Revision as of 07:25, 16 November 2016 edit Bgwhite (talk \| contribs) Extended confirmed users 547,151 edits borked math tag using AWB (12082) ← Previous edit		Revision as of 23:47, 11 April 2017 edit undo 2607:fea8:1ca0:d8d:686a:8f6e:62f1:374c (talk) →Multidimensional Laplace transform Next edit →
Line 132: A special case (along 2 dimensions) of the multi-dimensional Laplace transform of function f(x,y) is defined<ref>{{Cite book\|title = Operational Calculus in two Variables and its Application (1st English edition) - translated by D.M.G. Wishart (Calcul opérationnel)\|last = \|first = \|publisher = \|year = \|isbn = \|___location = \|pages = }}</ref> as <math display="block">F(xs_1,ys_2)=\textstyle \int\limits_{0}^{\infty}\int\limits_{0}^{\infty}\ f(x,y) e^{-s_1x-s_2y}\, dxdy</math> F(xs_1,ys_2) is called the image of f(x,y) and f(x,y) is known as the original of F(xs_1,ys_2).<ref name=":1">{{Cite journal\|url = \|title = Multi-Dimensional Laplace Transforms and Systems of Partial Differential Equations \|last = Aghili and Moghaddam\|first = \|journal = International Mathematical Forum \|volume=1 \|year=2006 \|issue=21 \|pages=1043–1050\|doi = \|pmid = \|access-date = }}</ref> This special case can be used to solve the [[Telegrapher's equations]].<ref name=":1" /> == Multidimensional Z transform<ref>{{Cite web\|url = http://dsp-book.narod.ru/HFTSP/8579ch08.pdf\|title = Narod Book\|date = \|accessdate = \|website = \|publisher = \|last = \|first = }}</ref> ==

Multidimensional transform: Difference between revisions