Published March 10, 2023
| Version 1.0.2
Software
Open
2D Dynamic Time Warping (DTW) algorithm for python
Contributors
- 1. University of York
Description
DTW is a dynamic time warping library designed for tokamak velocimetry measurements.
The algorithm works by distorting image 2 into image 1, then using the distorted coordinates to compute the displacements required to distort image 1 into image 2, given at the positions in image 1.
Notes
Files
Files
(63.2 MB)
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md5:a2cddde422cb643d732ec2f38b83300f
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Additional details
Identifiers
Funding
- Multiscale turbulent dynamics of tokamak plasmas EP/R034737/1
- UK Research and Innovation
- NPIF EPSRC Doctoral - University of York 2017 EP/R512230/1
- UK Research and Innovation
- Embedding FAIRness in Plasma Science EP/V051822/1
- UK Research and Innovation
- EPSRC Centre for Doctoral Training in the Science and Technology of Fusion Energy EP/L01663X/1
- UK Research and Innovation
References
- Sakoe, H. and Chiba, S. (1978) Dynamic Programming Algorithm Optimization for Spoken Word Recognition, DOI: 10.1109/TASSP.1978.1163055
- Quenot, G. M. (1992) The "Orthogonal Algorithm" for Pptical Flow Detection using Dynamic Programming, ISBN: 0780305329
- Quenot, G. M. (1996) Computation of Optical Flow using Dynamic Programming, IAPR Workshoop on Machine Vision Applications
- Quenot, G. M., Pakleza, J. and Kowalewski, T. A. (1998) Particle image velocimetry with optical flow, DOI: 10.1007/s003480050222
- Quenot, G (2000) Synchronous Orthogonal Dynamic Programming for Particle Image Velocimetry, 9th International Symposium on Flow Visualisation
- Kriete, D. M. et al (2018) Extracting the turbulent flow-field from beam emission spectroscopy images using velocimetry, DOI: 10.1063/1.5036535