4,427
edits
m (Reverted edits by Otihizuv (Talk) to last revision by 143.239.221.212) |
No edit summary |
||
Line 1: | Line 1: | ||
Function Parametrization (also spelt Parameterization) or FP is a technique to provide fast (real-time) construction of system parameters from a set of diverse measurements. It consists of the numerical determination, by statistical regression on a database of simulated states, of simple functional representations | Function Parametrization (also spelt Parameterization) or FP is a technique to provide fast (real-time) construction of system parameters from a set of diverse measurements. It consists of the numerical determination, by statistical regression on a database of simulated states, of simple functional representations | ||
of parameters characterizing the state of a particular physical system, where the arguments of the functions are statistically independent combinations of diagnostic raw measurements of the system. | of parameters characterizing the state of a particular physical system, where the arguments of the functions are statistically independent combinations of diagnostic raw measurements of the system. | ||
The technique, developed by H. Wind for the purpose of momentum determination from spark chamber data, <ref> | The technique, developed by H. Wind for the purpose of momentum determination from spark chamber data, <ref>Wind, H., ''Function Parametrization'', | ||
in | in ''Proceedings of the 1972 CERN Computing and Data Processing School'', CERN 72-21, 1972, pp. 53-106</ref> <ref>Wind, H., (a) ''Principal component analysis and its application to track finding'', (b) ''interpolation and function representation'', in ''Formulae and Methods in Experimental Data Evaluation'', Vol. '''3''', European Physical Society, Geneva, 1984</ref> was introduced by B. Braams to plasma physics, | ||
(a) | |||
in | |||
where it was first applied to the analysis of equilibrium magnetic measurements on the | where it was first applied to the analysis of equilibrium magnetic measurements on the | ||
circular cross-section ASDEX tokamak. <ref>B.J. Braams, W. Jilge, and K. Lackner, ''Fast determination of plasma parameters through function parametrization'', Nucl. Fusion '''26''' (1986) 699</ref> It was later extended to the non-circular cross-section ASDEX Upgrade tokamak<ref>[http://www.physics.ucc.ie/~pjm/people/trachtas.htm P.J. Mc Carthy, ''An Integrated Data Interpretation System for Tokamak Discharges'', PhD thesis, University College Cork, 1992]</ref> | circular cross-section ASDEX tokamak. <ref>[http://iopscience.iop.org/0029-5515/26/6/001 B.J. Braams, W. Jilge, and K. Lackner, ''Fast determination of plasma parameters through function parametrization'', Nucl. Fusion '''26''' (1986) 699]</ref> It was later extended to the non-circular cross-section ASDEX Upgrade tokamak<ref>[http://www.physics.ucc.ie/~pjm/people/trachtas.htm P.J. Mc Carthy, ''An Integrated Data Interpretation System for Tokamak Discharges'', PhD thesis, University College Cork, 1992]</ref> | ||
and the Wendelstein 7-AS stellarator. | and the Wendelstein 7-AS stellarator. | ||
<ref>[http://iopscience.iop.org/0029-5515/39/4/308 H.P. Callaghan, P.J. Mc Carthy, J. Geiger | <ref>[http://iopscience.iop.org/0029-5515/39/4/308 H.P. Callaghan, P.J. Mc Carthy, J. Geiger, ''Fast equilibrium interpretation on the W7-AS stellarator using Function Parameterization'', Nucl. Fusion '''39''' (1999) 509]</ref> | ||
Line 24: | Line 22: | ||
* RTP <ref name=RTP></ref> | * RTP <ref name=RTP></ref> | ||
* TEXTOR <ref>B.Ph. van Milligen et al., ''Application of Function Parametrization to the analysis of polarimetry and interferometry data in TEXTOR'', Nucl. Fusion '''31''' (1991) 309</ref> | * TEXTOR <ref>[http://iopscience.iop.org/0029-5515/31/2/007 B.Ph. van Milligen et al., ''Application of Function Parametrization to the analysis of polarimetry and interferometry data in TEXTOR'', Nucl. Fusion '''31''' (1991) 309]</ref> | ||
* ASDEX-UG <ref>[http://dx.doi.org/10.1016/S0920-3796(00)00109-5 W. Schneider, P.J. Mc Carthy, et al., ''ASDEX upgrade MHD equilibria reconstruction on distributed workstations'', Fusion Engineering and Design '''48''', Issues 1-2 (2000) 127-134]</ref> | * ASDEX-UG <ref>[http://dx.doi.org/10.1016/S0920-3796(00)00109-5 W. Schneider, P.J. Mc Carthy, et al., ''ASDEX upgrade MHD equilibria reconstruction on distributed workstations'', Fusion Engineering and Design '''48''', Issues 1-2 (2000) 127-134]</ref> | ||
* Wendelstein 7-X <ref>[http://dx.doi.org/10.1088/0029-5515/44/11/003 A. Sengupta, P.J. Mc Carthy, et al., ''Fast recovery of vacuum magnetic configuration of the W7-X stellarator using function parametrization and artificial neural networks'', Nucl. Fusion '''44''' (2004) 1176]</ref> | * Wendelstein 7-X <ref>[http://dx.doi.org/10.1088/0029-5515/44/11/003 A. Sengupta, P.J. Mc Carthy, et al., ''Fast recovery of vacuum magnetic configuration of the W7-X stellarator using function parametrization and artificial neural networks'', Nucl. Fusion '''44''' (2004) 1176]</ref> |