Oscillations in the Regions of Evershed Flows

Authors have investigated the line-of-sight velocity difference in the radial direction of sunspot penumbrae simultaneously at two height levels, NiI 4857 and Hβ by the differential method. Power spectra of time series exhibit in the range under consideration three groups of periods: 30-40, 12-15, and 8-10 minutes. Particular emphasis has been placed on the low-frequency portion of the spectrum (0.5-2 mHz). In addition to the 12-minute oscillations as detected by Rimmele the line-of-sight velocity component that is caused by Evershed motion is responsible for oscillations with periods of 15-35 minutes, which occur concurrently at the two height levels.

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Bootstrapping long memory time series: Application in low frequency estimators

Econometrics and Statistics ◽

10.1016/j.ecosta.2021.06.002 ◽

2021 ◽

Author(s):

Josu Arteche

Keyword(s):

Time Series ◽

Long Memory ◽

Low Frequency ◽

Memory Time

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Shift Detection in Hydrological Regimes and Pluriannual Low-Frequency Streamflow Forecasting Using the Hidden Markov Model

Water ◽

10.3390/w12072058 ◽

2020 ◽

Vol 12 (7) ◽

pp. 2058 ◽

Cited By ~ 2

Author(s):

Larissa Rolim ◽

Francisco de Souza Filho

Keyword(s):

Time Series ◽

Markov Model ◽

Hidden Markov Model ◽

Extreme Events ◽

Hidden Markov ◽

Low Frequency ◽

Streamflow Forecasting ◽

Hydrologic Time Series ◽

Low Frequency Variability ◽

The Impact

Improved water resource management relies on accurate analyses of the past dynamics of hydrological variables. The presence of low-frequency structures in hydrologic time series is an important feature. It can modify the probability of extreme events occurring in different time scales, which makes the risk associated with extreme events dynamic, changing from one decade to another. This article proposes a methodology capable of dynamically detecting and predicting low-frequency streamflow (16–32 years), which presented significance in the wavelet power spectrum. The Standardized Runoff Index (SRI), the Pruned Exact Linear Time (PELT) algorithm, the breaks for additive seasonal and trend (BFAST) method, and the hidden Markov model (HMM) were used to identify the shifts in low frequency. The HMM was also used to forecast the low frequency. As part of the results, the regime shifts detected by the BFAST approach are not entirely consistent with results from the other methods. A common shift occurs in the mid-1980s and can be attributed to the construction of the reservoir. Climate variability modulates the streamflow low-frequency variability, and anthropogenic activities and climate change can modify this modulation. The identification of shifts reveals the impact of low frequency in the streamflow time series, showing that the low-frequency variability conditions the flows of a given year.

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Locally and Remotely Forced Subtropical AMOC Variability: A Matter of Time Scales

Journal of Climate ◽

10.1175/jcli-d-19-0844.1 ◽

2020 ◽

Vol 33 (12) ◽

pp. 5155-5172

Author(s):

Quentin Jamet ◽

William K. Dewar ◽

Nicolas Wienders ◽

Bruno Deremble ◽

Sally Close ◽

...

Keyword(s):

Time Series ◽

Time Scales ◽

North Atlantic ◽

Time Scale ◽

Low Frequency ◽

Meridional Overturning Circulation ◽

Open Boundary ◽

Overturning Circulation ◽

Decadal Scale ◽

Meridional Overturning

AbstractMechanisms driving the North Atlantic meridional overturning circulation (AMOC) variability at low frequency are of central interest for accurate climate predictions. Although the subpolar gyre region has been identified as a preferred place for generating climate time-scale signals, their southward propagation remains under consideration, complicating the interpretation of the observed time series provided by the Rapid Climate Change–Meridional Overturning Circulation and Heatflux Array–Western Boundary Time Series (RAPID–MOCHA–WBTS) program. In this study, we aim at disentangling the respective contribution of the local atmospheric forcing from signals of remote origin for the subtropical low-frequency AMOC variability. We analyze for this a set of four ensembles of a regional (20°S–55°N), eddy-resolving (1/12°) North Atlantic oceanic configuration, where surface forcing and open boundary conditions are alternatively permuted from fully varying (realistic) to yearly repeating signals. Their analysis reveals the predominance of local, atmospherically forced signal at interannual time scales (2–10 years), whereas signals imposed by the boundaries are responsible for the decadal (10–30 years) part of the spectrum. Due to this marked time-scale separation, we show that, although the intergyre region exhibits peculiarities, most of the subtropical AMOC variability can be understood as a linear superposition of these two signals. Finally, we find that the decadal-scale, boundary-forced AMOC variability has both northern and southern origins, although the former dominates over the latter, including at the site of the RAPID array (26.5°N).

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Nonrandom variability in respiratory cycle parameters of humans during stage 2 sleep

Journal of Applied Physiology ◽

10.1152/jappl.1990.69.2.630 ◽

1990 ◽

Vol 69 (2) ◽

pp. 630-639 ◽

Cited By ~ 34

Author(s):

M. Modarreszadeh ◽

E. N. Bruce ◽

B. Gothe

Keyword(s):

High Frequency ◽

Minute Ventilation ◽

Power Spectra ◽

Low Frequency ◽

Neural Mechanism ◽

Normal Subjects ◽

Feedback Loops ◽

Low Frequency Oscillations ◽

Stage 2 Sleep ◽

Correlated Components

We analyzed breath-to-breath inspiratory time (TI), expiratory time (TE), inspiratory volume (VI), and minute ventilation (Vm) from 11 normal subjects during stage 2 sleep. The analysis consisted of 1) fitting first- and second-order autoregressive models (AR1 and AR2) and 2) obtaining the power spectra of the data by fast-Fourier transform. For the AR2 model, the only coefficients that were statistically different from zero were the average alpha 1 (a1) for TI, VI, and Vm (a1 = 0.19, 0.29, and 0.15, respectively). However, the power spectra of all parameters often exhibited peaks at low frequency (less than 0.2 cycles/breath) and/or at high frequency (greater than 0.2 cycles/breath), indicative of periodic oscillations. After accounting for the corrupting effects of added oscillations on the a1 estimates, we conclude that 1) breath-to-breath fluctuations of VI, and to a lesser extent TI and Vm, exhibit a first-order autoregressive structure such that fluctuations of each breath are positively correlated with those of immediately preceding breaths and 2) the correlated components of variability in TE are mostly due to discrete high- and/or low-frequency oscillations with no underlying autoregressive structure. We propose that the autoregressive structure of VI, TI, and Vm during spontaneous breathing in stage 2 sleep may reflect either a central neural mechanism or the effects of noise in respiratory chemical feedback loops; the presence of low-frequency oscillations, seen more often in Vm, suggests possible instability in the chemical feedback loops. Mechanisms of high-frequency periodicities, seen more often in TE, are unknown.

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Prediction of Surge Motion Response of Floating Structure Using Kalman Smoother Adaptive Filters Based Time-Domain Volterra Model

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.660.799 ◽

2014 ◽

Vol 660 ◽

pp. 799-803

Author(s):

Edwar Yazid ◽

M.S. Liew ◽

Setyamartana Parman ◽

V.J. Kurian ◽

C.Y. Ng

Keyword(s):

Time Series ◽

Transfer Function ◽

Time Domain ◽

Adaptive Filters ◽

Low Frequency ◽

Volterra Model ◽

Floating Structure ◽

Frequency Responses ◽

Kalman Smoother ◽

System Output

This work presents an approachto predict the low frequency and wave frequency responses (LFR and WFR) of afloating structure using Kalman smoother adaptive filters based time domain Volterramodel. This method utilized time series of a measured wave height as systeminput and surge motion as system output and used to generate the linear andnonlinear transfer function (TFs). Based on those TFs, predictions of surgemotion in terms of LFR and WFR were carried out in certain frequency ranges ofwave heights. The applicability of the proposed method is then applied in ascaled 1:100 model of a semisubmersible prototype.

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An Experimental Study of the Forced Response of Pre- and Post-Critical Plates

Volume 3A: 15th Biennial Conference on Mechanical Vibration and Noise — Vibration of Nonlinear, Random, and Time-Varying Systems ◽

10.1115/detc1995-0310 ◽

1995 ◽

Author(s):

Kevin D. Murphy ◽

Lawrence N. Virgin ◽

Stephen A. Rizzi

Keyword(s):

Experimental Study ◽

Time Series ◽

Lyapunov Exponent ◽

Small Amplitude ◽

Narrow Band ◽

Power Spectra ◽

Forced Response ◽

Acoustic Excitation ◽

Rectangular Plates ◽

Auto Correlation

Abstract Experimental results are presented which characterize the dynamic response of homogeneous, fully clamped, rectangular plates to narrow band acoustic excitation and uniform thermal loads. Using time series, pseudo-phase projections, power spectra and auto-correlation functions, small amplitude vibrations are considered about both the pre- and post-critical states. These techniques are then employed to investigate the snap-through response. The results for snap-through suggest that the motion is temporally complex and a Lyapunov exponent calculation confirms that the motion is chaotic. Finally, a snap-through boundary is mapped in the (ω, SPL) parameter space separating the regions of snap-through and no snap-through.

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Temporal Properties of Posterior Parietal Neuron Discharges During Working Memory and Passive Viewing

Journal of Neurophysiology ◽

10.1152/jn.00977.2006 ◽

2007 ◽

Vol 97 (3) ◽

pp. 2254-2266 ◽

Cited By ~ 16

Author(s):

Frederik C. Joelving ◽

Albert Compte ◽

Christos Constantinidis

Keyword(s):

Working Memory ◽

Posterior Parietal Cortex ◽

Memory Task ◽

Power Spectra ◽

Low Frequency ◽

Spatial Location ◽

Spike Trains ◽

Memory Condition ◽

Temporal Properties ◽

Posterior Parietal

Working memory is mediated by the discharges of neurons in a distributed network of brain areas. It was recently suggested that enhanced rhythmicity in neuronal activity may be critical for sustaining remembered information. To test whether working memory is characterized by unique temporal discharge patterns, we analyzed the autocorrelograms and power spectra of spike trains recorded from the posterior parietal cortex of monkeys performing a visuospatial working-memory task. We compared the intervals of active memory maintenance and fixation and repeated the same analysis in spike trains from monkeys never trained to perform any kind of memory task. The most salient effect we observed was a decrease of power in the 5- to 10-Hz frequency range during the presentation of visual stimuli. This pattern was observed both in the working-memory condition and the control condition, although it was more prominent in the former, where it persisted after cue presentation when the monkeys actively remembered the spatial location of the stimulus. Low-frequency power suppression resulted from relative refractory periods that were significantly longer in the working-memory condition and presumably emerged from local-circuit inhibition. We also detected a spectral peak in the 15- to 20-Hz range, although this was more prominent during fixation than during the stimulus and working-memory periods. Our results are in line with previous reports in prefrontal cortex and indicate that unique temporal patterns of single-neuron firing characterize persistent delay activity, although these do not involve the appearance of enhanced oscillations.

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Subtraction of Bright Point Sources from Synthesis Images of the Epoch of Reionization

Publications of the Astronomical Society of Australia ◽

10.1071/as10023 ◽

2011 ◽

Vol 28 (1) ◽

pp. 46-57 ◽

Cited By ~ 23

Author(s):

B. Pindor ◽

J. S. B. Wyithe ◽

D. A. Mitchell ◽

S. M. Ord ◽

R. B. Wayth ◽

...

Keyword(s):

Active Galactic Nuclei ◽

Dynamic Range ◽

Low Frequency ◽

Neutral Hydrogen ◽

Galactic Nuclei ◽

Point Sources ◽

Field Of View ◽

Bright Point ◽

Line Of Sight ◽

Diffuse Background

AbstractBright point sources associated with extragalactic active galactic nuclei and radio galaxies are an important foreground for low-frequency radio experiments aimed at detecting the redshifted 21-cm emission from neutral hydrogen during the epoch of reionization. The frequency dependence of the synthesized beam implies that the sidelobes of these sources will move across the field of view as a function of observing frequency, hence frustrating line-of-sight foreground subtraction techniques. We describe a method for subtracting these point sources from dirty maps produced by an instrument such as the MWA. This technique combines matched filters with an iterative centroiding scheme to locate and characterize point sources in the presence of a diffuse background. Simulations show that this technique can improve the dynamic range of epoch-of-reionization maps by 2—3 orders of magnitude.

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Spectral analysis of the EMG and diaphragmatic muscle fatigue during periodic breathing in infants

Journal of Applied Physiology ◽

10.1152/jappl.1985.58.3.830 ◽

1985 ◽

Vol 58 (3) ◽

pp. 830-833 ◽

Cited By ~ 5

Author(s):

S. T. Nugent ◽

J. P. Finley

Keyword(s):

Spectral Analysis ◽

Muscle Fatigue ◽

Preterm Infants ◽

High Frequency ◽

Power Spectra ◽

Low Frequency ◽

Periodic Breathing ◽

Full Term ◽

Diaphragmatic Muscle ◽

Normal Breathing

Periodic breathing occurs commonly in full-term and preterm infants. The mechanisms which switch breathing on and off within a cycle of periodic breathing are not certain. Since immature infants may experience diaphragmatic muscle fatigue, one potential switching mechanism is fatigue. Power spectra of the electromyogram, uncontaminated by the electrocardiograph artifact, were studied for evidence of diaphragmatic muscle fatigue during spontaneous periodic breathing in infants. A fall in the high-frequency (103–600 Hz) power and an increase in the low-frequency (23–47 Hz) power during periodic as compared with normal breathing would indicate fatigue. This effect was not observed in any of the infants studied. Hence, there is no evidence that periodic breathing is the result of diaphragmatic muscle fatigue. This finding suggests that the effect of drugs such as theophylline in eliminating periodic breathing may be unrelated to the fact that they also reduce fatigue.

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Determination of the complex frequencies for the normal modes below 1mHz after the 2010 Maule and 2011 Tohoku earthquakes

Annals of Geophysics ◽

10.4401/ag-6400 ◽

2014 ◽

Vol 56 (5) ◽

Author(s):

Hao Ding ◽

Wen-Bin Shen

Keyword(s):

Time Series ◽

Normal Modes ◽

Power Spectra ◽

Tohoku Earthquake ◽

Superconducting Gravimeter ◽

Width Ratio ◽

Maule Earthquake ◽

Attenuation Models ◽

First Time

Based upon SG (superconducting gravimeter) records, the autoregressive method proposed by Chao and Gilbert [1980] is used to determine the frequencies of the singlets of seven spheroidal modes (0S2, 2S1, 0S3, 0S4, 1S2, 0S0, and 3S1) and the degenerate frequencies of three toroidal modes (0T2, 0T3, and 0T4) below 1 mHz after two recent huge earthquakes, the 2010 Mw8.8 Maule earthquake and the 2011 Mw9.1 Tohoku earthquake. The corresponding quality factor Qs are also determined for those modes, of which the Qs of the five singlets of 1S2 and the five singlets (m=0, m=±2, and m=±3) of 0S4 are estimated for the first time using the SG observations. The singlet m=0 of 3S1 is clearly observed from the power spectra of the SG time series without using other special spectral analysis methods or special time series from pole station records. In addition, the splitting width ratio R of 3S1 is 0.99, and consequently we conclude that 3S1 is normally split. The frequencies and Qs of the modes below 1mHz may contribute to refining the 3D density and attenuation models of the Earth.

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