Function parametrization: Difference between revisions

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(a)`Principal component analysis and its application to track finding',  (b) `interpolation and function representation'
(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,  
in ``Formulae and Methods in Experimental Data Evaluation'',Vol. 3, European Physical Society, Geneva, 1984</ref>, was introduced by B. Braams to plasma physics,  
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 extended to the non-circular cross-section ASDEX Upgrade tokamak  in the PhD thesis
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. McCarthy,  ''An Integrated Data Interpretation System for Tokamak Discharges'', PhD thesis, University College Cork, 1992]</ref>
of P.J. Mc Carthy. <ref>[http://www.physics.ucc.ie/~pjm/people/trachtas.htm  P.J. McCarthy,  ''An Integrated Data Interpretation System for Tokamak Discharges'', PhD thesis, University College Cork, 1992]</ref>




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