Chirplet transform
In signal processing, the chirplet transform is an inner product of an input signal with a family of analysis primitives called chirplets. [2][3]
Similarity to other transforms
Much as in the wavelet transform, the chirplets are usually generated from (or can be expressed as being from) a single mother chirplet (analogous to the so-called mother wavelet of wavelet theory).
What is the chirplet and chirplet transform?
The term chirplet transform was coined by Steve Mann, as the title of the first published paper on chirplets. The term chirplet itself (apart from chirplet transform) was also used by Steve Mann, Domingo Mihovilovic, and Ronald Bracewell to describe a windowed portion of a chirp function. In Mann's words:
A wavelet is a piece of a wave, and a chirplet, similarly, is a piece of a chirp. More precisely, a chirplet is a windowed portion of a chirp function, where the window provides some time localization property. In terms of time–frequency space, chirplets exist as rotated, sheared, or other structures that move from the traditional parallelism with the time and frequency axes that are typical for waves (Fourier and short-time Fourier transforms) or wavelets.
The chirplet transform thus represents a rotated, sheared, or otherwise transformed tiling of the time–frequency plane. Although chirp signals have been known for many years in radar, pulse compression, and the like, the first published reference to the chirplet transform described specific signal representations based on families of functions related to one another by time–varying frequency modulation or frequency varying time modulation, in addition to time and frequency shifting, and scale changes. In that paper, the Gaussian chirplet transform was presented as one such example, together with a successful application to ice fragment detection in radar (improving target detection results over previous approaches). The term chirplet (but not the term chirplet transform) was also proposed for a similar transform, apparently independently, by Mihovilovic and Bracewell later that same year.[3]
Applications
The chirplet transform is a useful signal analysis and representation framework that has been used to excise chirp-like interference in spread spectrum communications,[4] in EEG processing,[5] and Chirplet Time Domain Reflectometry.[6]
See also
Other time–frequency transforms:
References
- ↑ From page 2749 of "The Chirplet Transform: Physical Considerations", S. Mann and S. Haykin, IEEE Transactions on Signal Processing, Volume 43, Number 11, November 1995, pp 2745-2761.
- ↑ S. Mann and S. Haykin, "The Chirplet transform: A generalization of Gabor's logon transform", Proc. Vision Interface 1991, 205–212 (3–7 June 1991).
- 1 2 D. Mihovilovic and R. N. Bracewell, "Adaptive chirplet representation of signals in the time–frequency plane," Electronics Letters 27 (13), 1159–1161 (20 June 1991).
- ↑ Bultan, Akansu; Akansu, A.N. (May 1998), "Proceedings of the 1998 IEEE International Conference on Acoustics, Speech and Signal Processing, ICASSP '98 (Cat. No.98CH36181)", Proceedings of the IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP) 6 (4), pp. 3265–3268, doi:10.1109/ICASSP.1998.679561, ISBN 0-7803-4428-6
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ignored (help) - ↑ Cui, J.; Wong, W.; Mann, S. (17 February 2005), "Time–frequency analysis of visual evoked potentials using chirplet transform" (PDF), Electronics Letters 41 (4), pp. 217–218, doi:10.1049/el:20056712, retrieved 2010-07-29
- ↑ http://zone.ni.com/devzone/cda/epd/p/id/5684
- Mann, S.; Haykin, S. (21–26 July 1991), "36th Intl. Symp. Optical and Optoelectronic Appl. Sci. Eng", Proc. SPIE, Adaptive Signal Processing 1565: 402, doi:10.1117/12.49794
|contribution=
ignored (help) LEM, Logon Expectation Maximization - Mann, S.; Haykin, S. (1992). "Adaptive chirplet transform". Optical Engineering 31 (6): 1243–1256. Bibcode:1992OptEn..31.1243M. doi:10.1117/12.57676. introduces Logon Expectation Maximization (LEM) and Radial Basis Functions (RBF) in Time–Frequency space.
- Osaka Kyoiku, Gabor, wavelet and chirplet transforms...(PDF)
- J. "Richard" Cui, etal, Time–frequency analysis of visual evoked potentials using chirplet transform, IEE Electronics Letters, vol. 41, no. 4, pp. 217–218, 2005.
External links
- DiscreteTFDs - software for computing chirplet decompositions and time–frequency distributions
- The Chirplet Transform (web tutorial and info).