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Localisation of the complex spectrum : The S transform
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The S transform as discussed by the authors is an extension to the ideas of the Gabor transform and the Wavelet transform, based on a moving and scalable localising Gaussian window and is shown here to have characteristics that are superior to either of the transforms.Abstract:
The S transform, an extension to the ideas of the Gabor transform and the Wavelet transform, is based on a moving and scalable localising Gaussian window and is shown here to have characteristics that are superior to either of the transforms. The S transform is fully convertible both forward and inverse from the time domain to the 2-D frequency translation (time) domain and to the familiar Fourier frequency domain. Parallel to the translation (time) axis, the S transform collapses as the Fourier transform. The amplitude frequency-time spectrum and the phase frequency-time spectrum are both useful in defining local spectral characteristics. The superior properties of the S transform are due to the fact that the modulating sinusoids are fixed with respect to the time axis while the localising scalable Gaussian window dilates and translates. As a result, the phase spectrum is absolute in the sense that it is always referred to the origin of the time axis, the fixed reference point. The real and imaginary spectrum can be localised independently with a resolution in time corresponding to the period of the basis functions in question. Changes in the absolute phase ofa constituent frequency can be followed along the time axis and useful information can be extracted. An analysis of a sum of two oppositely progressing chirp signals provides a spectacular example of the power of the S transform. Other examples of the applications of the Stransform to synthetic as well as real data are provided.read more
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Stockwell-common spatial pattern technique for motor imagery-based Brain Computer Interface design
TL;DR: The combined approach of S-Transform and Common Spatial Pattern is established as an efficient technique for binary class Brain Computer Interface implementation and classification results illustrate the efficacy of proposed technique in motor imagery signal classification task.
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Reliable activation to novel stimuli predicts higher fluid intelligence.
Matthew J. Euler,Matthew J. Euler,Michael P. Weisend,Rex E. Jung,Rex E. Jung,Robert J. Thoma,Robert J. Thoma,Ronald A. Yeo +7 more
TL;DR: The link between Gf and reliable responding to changing inputs suggests an important role for flexible resource allocation in fluid intellectual skills and time-frequency analyses can capture cross-trial variation in the phase of neural activity.
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A KCNJ6 gene polymorphism modulates theta oscillations during reward processing.
Chella Kamarajan,Ashwini K. Pandey,David B. Chorlian,Niklas Manz,Arthur T. Stimus,Howard J. Edenberg,Leah Wetherill,Marc A. Schuckit,Jen Chyong Wang,Samuel Kuperman,John Kramer,Jay A. Tischfield,Bernice Porjesz +12 more
TL;DR: Findings indicate that variations in the KCNJ6 SNP influence magnitude of theta oscillations at posterior loci during the evaluation of loss and gain, reflecting a genetic influence on neuronal circuits involved in reward-processing.
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Spectral Decomposition and a Waveform Cluster to Characterize Strongly Heterogeneous Paleokarst Reservoirs in the Tarim Basin, China
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GPS Total Electron Content Variations Associated with Poleward Moving Sun Aligned Arcs
Thayyil Jayachandran,Chris Watson,Kazuo Shiokawa,Yuichi Otsuka,John MacDougall,S. C. Mushini,Keisuke Hosokawa,Paul Prikryl,Chadwick Richard,T. Kelly +9 more
Abstract: [1] GPS total electron content (TEC) has shown quasiperiodic oscillations of varying amplitude associated with poleward moving Sun-aligned arcs. The amplitude of TEC variations showed a maximum of ∼3 TECU and seemed to decrease as the arcs moved poleward from the source/generation region. Simultaneous DMSP data showed that fluctuations in TEC and optical intensification were caused by precipitation of high-energy (>500 eV) particles. Concurrent ionosonde observations also exhibited quasiperiodic variations (within limit of the resolution of the data) in peak ionospheric electron density of the ionosphere. Bottom height of the ionospheric layers produced by precipitating particles varied between 130 km (upper E region) and 300 km (F region), indicating variable particle precipitation energy. Frequency analysis of high-resolution TEC data showed a broad range of discrete frequency components from 1.60 mHz to 22.80 mHz present in the TEC oscillations, which may provide insight into the energization/modulation of precipitating particles by these oscillations. A broad distribution of equivalent vertical thickness of arcs was calculated using GPS TEC and ionosonde measurements of peak electron density. This distribution showed a minimum thickness of 21 km, a maximum of 84 km, and an average of 49 km. The equivalent vertical thickness also showed a linear relationship with bottomside height of the ionospheric layer (auroral arc). The relationship showed an increase in the vertical thickness with an increase in bottomside height of the layer. This relationship is a consequence of variations in the energy of the precipitating particles causing different ionospheric production profiles.
References
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The wavelet transform, time-frequency localization and signal analysis
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TL;DR: A simple, nonrigorous, synthetic view of wavelet theory is presented for both review and tutorial purposes, which includes nonstationary signal analysis, scale versus frequency,Wavelet analysis and synthesis, scalograms, wavelet frames and orthonormal bases, the discrete-time case, and applications of wavelets in signal processing.
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Wavelet Transforms and their Applications to Turbulence
TL;DR: Wavelet transforms are recent mathematical techniques, based on group theory and square integrable representations, which allows one to unfold a signal, or a field, into both space and scale, and possibly directions.