO, and a coherent re- phased netted radar (RPNR) processing were evaluated in terms of the probability of detection versus signal to noise ratio (SNR). A Gaussian distributed time jitter with a zero-mean and a standard deviation of 1 to 10% of the ideal clock was modeled. It was found that under jitter influence, a 2×2 MIMO radar with MIMO processing performs equally with RPNR at Pd= 0.8 and above.

  • Low angle estimation with colored noise in bi-static MIMO radar

    This paper proposes a method to estimate the unknown angular location of a bi- static multiple input multiple output (MIMO) radar target in the low angle scenario. The multipath model is formulated, in which the specular reflection is treated as an image target and the diffuse reflection is taken as spatial correlated stationary Gaussian noise. Based on this model, the colored noise is cancelled by covariance differencing approach first. Then the differencing array covariance matrix is reconstructed into a block Hankel matrix to differentiate coherent signals of the actual targets and image targets. A unitary ESPRIT algorithm is utilized to give the accurate low angle estimations with low computational burden at last. Simulation results are presented to verify the effectiveness of the method.

  • Session MA6: MIMO radar and sensor fusion

    None

  • Design of wideband MIMO radar waveforms with low peak-to-average ratio

    Multiple-input multiple-output (MIMO) radar systems allow array antennas to transmit different waveforms and, as such, enable flexible transmit beampattern synthesis. Most existing transmit beampattern synthesis methods focus on narrowband MIMO radar systems. In this paper, we propose a novel method to design transmit waveforms for wideband MIMO radar systems. The proposed technique is based on the optimization of the cross-spectral density matrix and achieves a low peak-to-average power ratio (PAR) as desired in practical radar operations. Simulations results are provided to verify the low PAR waveform design capability corresponding to arbitrary beampatterns.

  • Collocated MIMO radar waveform coding using Costas and Quadratic Congruence arrays

    Multiple-input-multiple-output (MIMO) radar with collocated antennas transmits orthogonal waveforms to allow the received echoes to be used efficiently for range and Doppler estimation. The orthogonality of the transmitted waveforms should hold for both time shifts and frequency shifts. This paper, for the first time, extends two time-frequency hopping coding methods - the Costas Array Coding (CAC) and the Quadratic Congruence Coding (QCC), which were commonly used in single-input-single-output (SISO) radar and sonar applications, to MIMO scenario, and formulate the novel optimization problems. By decomposing the MIMO ambiguity function (AF), we analyze their auto- ambiguity functions (AAF) and cross-ambiguity functions (CAF). Linear frequency modulation (LFM) signal is used for the coding. Simulation shows that MIMO radar is superior to conventional single-input-single-output (SISO) radar in terms of sidelobe reduction, and the delay resolution can be significantly improved by increasing the coding dimension.

  • Target localization in noncoherent distributed MIMO radar system using squared range-sum measurements

    This paper considers the problem of target localization from the bistatic range-sum measurements in noncoherent distributed multiple-input multiple- output (MIMO) radar system. The localization procedure includes two parts. First, it divides the measurements into several groups based on the different transmitter or receiver, and for each group, we use least squares (LS) approach based on squared range-sum measurements (SRS-LS) and weighted least squares (WLS) approach based on squared range-sum measurements (SRS-WLS) to estimate the target location. Second, we use the estimates from different groups to form a composite estimate. Simulation results are include to show the performance of the proposed algorithms. It is shown that the SRS-LS is very close to the Cramér-Rao lower bound (CRLB), and the SRS-WLS can reach the CRLB in a range of moderate measurements noise.

  • PMCW waveform and MIMO technique for a 79 GHz CMOS automotive radar

    Automotive radars in the 77-81 GHz band will be widely deployed in the coming years. This paper provides a comparison of the bi-phase modulated continuous wave (PMCW) and linear frequency-modulated continuous wave (FMCW) waveforms for these radars. The comparison covers performance, implementation and other non technical aspects. Multiple Input Multiple Output (MIMO) radars require perfectly orthogonal waveforms on the different transmit antennas, preferably transmitting simultaneously for fast illumination. In this paper, we propose two techniques: Outer code and Range domain, to enable MIMO processing on the PMCW radars. The proposed MIMO techniques are verified with both simulation and lab experiments, on a fully integrated deep-submicron CMOS integrated circuit designed for a 79 GHz PMCW radar. Our analysis shows that, although not widely used in the automotive industry, PMCW radars are advantageous for low cost, high volume single-chip production and excellent performance.

  • Sidelobe suppression and super resolution for MIMO imaging radar

    An algorithm for super resolution and sidelobe suppression is described for coherent collocated MIMO imaging radar. The algorithm modifies the coherent CLEAN method by performing a nonlinear least squares (NLLS) optimization in the beam domain. The NLLS optimization is performed at each step of the CLEAN algorithm, accounting for the mutual interference terms of closely spaced targets. This removes the requirement of a priori target information normally essential in NLLS optimization whilst also providing scope for super resolution. Frechet derivatives are used to generate the Hessian matrix for a Newton-Raphson iteration to solve the NLLS optimization. Particular attention is paid to convergence of this Newton-Raphson iteration to the global minimum. Inherently this large optimization is computationally expensive. Therefore a Dolph-Chebyshev weighting is presented as the optimum window for solving the NLLS optimization in a block matrix fashion. Finally numerical simulations are provided to demonstrate the proposed algorithms ability to take advantage of the improved SNR from operating in the beam domain.



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