Conferences related to Radar remote sensing

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2015 IEEE International 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.


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.

  • 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


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.


2012 Asia Pacific Microwave Conference (APMC)

The conference will cover the entire scope of microwave engineering, including passive and active microwave components, devices, circuits and modules, MMICs, RFICs, EMC/EMI, antennas and propagation, and any other microwave related topics.

  • 2011 Asia Pacific Microwave Conference (APMC)

    The conference will cover the entire scope of microwave engineering, including RF/microwave/millimetre devices and systems, antennas and propagation, and EMC/EMI. Prospective authors are invited to submit original papers on their latest research results.

  • 2010 Asia Pacific Microwave Conference - (APMC 2010)

    RF Active Devices and Circuits RF Passive Components RF and Microwave Systems Basic Theory and Techniques

  • 2009 Asia Pacific Microwave Conference - (APMC 2009)

    APMC 2009 will cover the entire scope of microwave engineering, including RF/microwave, antennas & propagation, and EMC/EMI.

  • 2008 Asia Pacific Microwave Conference - (APMC 2008)

    Emphasis: Adopt or modify some the existing microwave technologies for an ingeniously new application that makes impossible missions possible, invisible objects visible, uncertain issues certain, unknown causes known, dislocated items located, and unsafe sites safe. Invent new devices or develop ingenious technologies for performance improvement or capacity enhancement of the existing wireless communications systems.

  • 2007 Asia Pacific Microwave Conference - (APMC 2007)

    This is a conference with the theme of Technology Convergence: Microwave for Life, reflects microwave technology usages in our ways of life through consumer products and advanced communications. The objective of the APMC 2007 is to continue and accelerate the momentum of researching in microwave areas and bring together researchers to discuss and exchange experiences. We are pleased to invite all researchers to submit papers related to microwave fields to the conference.


2012 European Radar Conference (EuRAD)

Radar technology, system design and applications. Main topics: Radar sub-systems (including phased arrays and reconfigurable and multifunction radar front-ends) and phenomenology. Radar signal processing. Radar architectures and systems. Radar applications.

  • 2011 European Radar Conference (EuRAD)

    A broad range of radar related topics ranging from multi-modal configurations ad associated signal processing methods to radar system design and natural environment observation. Also included are advances in radar technology and applications in widespread applications in many military and civilian applications.

  • 2010 European Radar Conference (EuRAD)

    This Radar Conference is the major European forum for the present status and the future trends in the field of radar technology, system design, and applications.

  • 2009 European Radar Conference (EuRAD)

    The 6th European Radar Conference will be held from 30 September to 2 October 2008 in Rome, in the frame of the European Microwave Week 2009. This Radar Conference is the major European forum for the present status and the future trends in the field of radar technology and subsystems, radar system design and evaluation, and pertaining applications.

  • 2008 European Radar Conference (EuRAD)

    The 5th European Radar Conference is the major European forum to present thecurrent status and future trends in the field of radar technology, system design and applications. The radar technology comprises associate antenna and RF devices, radar signal processing and diversity techniques in radar. System design covers narrow-band, ultra-wideband, SAR and imaging radar systems.

  • 2007 European Radar Conference (EuRAD)

    A broad range of radar related topics ranging from multi-modal configurations ad associated signal processing methods to radar systems design and natural environment observation. Also included are advances in radar technology and applications in widespread applications in many military and civilian applications.


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Periodicals related to Radar remote sensing

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Geoscience and Remote Sensing, IEEE Transactions on

Theory, concepts, and techniques of science and engineering as applied to sensing the earth, oceans, atmosphere, and space; and the processing, interpretation, and dissemination of this information.



Most published Xplore authors for Radar remote sensing

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Xplore Articles related to Radar remote sensing

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Application of wavelet transforms to ultrasonic NDE and remote-sensing signal analysis

C. H. Chen Time-Frequency and Time-Scale Analysis, 1994., Proceedings of the IEEE-SP International Symposium on, 1994

The use of discrete wavelet transforms and the discrete Gabor transforms in the ultrasonic NDE (nondestructive evaluation) and remote-sensing signal characterization and/or classification is considered. Both the NDE and the remote-sensing signals are likely to have multiple components which may be quite suitable for wavelet analysis. For the ultrasonic NDE signals, both the hidden geometrical defects and the composite material ...


Forest Modeling For Height Inversion Using Single-Baseline InSAR/Pol-InSAR Data

Franck Garestier; Thuy Le Toan IEEE Transactions on Geoscience and Remote Sensing, 2010

The Random Volume over Ground (RVoG) model has been extensively applied to polarimetric synthetic aperture radar interferometry (Pol-InSAR) data for forest height inversion. The model assumes forest as a homogeneous volume of randomly oriented particles characterized by a constant extinction but does not take into account the forest vertical heterogeneity, to which interferometric coherence is sensitive. In order to integrate ...


A 225 GHz Polarimetric Radar System

R. E. McIntosh; J. B. Mead Geoscience and Remote Sensing Symposium, 1990. IGARSS '90. 'Remote Sensing Science for the Nineties'., 10th Annual International, 1990

First Page of the Article ![](/xploreAssets/images/absImages/00688801.png)


An aggregate spectral model for ERS-1 wind retrieval

E. Lettvin; J. Vesecky Geoscience and Remote Sensing, 1997. IGARSS '97. Remote Sensing - A Scientific Vision for Sustainable Development., 1997 IEEE International, 1997

The wind field at the ocean surface has been estimated via radar scatterometry for nearly two decades. Approximately one decade ago, several efforts were undertaken that investigated in detail the effect of the wind on the radar signature. These efforts were based on the use of an ocean spectral model in conjunction with a model of electromagnetic scattering. These techniques ...


Geomorphic Selection Effects In Lineament Mapping Using Orbital Radar And Landsat Imagery

P. D. Lowman Geoscience and Remote Sensing Symposium, 1990. IGARSS '90. 'Remote Sensing Science for the Nineties'., 10th Annual International, 1990

First Page of the Article ![](/xploreAssets/images/absImages/00688946.png)


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Educational Resources on Radar remote sensing

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eLearning

Application of wavelet transforms to ultrasonic NDE and remote-sensing signal analysis

C. H. Chen Time-Frequency and Time-Scale Analysis, 1994., Proceedings of the IEEE-SP International Symposium on, 1994

The use of discrete wavelet transforms and the discrete Gabor transforms in the ultrasonic NDE (nondestructive evaluation) and remote-sensing signal characterization and/or classification is considered. Both the NDE and the remote-sensing signals are likely to have multiple components which may be quite suitable for wavelet analysis. For the ultrasonic NDE signals, both the hidden geometrical defects and the composite material ...


Forest Modeling For Height Inversion Using Single-Baseline InSAR/Pol-InSAR Data

Franck Garestier; Thuy Le Toan IEEE Transactions on Geoscience and Remote Sensing, 2010

The Random Volume over Ground (RVoG) model has been extensively applied to polarimetric synthetic aperture radar interferometry (Pol-InSAR) data for forest height inversion. The model assumes forest as a homogeneous volume of randomly oriented particles characterized by a constant extinction but does not take into account the forest vertical heterogeneity, to which interferometric coherence is sensitive. In order to integrate ...


A 225 GHz Polarimetric Radar System

R. E. McIntosh; J. B. Mead Geoscience and Remote Sensing Symposium, 1990. IGARSS '90. 'Remote Sensing Science for the Nineties'., 10th Annual International, 1990

First Page of the Article ![](/xploreAssets/images/absImages/00688801.png)


An aggregate spectral model for ERS-1 wind retrieval

E. Lettvin; J. Vesecky Geoscience and Remote Sensing, 1997. IGARSS '97. Remote Sensing - A Scientific Vision for Sustainable Development., 1997 IEEE International, 1997

The wind field at the ocean surface has been estimated via radar scatterometry for nearly two decades. Approximately one decade ago, several efforts were undertaken that investigated in detail the effect of the wind on the radar signature. These efforts were based on the use of an ocean spectral model in conjunction with a model of electromagnetic scattering. These techniques ...


Geomorphic Selection Effects In Lineament Mapping Using Orbital Radar And Landsat Imagery

P. D. Lowman Geoscience and Remote Sensing Symposium, 1990. IGARSS '90. 'Remote Sensing Science for the Nineties'., 10th Annual International, 1990

First Page of the Article ![](/xploreAssets/images/absImages/00688946.png)


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IEEE.tv Videos

No IEEE.tv Videos are currently tagged "Radar remote sensing"

IEEE-USA E-Books

  • Coherently Scattering Targets

    This chapter contains sections titled: Radar Targets The Jones Matrix The Sinclair Matrix Matrices With Relative Phase FSA-BSA Conventions Relationship Between Jones and Sinclair Matrices Scattering with Circular Wave Components Backscattering Polarization Ratio of the Scattered Wave Change of Polarization Basis: The Scattering Matrix Polarizations for Maximum and Minimum Power The Polarization Fork Nonaligned Coordinate Systems Determination of Scattering Parameters References Problems

  • Bibliography

    "The increasing commercial use of millimeter wavelengths for remote sensing, communications, and radar systems has driven the need for new low-cost, high performance systems, and with it, the need for quasioptical systems.Combining a general introduction to Gaussian beams and quasioptical propagation with practical applications, QUASIOPTICAL SYSTEMS provides a state-of-the-art treatment of the design of low-loss, broadband systems at microwave to submillimeter wavelegnths. the approach presented involved utilizing a beam with a Gaussian distribution of field strength perpendicular to its axis, which in turn propagates in a simple predictable fashion. Features include: A Convenient summary of Gaussian beam propagation formulas; Extensive coverage of present-day quasioptical components and their performance; In-depth coverage of dielectric material uses at millimeter and submillimeter wavelengths; An analysis of lenses and mirrors together with design techniques; and much more!This book will be of key interest to systems designers, antenna engineers, communications systems engineers, and researchers."

  • List of Symbols and Abbreviations

    **Introduces timed arrays and design approaches to meet the new high performance standards** The author concentrates on any aspect of an antenna array that must be viewed from a time perspective. The first chapters briefly introduce antenna arrays and explain the difference between phased and timed arrays. Since timed arrays are designed for realistic time-varying signals and scenarios, the book also reviews wideband signals, baseband and passband RF signals, polarization and signal bandwidth. Other topics covered include time domain, mutual coupling, wideband elements, and dispersion. The author also presents a number of analog and digital beamforming networks for creating and manipulating beams. The book concludes with an overview of the methods to integrate time delay into the array design and of several other adaptive arrays that prove useful in many different systems. &nbsp_place_holder; * Examines RF signal concepts such as polarization and signal bandwidth and their applications to timed antenna arrays * Covers arrays of point source, elements in timed antenna arrays, active electronically scanned array technology, and time delay in corporate fed arrays * Includes complete design examples for placing time delay in arrays _Timed Arrays: Wideband and Time Varying Antenna Arrays_ is written for practicing engineers and scientists in wireless communication, radar, and remote sensing as well as graduate students and professors interested in advanced antenna topics. ****Randy Haupt, PhD.,**** is Professor and Department Head of EECS at the Colorado School of Mines. He received his PhD from the University of Michigan and retired from the USAF as a LtCol. Dr. Haupt was an RF staff consultant at Ball Aerospace & Technologies, Corp., senior scientist and department head at the Applied Research Laboratory of Penn State, professor and department head of ECE at Utah State, professor and chair of EE at the Uni ersity of Nevada Reno, and professor of EE at the USAF Academy. Dr. Haupt is a Fellow of the IEEE and Applied Computational Electromagnetics Society (ACES).

  • An Introduction to Radar

    This chapter contains sections titled: Pulse Radar CW Radar Directional Properties of Radar Measurements Resolution Imaging Radar The Traditional Radar Equation The Polarimetric Radar Equation A Polarimetric Radar Noise References Problems

  • SpaceBorne Remote Sensing of Precipitation from TRMM

    This chapter contains sections titled: Introduction Visible and Infrared Techniques Passive Microwave Remote Sensing Radar Techniques Combination of Active and Passive Sensors Conclusions References

  • Optimal Polarizations for Radar

    This chapter contains sections titled: Antenna Selection Criteria Lagrange Multipliers Maximum Power Power Contrast: Backscattering Iterative Procedure for Maximizing Power Contrast The Backscattering Covariance Matrix The Bistatic Covariance Matrix Maximizing Power Contrast by Matrix Decomposition Optimization with the Graves Matrix References Problems

  • Index

    "The increasing commercial use of millimeter wavelengths for remote sensing, communications, and radar systems has driven the need for new low-cost, high performance systems, and with it, the need for quasioptical systems.Combining a general introduction to Gaussian beams and quasioptical propagation with practical applications, QUASIOPTICAL SYSTEMS provides a state-of-the-art treatment of the design of low-loss, broadband systems at microwave to submillimeter wavelegnths. the approach presented involved utilizing a beam with a Gaussian distribution of field strength perpendicular to its axis, which in turn propagates in a simple predictable fashion. Features include: A Convenient summary of Gaussian beam propagation formulas; Extensive coverage of present-day quasioptical components and their performance; In-depth coverage of dielectric material uses at millimeter and submillimeter wavelengths; An analysis of lenses and mirrors together with design techniques; and much more!This book will be of key interest to systems designers, antenna engineers, communications systems engineers, and researchers."

  • Index

    **Introduces timed arrays and design approaches to meet the new high performance standards** The author concentrates on any aspect of an antenna array that must be viewed from a time perspective. The first chapters briefly introduce antenna arrays and explain the difference between phased and timed arrays. Since timed arrays are designed for realistic time-varying signals and scenarios, the book also reviews wideband signals, baseband and passband RF signals, polarization and signal bandwidth. Other topics covered include time domain, mutual coupling, wideband elements, and dispersion. The author also presents a number of analog and digital beamforming networks for creating and manipulating beams. The book concludes with an overview of the methods to integrate time delay into the array design and of several other adaptive arrays that prove useful in many different systems. &nbsp_place_holder; * Examines RF signal concepts such as polarization and signal bandwidth and their applications to timed antenna arrays * Covers arrays of point source, elements in timed antenna arrays, active electronically scanned array technology, and time delay in corporate fed arrays * Includes complete design examples for placing time delay in arrays _Timed Arrays: Wideband and Time Varying Antenna Arrays_ is written for practicing engineers and scientists in wireless communication, radar, and remote sensing as well as graduate students and professors interested in advanced antenna topics. ****Randy Haupt, PhD.,**** is Professor and Department Head of EECS at the Colorado School of Mines. He received his PhD from the University of Michigan and retired from the USAF as a LtCol. Dr. Haupt was an RF staff consultant at Ball Aerospace & Technologies, Corp., senior scientist and department head at the Applied Research Laboratory of Penn State, professor and department head of ECE at Utah State, professor and chair of EE at the Uni ersity of Nevada Reno, and professor of EE at the USAF Academy. Dr. Haupt is a Fellow of the IEEE and Applied Computational Electromagnetics Society (ACES).

  • Frontmatter

    The prelims comprise: Half Title Title Copyright Dedication Contents Preface Acknowledgments

  • Synthetic Aperture Radar

    This chapter contains sections titled: Creating a Terrain Map Range Resolution Azimuth Resolution Geometric Factors Polarimetric SAR SAR Errors Height Measurement Polarimetric Interferometry Phase Unwrapping References Problems



Standards related to Radar remote sensing

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Jobs related to Radar remote sensing

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