IEEE Organizations related to Multistatic Radar

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Conferences related to Multistatic 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


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.


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)


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Periodicals related to Multistatic Radar

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Most published Xplore authors for Multistatic Radar

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Xplore Articles related to Multistatic Radar

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Modeling range-only multistatic radar target detection with Interval Analysis in 3D

2016 European Radar Conference (EuRAD), 2016

Multistatic radar systems are increasing in popularity due to the advancement in technology and the need to optimize the use of the frequency spectrum. To obtain flexibility in design and reduce the overall cost and complexity of the radar system range only multistatic radars are often considered. Locating targets using range only multistatic radars is a challenging task that may ...


A novel method of eliminating measurements with significant errors in the multistatic radar system

2016 Progress in Electromagnetic Research Symposium (PIERS), 2016

In multistatic radar systems, range measurements are widely used for target localization. Due to the unknown system delay, the range measurements are usually not accurate. Combining the range measurements with great errors for target localization can cause a significant localization error. In this paper, an algorithm is proposed tore move the range measurements with significant errors for better localization. The ...


A direct-path interference suppressing algorithm for shared-spectrum multistatic radar

Proceedings of 2011 IEEE CIE International Conference on Radar, 2011

Via the reiterative Maximum Signal Minus Interference Level (MSMIL) criterion and adaptive beamforming, a novel algorithm is proposed to suppress both the mutual interference and strong direct-path interference for shared-spectrum multistatic radar. Numerical results show advantages of the proposed method.


An amplitude association dynamic programming TBD algorithm with multistatic radar

2016 35th Chinese Control Conference (CCC), 2016

In order to detect and track low signal-to-noise-ratio (SNR) targets with multistatic radar, an amplitude association dynamic programming (AADP) based track-before-detect (TBD) fusion algorithm is proposed. First, a new cost function for is constructed. This function uses the relativity of signal amplitude in adjacent frames to detect the low SNR target. Second, considering the spatial diversity, a multistatic tracks fusion ...


Study of multistatic radar against velocity-deception jamming

2011 International Conference on Electronics, Communications and Control (ICECC), 2011

Compared with monostatic radar, multistatic radar has considerable merits against deception jamming because its transmitting system and receiving system are separated physically. Firstly velocity-deception jamming styles and their working principles are introduced in brief. Then a new type of multistatic radar that consists of one transmitter and three receivers is presented. Its working theory against velocity-deception jamming is analyzed in ...


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Educational Resources on Multistatic Radar

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IEEE.tv Videos

Hugh Griffiths accepts the IEEE Dennis J. Picard Medal for Radar Technologies and Applications - Honors Ceremony 2017
2014 Dennis J. Picard Medal for Radar Technologies and Applications
Richard Klemm - IEEE Dennis J. Picard Medal for Radar Technologies and Applications, 2019 IEEE Honors Ceremony
2011 IEEE Dennis J. Picard Medal for Radar Technologies and Applications - James M. Headrick
IMS 2011 Microapps - Volume Manufacturing Trends for Automotive Radar Devices
2012 IEEE Honors - Dennis J. Picard Medal for Radar Technologies and Applications
Reconfigurable 60-GHz Radar Transmitter SoC - Wooram Lee - RFIC 2019 Showcase
IEEE Dennis J. Picard Medal for Radar Technologies and Applications - Mark E. Davis - 2018 IEEE Honors Ceremony
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
IMS 2012 Special Sessions: The Evolution of Some Key Active and Passive Microwave Components - N. J. Kolias
CMOS mmWave Radar SoC Architecture and Applications - Sreekiran Samala - RFIC Showcase 2018
2013 IEEE Dennis J. Picard Medal
MicroApps: Radar Design Flow with NI-AWR Integrated Framework (National Instruments)
Green Radar State of Art: theory, practice and way ahead.
2015 IEEE Honors: IEEE Dennis J. Picard Medal for Radar Technologies and Applications - Marshall Greenspan
MicroApps: Simulation of Airborne, Space-Borne and Ship-Based Radar Systems with Complex Environment (Agilent EEsof)
Young Professionals at N3XT: Bringing Together Tech Fields
Aperture Radar Products for the Management of Land and Water - GHTC 2012 Session - Guiseppe Ruello
A Fully Integrated 75-83GHz FMCW Synthesizer for Automotive Radar Applications with -97dBc/Hz Phase Noise at 1MHz Offset and 100GHz/mSec Maximal Chirp Rate: RFIC Industry Showcase 2017

IEEE-USA E-Books

  • Modeling range-only multistatic radar target detection with Interval Analysis in 3D

    Multistatic radar systems are increasing in popularity due to the advancement in technology and the need to optimize the use of the frequency spectrum. To obtain flexibility in design and reduce the overall cost and complexity of the radar system range only multistatic radars are often considered. Locating targets using range only multistatic radars is a challenging task that may require advanced processing techniques to effectively associate measurements. The Interval Analysis technique has been considered for two dimensional target detection and tracking as a new mathematical approach for solving state estimation problem, instead of the more popular approach using probability density mathematic. This paper investigates the three dimensional (3D) range only target detection technique using Interval Analysis (IA) technique. The modelling methodology to implement IA and detect targets is presented within this paper. The results also address the ambiguity in the elevation estimation for targets.

  • A novel method of eliminating measurements with significant errors in the multistatic radar system

    In multistatic radar systems, range measurements are widely used for target localization. Due to the unknown system delay, the range measurements are usually not accurate. Combining the range measurements with great errors for target localization can cause a significant localization error. In this paper, an algorithm is proposed tore move the range measurements with significant errors for better localization. The localization performance of the proposed algorithm is validated by the experimental data. It shows better performance than the present Jheng-Sian method.

  • A direct-path interference suppressing algorithm for shared-spectrum multistatic radar

    Via the reiterative Maximum Signal Minus Interference Level (MSMIL) criterion and adaptive beamforming, a novel algorithm is proposed to suppress both the mutual interference and strong direct-path interference for shared-spectrum multistatic radar. Numerical results show advantages of the proposed method.

  • An amplitude association dynamic programming TBD algorithm with multistatic radar

    In order to detect and track low signal-to-noise-ratio (SNR) targets with multistatic radar, an amplitude association dynamic programming (AADP) based track-before-detect (TBD) fusion algorithm is proposed. First, a new cost function for is constructed. This function uses the relativity of signal amplitude in adjacent frames to detect the low SNR target. Second, considering the spatial diversity, a multistatic tracks fusion technique is used to improve the detection and tracking performance. Simulation results verifies the effectiveness of the proposed method.

  • Study of multistatic radar against velocity-deception jamming

    Compared with monostatic radar, multistatic radar has considerable merits against deception jamming because its transmitting system and receiving system are separated physically. Firstly velocity-deception jamming styles and their working principles are introduced in brief. Then a new type of multistatic radar that consists of one transmitter and three receivers is presented. Its working theory against velocity-deception jamming is analyzed in detail, and its recognition algorithm is given. Finally the influence of radar distribution and every station's velocity resolution rate on radar's anti- jamming performance is studied.

  • Analysis of observed information in multistatic radar network

    In this study, observed information matrix has been calculated in a multistatic radar network where an Unscented Kalman filter, that utilized bistatic range and range rate measurements, was employed as a 3D tracker. Variation of the observed information with respect to target's location in the network has been analyzed through simulations and the results are presented in contrast to tracking error.

  • CFAR target detection for passive multistatic radar with compensation errors

    This article discusses the detection problem of a passive multistatic radar system with a non-cooperative illuminator of opportunity in the presence of compensation errors. Two detectors are used to address this detection problem according to whether the noise powers in the receivers are equal or not. Both of them have a constant false alarm rate with respect to the noise power. Numerical examples show that the performance of the proposed methods is better than that of the counterparts.

  • Environmentally safe multistatic marine radar system for sea border protection

    A description is given of an environmentally safe multistatic X- and Ka-band marine radar system (RS) intended to guard the sea territorial waters of Ukraine. An alternative variant of using a multistatic radar built on basis of the floating active radio beacons (installed beyond the boundaries of radio horizon) and a single receiving station. The receiving station is located on a coastal line and its operational function is to pick up sequentially some information from each radio buoy, process received signals in a special- purpose computer and demonstrate the observation data on the state of the protected sea area from multiple positions.

  • Optimum stealthy aircraft detection using a multistatic radar

    Radar systems, based on Multistatic radar concept attracted a substantial attention in the recent years. The paper proposes system geometry for S-band Multistatic radar. This technique is used for detecting and tracking the small cross section area and stealthy aircrafts. The proposed geometrical structures are studied with different radars spacing to extend the detection coverage over the Monostatic radar used for air surveillance. The radar detection coverage is also studied with all possible stealthy aircraft paths to find the improvement achieved from using this type of radar. The simulation is done using Matlab program. The results show that the first system geometry with two transmitters and four receivers extends the detection coverage 80 Km for small aircraft and 62 Km for stealthy targets. The second system geometry with two transmitters and six receivers extends the detection coverage 85 Km for small targets and 69 Km for stealthy targets. The achieved SNR from these system geometries guarantee a high probability of detection for small and stealthy aircraft detection.

  • Positioning Accuracy Analysis of Multistatic Radar In Jamming Background

    Aiming at solving the positioning accuracy problem of airborne multi-platform cooperative detection, taking the one-transmitter two-receiver system as an example, the platform geometry model is established, and the positioning equation and the error equation are derived. Combining with simulation experiments, the positioning accuracy distribution of the measurement subsets with different missing data is analyzed. Through comparison, the influences of the absence of pitch angle, azimuth angle, and echo distance absence on the distribution of positioning accuracy are obtained. The research provides a theoretical basis for the full performance of the airborne multi-platform cooperative detection system.



Standards related to Multistatic Radar

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Jobs related to Multistatic Radar

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