Jump to content
Main menu
Main menu
move to sidebar
hide
Navigation
Main page
Recent changes
Random page
Help about MediaWiki
Special pages
Niidae Wiki
Search
Search
Appearance
Create account
Log in
Personal tools
Create account
Log in
Pages for logged out editors
learn more
Contributions
Talk
Editing
Z-transform
(section)
Page
Discussion
English
Read
Edit
View history
Tools
Tools
move to sidebar
hide
Actions
Read
Edit
View history
General
What links here
Related changes
Page information
Appearance
move to sidebar
hide
Warning:
You are not logged in. Your IP address will be publicly visible if you make any edits. If you
log in
or
create an account
, your edits will be attributed to your username, along with other benefits.
Anti-spam check. Do
not
fill this in!
== History == The foundational concept now recognized as the Z-transform, which is a cornerstone in the analysis and design of digital control systems, was not entirely novel when it emerged in the mid-20th century. Its embryonic principles can be traced back to the work of the French mathematician [[Pierre-Simon Laplace]], who is better known for the [[Laplace transform]], a closely related mathematical technique. However, the explicit formulation and application of what we now understand as the Z-transform were significantly advanced in 1947 by [[Witold Hurewicz]] and colleagues. Their work was motivated by the challenges presented by sampled-data control systems, which were becoming increasingly relevant in the context of [[radar]] technology during that period. The Z-transform provided a systematic and effective method for solving linear difference equations with constant coefficients, which are ubiquitous in the analysis of discrete-time signals and systems.<ref name="kanasewich"> {{cite book|url=https://books.google.com/books?id=k8SSLy-FYagC&q=inauthor%3AKanasewich++poles+stability&pg=PA249|title=Time Sequence Analysis in Geophysics|author=E. R. Kanasewich|publisher=University of Alberta|year=1981|isbn=978-0-88864-074-1|pages=186, 249}}</ref><ref>{{cite book | title = Time sequence analysis in geophysics | edition = 3rd | author = E. R. Kanasewich | publisher = University of Alberta | year = 1981 | isbn = 978-0-88864-074-1 | pages = 185β186 | url = https://books.google.com/books?id=k8SSLy-FYagC&pg=PA185}}</ref> The method was further refined and gained its official nomenclature, "the Z-transform," in 1952, thanks to the efforts of [[John R. Ragazzini]] and [[Lotfi A. Zadeh]], who were part of the sampled-data control group at Columbia University. Their work not only solidified the mathematical framework of the Z-transform but also expanded its application scope, particularly in the field of electrical engineering and control systems.<ref>{{cite journal |last1=Ragazzini |first1=J. R. |last2=Zadeh |first2=L. A. |title=The analysis of sampled-data systems |journal=Transactions of the American Institute of Electrical Engineers, Part II: Applications and Industry |date=1952 |volume=71 |issue=5 |pages=225β234 |doi=10.1109/TAI.1952.6371274|s2cid=51674188 }}</ref><ref>{{cite book | title = Digital control systems implementation and computational techniques | author = Cornelius T. Leondes | publisher = Academic Press | year = 1996| isbn = 978-0-12-012779-5 | page = 123 | url = https://books.google.com/books?id=aQbk3uidEJoC&pg=PA123 }}</ref> A notable extension, known as the modified or [[advanced Z-transform]], was later introduced by [[Eliahu I. Jury]]. Jury's work extended the applicability and robustness of the Z-transform, especially in handling initial conditions and providing a more comprehensive framework for the analysis of digital control systems. This advanced formulation has played a pivotal role in the design and stability analysis of discrete-time control systems, contributing significantly to the field of digital signal processing.<ref> {{cite book | title = Sampled-Data Control Systems | author = Eliahu Ibrahim Jury | publisher = John Wiley & Sons | year = 1958 }}</ref><ref> {{cite book | title = Theory and Application of the Z-Transform Method | author = Eliahu Ibrahim Jury | publisher = Krieger Pub Co | year = 1973 | isbn = 0-88275-122-0 }}</ref> Interestingly, the conceptual underpinnings of the Z-transform intersect with a broader mathematical concept known as the method of [[generating functions]], a powerful tool in combinatorics and probability theory. This connection was hinted at as early as 1730 by [[Abraham de Moivre]], a pioneering figure in the development of probability theory. De Moivre utilized generating functions to solve problems in probability, laying the groundwork for what would eventually evolve into the Z-transform. From a mathematical perspective, the Z-transform can be viewed as a specific instance of a [[Laurent series]], where the [[sequence]] of numbers under investigation is interpreted as the [[coefficients]] in the (Laurent) expansion of an [[analytic function]]. This perspective not only highlights the deep mathematical roots of the Z-transform but also illustrates its versatility and broad applicability across different branches of mathematics and engineering.<ref> {{cite book | title = Theory and Application of the Z-Transform Method | author = Eliahu Ibrahim Jury | publisher = John Wiley & Sons | year = 1964 | page = 1 }}</ref>
Summary:
Please note that all contributions to Niidae Wiki may be edited, altered, or removed by other contributors. If you do not want your writing to be edited mercilessly, then do not submit it here.
You are also promising us that you wrote this yourself, or copied it from a public domain or similar free resource (see
Encyclopedia:Copyrights
for details).
Do not submit copyrighted work without permission!
Cancel
Editing help
(opens in new window)
Search
Search
Editing
Z-transform
(section)
Add topic
