Conferences related to Seismic waves

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IGARSS 2015 - 2015 IEEE International Geoscience and Remote Sensing Symposium

The Geoscience and Remote Sensing Society (GRSS) seeks to advance science and technology in geoscience, remote sensing and related fields using conferences, education and other resources. Its fields of interest are the theory, concepts and techniques of science and engineering as they apply to the remote sensing of the earth, oceans, atmosphere, and space, as well as the processing, interpretation and dissemination of this information.

  • IGARSS 2014 - 2014 IEEE International Geoscience and Remote Sensing Symposium

    GRSS seeks to advance science and technology in geoscience, remote sensing and related fields. IGARSS begins with a plenary session and tutorials on the most up-to-date topics. Paper, panel and poster sessions will be scheduled. The exhibit hall features the latest in geoscience instruments, equipment, software, publications, and scientific programs.

  • IGARSS 2013 - 2013 IEEE International Geoscience and Remote Sensing Symposium

    GRSS seeks to advance science and technology in geoscience, remote sensing and related fields. IGARSS begins with a plenary session and tutorials on the most up-to-date topics. Paper, panel and poster sessions will be scheduled. The exhibit hall features the latest in geoscience instruments, equipment, software, publications, and scientific programs.

  • IGARSS 2012 - 2012 IEEE International Geoscience and Remote Sensing Symposium

    Remote Sensing Techniques and Applications.

  • IGARSS 2011 - 2011 IEEE International Geoscience and Remote Sensing Symposium

    To gather world-class scientists, engineers and educators engaged in the fields of geoscience and remote sensing to meet and present their latest activities. Nearly 1900 participants from all over the world attended technical sessions, tutorials, exhibits and social activities at the 2010 event in Hawaii.

  • IGARSS 2010 - 2010 IEEE International Geoscience and Remote Sensing Symposium

    Remote Sensing techniques and applications

  • IGARSS 2009 - 2009 IEEE International Geoscience and Remote Sensing Symposium

    The programme for Cape Town will have several special sessions, in addition to maintaining continuity of traditional GRSS themes. IGARSS 2009 will celebrate ten years of MODIS Earth observations, and five years of the GEOSS programme. On the technical side, special sessions on microsatellites will be organized. In terms of African development, several sessions on applications will address disaster preparedness and response, global change and adaptation, good governance and role of RS in health.


2012 11th International Conference on Signal Processing (ICSP 2012)

Signal Processing; Speech and Audio Coding; Image Processing; Computer Vision;; Video compression; Pattern Recognition; Statistic Machine Learning; Wireless and Communications; Radar Signal Processing; Biometrics; Authentification; Sonar Signal Processing ; Sensor Networks

  • 2010 10th International Conference on Signal Processing (ICSP 2010)

    Digital Signal Processing (DSP); Spectrum Estimation & Modeling; TF Spectrum Analysis & Wavelet; Higher Order Spectral Analysis; Adaptive Filtering &SP; Array Signal Processing; Hardware Implementation for SP; Speech and Audio Coding; Speech Synthesis & Recognition; Image Processing & Understanding; PDE for Image Processing;Video compression &Streaming; Computer Vision & VR; Multimedia & Human-computer Interaction; Statistic Learning,ML & Pattern Recognition; AI & Neural Networks; Communication Signal proce

  • 2008 9th International Conference on Signal Processing (ICSP 2008)


2011 IEEE 3rd International Conference on Signal Processing Systems (ICSPS)

ICSPS is one of the leading international conferences for presenting novel and fundamental advances in the fields of Signal Processing Systems. It also serves to foster communication among researchers and practitioners working in a wide variety of scientific areas with a common interest in improving Signal Processing Systems related techniques.



Periodicals related to Seismic waves

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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.


Oceanic Engineering, IEEE Journal of

Bayes procedures; buried-object detection; dielectric measurements; Doppler measurements; geomagnetism; sea floor; sea ice; sea measurements; sea surface electromagnetic scattering; seismology; sonar; acoustic tomography; underwater acoustics; and underwater radio communication.


Proceedings of the IEEE

The most highly-cited general interest journal in electrical engineering and computer science, the Proceedings is the best way to stay informed on an exemplary range of topics. This journal also holds the distinction of having the longest useful archival life of any EE or computer related journal in the world! Since 1913, the Proceedings of the IEEE has been the ...


Signal Processing, IEEE Transactions on

The technology of transmission, recording, reproduction, processing, and measurement of speech; other audio-frequency waves and other signals by digital, electronic, electrical, acoustic, mechanical, and optical means; the components and systems to accomplish these and related aims; and the environmental, psychological, and physiological factors of thesetechnologies.


Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on

IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control was the number-three journal in acoustics in 2002, according to the annual Journal Citation Report (2002 edition) published by the Institute for Scientific Information. This publication focuses on the theory, design, and application on generation, transmission, and detection of bulk and surface mechanical waves; fundamental studies in physical acoustics; design of sonic ...



Most published Xplore authors for Seismic waves

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Xplore Articles related to Seismic waves

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Experimental model for a seismic landmine detection system

W. R. Scott; J. S. Martin; G. D. Larison IEEE Transactions on Geoscience and Remote Sensing, 2001

A laboratory-scale experimental model has been developed and tested for a system that uses artificially generated high-frequency seismic waves in conjunction with a radar-based noncontact displacement sensor to detect buried landmines. The principle of operation of the system is to measure the transient displacement field very close to a mine location. In this way, the absorption and the geometrical spreading ...


Stream-handling seismic waves detection and recognition system

Sergey Avrorov; Marat Khairetdinov 2008 IEEE Region 8 International Conference on Computational Technologies in Electrical and Electronics Engineering, 2008

A technology of automated program system for the detection and recognition of seismic signals from earthquakes, nuclear, and industrial explosions with background noise is proposed. Multi-channel data processing with the use of a pattern recognition procedure and the calculation of seismic source parameters in real time is supported. A program system including a set of developed algorithms has been created, ...


Site investigations function better with seismic waves

B. Luke IEEE Potentials, 1999

Discusses the spectral analysis of surface waves (SASW) method in seismic sounding. The characteristics of the method are described together with the uses that it can be put


Lightning Triggering Related with Seismic Waves

Leonid V. Sorokin 2007 7th International Symposium on Electromagnetic Compatibility and Electromagnetic Ecology, 2007

This paper reports the trigger effects concerning rare high intensity sub- millisecond electromagnetic pulses associated with passage of seismic waves from earthquakes. The Malaysian LDN data have been studied together with earthquake USGS NEIC catalog, and space-time coupling of positive cloud-to- ground discharges (+CG) with exact seismic waves from the earthquakes has been described. Electromagnetic pulses related to seismic waves ...


Robust arrival time determination of seismic waves in noise

D. Aboutajdine; Z. Amri; M. Najim ICASSP '81. IEEE International Conference on Acoustics, Speech, and Signal Processing, 1981

In explosion seismology, the arrival time determination of reflected waves is the fundamental problem in relating seismograms to the subsurface structure. A robust method, combining both energitical and zero-crossings analyses of the signal, is proposed. The basic idea is to analyse the variations of the signal power computed between consecutive zero-crossings. In order to handle noisy signals, discrimination of the ...


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Educational Resources on Seismic waves

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eLearning

Experimental model for a seismic landmine detection system

W. R. Scott; J. S. Martin; G. D. Larison IEEE Transactions on Geoscience and Remote Sensing, 2001

A laboratory-scale experimental model has been developed and tested for a system that uses artificially generated high-frequency seismic waves in conjunction with a radar-based noncontact displacement sensor to detect buried landmines. The principle of operation of the system is to measure the transient displacement field very close to a mine location. In this way, the absorption and the geometrical spreading ...


Stream-handling seismic waves detection and recognition system

Sergey Avrorov; Marat Khairetdinov 2008 IEEE Region 8 International Conference on Computational Technologies in Electrical and Electronics Engineering, 2008

A technology of automated program system for the detection and recognition of seismic signals from earthquakes, nuclear, and industrial explosions with background noise is proposed. Multi-channel data processing with the use of a pattern recognition procedure and the calculation of seismic source parameters in real time is supported. A program system including a set of developed algorithms has been created, ...


Site investigations function better with seismic waves

B. Luke IEEE Potentials, 1999

Discusses the spectral analysis of surface waves (SASW) method in seismic sounding. The characteristics of the method are described together with the uses that it can be put


Lightning Triggering Related with Seismic Waves

Leonid V. Sorokin 2007 7th International Symposium on Electromagnetic Compatibility and Electromagnetic Ecology, 2007

This paper reports the trigger effects concerning rare high intensity sub- millisecond electromagnetic pulses associated with passage of seismic waves from earthquakes. The Malaysian LDN data have been studied together with earthquake USGS NEIC catalog, and space-time coupling of positive cloud-to- ground discharges (+CG) with exact seismic waves from the earthquakes has been described. Electromagnetic pulses related to seismic waves ...


Robust arrival time determination of seismic waves in noise

D. Aboutajdine; Z. Amri; M. Najim ICASSP '81. IEEE International Conference on Acoustics, Speech, and Signal Processing, 1981

In explosion seismology, the arrival time determination of reflected waves is the fundamental problem in relating seismograms to the subsurface structure. A robust method, combining both energitical and zero-crossings analyses of the signal, is proposed. The basic idea is to analyse the variations of the signal power computed between consecutive zero-crossings. In order to handle noisy signals, discrimination of the ...


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IEEE-USA E-Books

  • Fault Zones from Top to Bottom

    We review recent geophysical insights into the physical properties of fault zones at all depths in the crust and subcrustal lithosphere. The fault core zone, where slip occurs, is thin (tens of centimeters) and can mainly be studied in trenches and in borehole well logs. The fault damage zone is wider (tens to hundred of meters) and can be measured by the analysis of fault zone- trapped waves. Such studies indicate that the damage zone extends to a depth of at least 3-5 km, but there is no agreement on the maximum depth limit. The damage zone exhibits a seismic velocity reduction (with respect to the neighboring country rock) as high as 20-50%. Significantly, this velocity reduction appears to have a temporal component, with a maximum reduction after a large rupture. The fault damage zone then undergoes a slow healing process that appears to be related to fluid-rock interactions that leads to dissolution of grain contacts and recrystallization. Deep seismic reflection profiles and teleseismic receiver functions provide excellent images of faults throughout the crust. In extensional environments these profiles show normal faulting in the upper crust and ductile extension in the lower crust. In compressional environments, large-scale low-angle nappes are evident. These are commonly multiply faulted. The very thin damage zones for these low angle faults are indicative of high pore-fluid pressures that appear to counteract the normal stresses, thereby facilitating thrusting. The presence of fluids within fault zones is also evidenced by geo-electrical studies in such diverse environments as the Himalayan and Andean orogens, the San Andreas fault, and the Dead Sea Transform. Such studies show that the fault can act as a fluid conduit, barrier, or combined conduit-barrier system depending on the physical properties of the fault core zone and damage zone. The ge ometry of active fault zones at depth is revealed by precise microearthquake hypocentral locations. There is considerable geometric diversity, with some strike-slip faults showing a very thin (less then 75 m wide) fault plane and others showing wider, segmented planes and/or parallel strands of faulting. A new discovery is slip-parallel, subhorizontal streaks of seismicity that have been identified on some faults. Such streaks may be due to boundaries between locked and slipping parts of the fault or lithologic variations on the fault surface. Measurements of seismic anisotropy across strike-slip faults are consistent with localized fault-parallel shear deformation in the uppermost mantle, with a width that varies between 20 and 100 km. In addition to shear deformation zones, seismic reflection profiles have imaged discrete faults in the uppermost mantle, mainly associated with paleo-continent/continent collisions. Looking deeper, the lithosphere-asthenosphere boundary may be considered as a major shear zone, considering the horizontal movement of lithospheric plates. This shear zone can be imaged with newly developed seismic receiver function methods.



Standards related to Seismic waves

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Jobs related to Seismic waves

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