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'''SigSpec''' is an acronym of "SIGnificance SPECtrum" and addresses a statistical technique to provide the reliability of periodicities in a measured (noisy and not necessarily equidistant) [[time series]].<ref>{{cite journal | author = P. Reegen | title = SigSpec - I. Frequency- and phase-resolved significance in Fourier space | journal = Astronomy and Astrophysics | volume = 467 | pages = 1353–1371 | year = 2007 | doi = 10.1051/0004-6361:20066597 | bibcode=2007A&A...467.1353R|arxiv = physics/0703160 }}</ref> It relies on the amplitude [[Spectral density|spectrum]] obtained by the [[Discrete Fourier transform]] (DFT) and assigns a quantity called the spectral significance (frequently abbreviated by “'''sig'''”) to each [[amplitude]]. This quantity is a [[logarithm]]ic measure of the [[probability]] that the given amplitude level is due to [[white noise]], in the sense of a [[type I error]]. It represents the answer to the question, “What would be the chance to obtain an amplitude like the measured one or higher, if the analysed time series were [[random]]?”


SigSpec may be considered a formal extension to the [[Least-squares spectral analysis|Lomb-Scargle periodogram]],<ref>{{cite journal | author = N. R. Lomb | title = Least-squares frequency analysis of unequally spaced data | journal = Astrophysics and Space Science | volume = 39 | pages = 447–462 | year = 1976|bibcode = 1976Ap&SS..39..447L |doi = 10.1007/BF00648343 }}</ref><ref>{{cite journal | author = J. D. Scargle | title = Studies in astronomical time series analysis. II. Statistical aspects of spectral analysis of unevenly spaced data | doi=10.1086/160554 | journal = The Astrophysical Journal | volume = 263 | pages = 835–853 | year = 1982 | bibcode=1982ApJ...263..835S}}</ref> appropriately incorporating a time series to be averaged to zero before applying the DFT, which is done in many practical applications. When a zero-mean corrected dataset has to be statistically compared to a [[random sample]], the [[Sample mean and sample covariance|sample mean]] (rather than the [[Mean|population mean]] only) has to be zero.
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== Probability density function (pdf) of white noise in Fourier space ==
 
Considering a time series to be represented by a set of <math>K</math> pairs <math>(t_k,x_k)</math>, the amplitude [[Probability density function|pdf]] of white noise in [[Fourier space]], depending on [[frequency]] and [[Phase (waves)|phase]] angle may be described in terms of three parameters, <math>\alpha_0</math>, <math>\beta_0</math>, <math>\theta_0</math>, defining the “sampling profile”, according to
 
:<math>\tan 2\theta_0 = \frac{K\sum_{k=0}^{K-1}\sin 2\omega t_k - 2\left(\sum_{k=0}^{K-1}\cos\omega t_k\right)\left(\sum_{k=0}^{K-1}\sin\omega t_k\right)}{K\sum_{k=0}^{K-1}\cos 2\omega t_k - \big(\sum_{k=0}^{K-1}\cos\omega t_k\big)^2 + \big(\sum_{k=0}^{K-1}\sin\omega t_k\big)^2},</math>
 
:<math>\alpha_0 = \sqrt{\frac{2}{K^2}\left( K\sum_{k=0}^{K-1}\cos ^2\left(\omega t_k-\theta_0\right) -\left[\sum_{l=0}^{K-1}\cos\left(\omega t_k-\theta_0\right)\right]^2\right)},</math>
 
:<math>\beta_0 = \sqrt{\frac{2}{K^2}\left( K\sum_{k=0}^{K-1}\sin ^2\left(\omega t_k-\theta_0\right) -\left[\sum_{l=0}^{K-1}\sin\left(\omega t_k-\theta_0\right)\right]^2\right)}.</math>
 
In terms of the phase angle in Fourier space, <math>\theta</math>, with
 
:<math>\tan\theta = \frac{\sum_{k=0}^{K-1}\sin\omega t_k}{\sum_{k=0}^{K-1}\cos\omega t_k},</math>
 
the probability density of amplitudes is given by
 
:<math>\phi (A) = \frac{KA\cdot\operatorname{sock}}{2<x^2>}\exp\left(-\frac{KA^2}{4<x^2>}\cdot\operatorname{sock}\right),</math>
 
where the sock function is defined by
 
:<math>\operatorname{sock}(\omega ,\theta) = \left[\frac{\cos^2\left(\theta - \theta_0\right)}{\alpha_0^2}+\frac{\sin^2\left(\theta - \theta_0\right)}{\beta_0^2}\right]</math>
 
and <math><x^2></math> denotes the [[variance]] of the [[Dependent and independent variables|dependent variable]] <math>x_k</math>.
 
== False-alarm probability and spectral significance ==
 
Integration of the pdf yields the false-alarm probability that white noise in the [[time domain]] produces an amplitude of at least <math>A</math>,
 
:<math>\Phi_\operatorname{FA}(A) = \exp\left(-\frac{KA^2}{4<x^2>}\cdot\operatorname{sock}\right).</math>
 
The sig is defined as the negative logarithm of the false-alarm probability and evaluates to
 
:<math>\operatorname{sig}(A) = \frac{KA^2\log e}{4<x^2>}\cdot\operatorname{sock}.</math>
 
It returns the number of random time series one would have to examine to obtain one amplitude exceeding <math>A</math> at the given frequency and phase.
 
== Applications ==
 
SigSpec is primarily used in [[asteroseismology]] to identify [[variable star]]s and to classify stellar pulsation (see references below). The fact that this method incorporates the properties of the time-domain sampling appropriately makes it a valuable tool for typical astronomical measurements containing data gaps.
 
== References ==
<!--- See [[Wikipedia:Footnotes]] on how to create references using <ref></ref> tags which will then appear here automatically -->
{{Reflist}}
 
* {{cite journal
| author = M. Breger, S. M. Rucinski, P. Reegen
| title = The Pulsation of EE Camelopardalis
  | journal = The Astronomical Journal
| volume = 134 | pages = 1994–1998 | year = 2007
| doi = 10.1086/522795
| bibcode=2007AJ....134.1994B|arxiv = 0709.3393 }}
* {{cite journal
  | author = M. Gruberbauer, K. Kolenberg, J. F. Rowe, D. Huber, J. M. Matthews, P. Reegen, R. Kuschnig, C. Cameron, T. Kallinger, W. W. Weiss, D. B. Guenther, A. F. J. Moffat, S. M. Rucinski, D. Sasselov, G. A. H. Walker
| title = MOST photometry of the RRdLyrae variable AQLeo: two radial modes, 32 combination frequencies and beyond
  | journal = Monthly Notices of the Royal Astronomical Society
| volume = 379 | pages = 1498–1506 | year = 2007
| doi = 10.1111/j.1365-2966.2007.12042.x
| bibcode=2007MNRAS.379.1498G|arxiv = 0705.4603 }}
* {{cite journal
| author = M. Gruberbauer, H. Saio, D. Huber, T. Kallinger, W. W. Weiss, D. B. Guenther, R. Kuschnig, J. M. Matthews, A. F. J. Moffat, S. M. Rucinski, D. Sasselov, G. A. H. Walker
| title = MOST photometry and modeling of the rapidly oscillating (roAp) star &gamma; Equulei
| journal = Astronomy and Astrophysics
| volume = 480 | pages = 223–232 | year = 2008
| doi = 10.1051/0004-6361:20078830
| bibcode=2008A&A...480..223G|arxiv = 0801.0863 }}
* {{cite journal
| author = D. B. Guenther, T. Kallinger, P. Reegen, W. W. Weiss, J. M. Matthews, R. Kuschnig, A. F. J. Moffat, S. M. Rucinski, D. Sasselov, G. A. H. Walker
| title = Searching for p-modes in &eta; Bootis & Procyon using MOST satellite data
| journal = Communications in Asteroseismology
| volume = 151 | pages = 5–25 | year = 2007
| doi = 10.1553/cia151s5
|bibcode = 2007CoAst.151....5G }}
* {{cite journal
| author = D. B. Guenther, T. Kallinger, K. Zwintz, W. W. Weiss, J. Tanner
| title = Seismology of Pre-Main-Sequence Stars in NGC 6530
| journal = The Astrophysical Journal
| volume = 671 | pages = 581–591 | year = 2007
| doi = 10.1086/522880
| bibcode=2007ApJ...671..581G}}
* {{cite journal
| author = D. Huber, H. Saio, M. Gruberbauer, W. W. Weiss, J. F. Rowe, M. Hareter, T. Kallinger, P. Reegen, J. M. Matthews, R. Kuschnig, D. B. Guenther, A. F. J. Moffat, S. M. Rucinski, D. Sasselov, G. A. H. Walker
| title = MOST photometry of the roAp star 10 Aquilae
| journal = Astronomy and Astrophysics
| volume = 483 | pages = 239–248 | year = 2008
| doi = 10.1051/0004-6361:20079220
| bibcode=2008A&A...483..239H|arxiv = 0803.1721 }}
* {{cite journal
| author = T. Kallinger, D. B. Guenther, J. M. Matthews, W. W. Weiss, D. Huber, R. Kuschnig, A. F. J. Moffat, S. M. Rucinski, D. Sasselov
| title = Nonradial p-modes in the G9.5 giant &epsilon; Ophiuchi? Pulsation model fits to MOST photometry
| journal = Astronomy and Astrophysics
| volume = 478 | pages = 497–505 | year = 2008
| doi = 10.1051/0004-6361:20078171
| bibcode=2008A&A...478..497K|arxiv = 0711.0837 }}
* {{cite journal
| author = T. Kallinger, P. Reegen, W. W. Weiss
| title = A heuristic derivation of the uncertainty for frequency determination in time series data
| journal = Astronomy and Astrophysics
| volume = 481 | pages = 571–574 | year = 2008
| doi = 10.1051/0004-6361:20077559
| bibcode=2008A&A...481..571K|arxiv = 0801.0683 }}
* {{cite book
| author = P. Reegen
| title = "SigSpec - reliable computation of significance in Fourier space", in ''The A-Star Puzzle, Proceedings IAU Symp. 224'', eds. J. Zverko, J. Ziznovsky, S.J. Adelman, W.W. Weiss
| work = The A-Star Puzzle, Proceedings of IAU Symposium 224
| location = Cambridge, UK
| publisher = Cambridge University Press
| year = 2005
| pages = 791–798
| isbn = 0-521-85018-5
}}
* {{cite journal
| author = P. Reegen, M. Gruberbauer, L. Schneider, W. W. Weiss
| title = Cinderella - Comparison of INDEpendent RELative Least-squares Amplitudes
| journal = Astronomy and Astrophysics
| volume = 484 | pages = 601–608 | year = 2008
| doi = 10.1051/0004-6361:20078855
| bibcode=2008A&A...484..601R}}
* {{cite journal
| author = C. Schoenaers, A. E. Lynas-Gray
| title = A new slowly pulsating subdwarf-B star: HD 4539
| journal = Communications in Asteroseismology
| volume = 151 | pages = 67–76 | year = 2007
| doi = 10.1553/cia151s67
|bibcode = 2007CoAst.151...67S }}
* {{cite journal
| author = M. Zechmeister, M. Kuerster
| title = The gemeralised Lomb-Scargle periodogram. A new formalism for the floating-mean and Keplerian periodograms
| journal = Astronomy and Astrophysics
| volume = 496
| pages = 577–584
| year = 2009
| doi = 10.1051/0004-6361:200811296
| bibcode=2009A&A...496..577Z
|arxiv = 0901.2573 }}
* {{cite journal
| author = K. Zwintz, T. Kallinger, D. B. Guenther, M. Gruberbauer, D. Huber, J. Rowe, R. Kuschnig, W. W. Weiss, J. M. Matthews, A. F. J. Moffat, S. M. Rucinski, D. Sasselov, G. A. H. Walker, M. P. Casey
| title = MOST photometry of the enigmatic PMS pulsator HD 142666
| journal = Astronomy and Astrophysics
| volume = 494
| pages = 1031–1040
| year = 2009
| doi = 10.1051/0004-6361:200811116
| bibcode=2009A&A...494.1031Z
|arxiv = 0812.1960 }}
* {{cite journal
| author = K. Zwintz, M. Hareter, R. Kuschnig, P. J. Amado, N. Nesvacil, E. Rodriguez, D. Diaz-Fraile, W. W. Weiss, T. Pribulla, D. B. Guenther,  J. M. Matthews, A. F. J. Moffat, S. M. Rucinski, D. Sasselov, G. A. H. Walker
| title = MOST observations of the young open cluster NGC 2264
| journal = Astronomy and Astrophysics
| volume = 502
| pages = 1239–252
| year = 2009
| doi = 10.1051/0004-6361:200911863
}}
 
== External links ==
* [http://www.sigspec.org Website with further information on SigSpec calculation, etc.]
 
[[Category:Time series analysis]]
[[Category:Fourier analysis]]
[[Category:Digital signal processing]]

Latest revision as of 00:13, 13 May 2014


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