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In mathematical analysis, the final value theorem (FVT) is one of several similar theorems used to relate frequency domain expressions to the time domain behavior as time approaches infinity.[1][2][3][4] Mathematically, if in continuous time has (unilateral) Laplace transform , then a final value theorem establishes conditions under which Likewise, if in discrete time has (unilateral) Z-transform , then a final value theorem establishes conditions under which
An Abelian final value theorem makes assumptions about the time-domain behavior of to calculate Conversely, a Tauberian final value theorem makes assumptions about the frequency-domain behaviour of to calculate (see Abelian and Tauberian theorems for integral transforms).
Final value theorems for the Laplace transform
editDeducing limt → ∞ f(t)
editIn the following statements, the notation means that approaches 0, whereas means that approaches 0 through the positive numbers.
Standard Final Value Theorem
editSuppose that every pole of is either in the open left half plane or at the origin, and that has at most a single pole at the origin. Then as and [5]
Final Value Theorem using Laplace transform of the derivative
editSuppose that and both have Laplace transforms that exist for all If exists and exists then [3]: Theorem 2.36 [4]: 20 [6]
Remark
Both limits must exist for the theorem to hold. For example, if then does not exist, but[3]: Example 2.37 [4]: 20
Improved Tauberian converse Final Value Theorem
editSuppose that is bounded and differentiable, and that is also bounded on . If as then [7]
Extended Final Value Theorem
editSuppose that every pole of is either in the open left half-plane or at the origin. Then one of the following occurs:
- as and
- as and as
- as and as
In particular, if is a multiple pole of then case 2 or 3 applies [5]
Generalized Final Value Theorem
editSuppose that is Laplace transformable. Let . If exists and exists then
where denotes the Gamma function.[5]
Applications
editFinal value theorems for obtaining have applications in establishing the long-term stability of a system.
Deducing lims → 0 s F(s)
editAbelian Final Value Theorem
editSuppose that is bounded and measurable and Then exists for all and [7]
Elementary proof[7]
Suppose for convenience that on and let . Let and choose so that for all Since for every we have
hence
Now for every we have
On the other hand, since is fixed it is clear that , and so if is small enough.
Final Value Theorem using Laplace transform of the derivative
editSuppose that all of the following conditions are satisfied:
- is continuously differentiable and both and have a Laplace transform
- is absolutely integrable - that is, is finite
- exists and is finite
Then[8]
Remark
The proof uses the dominated convergence theorem.[8]
Final Value Theorem for the mean of a function
editLet be a continuous and bounded function such that such that the following limit exists
Then [9]
Final Value Theorem for asymptotic sums of periodic functions
editSuppose that Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "http://localhost:6011/en.wiki.x.io/v1/":): {\displaystyle f : [0,\infty) \to \mathbb{R} } is continuous and absolutely integrable in Suppose further that is asymptotically equal to a finite sum of periodic functions that is
where is absolutely integrable in and vanishes at infinity. Then
Final Value Theorem for a function that diverges to infinity
editLet and be the Laplace transform of Suppose that satisfies all of the following conditions:
- is infinitely differentiable at zero
- has a Laplace transform for all non-negative integers
- diverges to infinity as
Then diverges to infinity as [11]
Final Value Theorem for improperly integrable functions (Abel's theorem for integrals)
editLet be measurable and such that the (possibly improper) integral converges for Then This is a version of Abel's theorem.
To see this, notice that and apply the final value theorem to after an integration by parts: For
By the final value theorem, the left-hand side converges to for
To establish the convergence of the improper integral in practice, Dirichlet's test for improper integrals is often helpful. An example is the Dirichlet integral.
Applications
editFinal value theorems for obtaining have applications in probability and statistics to calculate the moments of a random variable. Let be cumulative distribution function of a continuous random variable and let be the Laplace–Stieltjes transform of Then the -th moment of can be calculated as The strategy is to write where is continuous and for each for a function For each put as the inverse Laplace transform of obtain and apply a final value theorem to deduce Then
and hence is obtained.
Examples
editExample where FVT holds
editFor example, for a system described by transfer function
the impulse response converges to
That is, the system returns to zero after being disturbed by a short impulse. However, the Laplace transform of the unit step response is
and so the step response converges to
So a zero-state system will follow an exponential rise to a final value of 3.
Example where FVT does not hold
editFor a system described by the transfer function
the final value theorem appears to predict the final value of the impulse response to be 0 and the final value of the step response to be 1. However, neither time-domain limit exists, and so the final value theorem predictions are not valid. In fact, both the impulse response and step response oscillate, and (in this special case) the final value theorem describes the average values around which the responses oscillate.
There are two checks performed in Control theory which confirm valid results for the Final Value Theorem:
- All non-zero roots of the denominator of must have negative real parts.
- must not have more than one pole at the origin.
Rule 1 was not satisfied in this example, in that the roots of the denominator are and
Final value theorems for the Z transform
editDeducing limk → ∞ f[k]
editFinal Value Theorem
editIf exists and exists then [4]: 101
Final value of linear systems
editContinuous-time LTI systems
editFinal value of the system
in response to a step input with amplitude is:
Sampled-data systems
editThe sampled-data system of the above continuous-time LTI system at the aperiodic sampling times is the discrete-time system
where and
- ,
The final value of this system in response to a step input with amplitude is the same as the final value of its original continuous-time system.[12]
See also
editNotes
edit- ^ Wang, Ruye (2010-02-17). "Initial and Final Value Theorems". Archived from the original on 2017-12-26. Retrieved 2011-10-21.
- ^ Alan V. Oppenheim; Alan S. Willsky; S. Hamid Nawab (1997). Signals & Systems. New Jersey, USA: Prentice Hall. ISBN 0-13-814757-4.
- ^ a b c Schiff, Joel L. (1999). The Laplace Transform: Theory and Applications. New York: Springer. ISBN 978-1-4757-7262-3.
- ^ a b c d Graf, Urs (2004). Applied Laplace Transforms and z-Transforms for Scientists and Engineers. Basel: Birkhäuser Verlag. ISBN 3-7643-2427-9.
- ^ a b c Chen, Jie; Lundberg, Kent H.; Davison, Daniel E.; Bernstein, Dennis S. (June 2007). "The Final Value Theorem Revisited - Infinite Limits and Irrational Function". IEEE Control Systems Magazine. 27 (3): 97–99. doi:10.1109/MCS.2007.365008.
- ^ "Final Value Theorem of Laplace Transform". ProofWiki. Retrieved 12 April 2020.
- ^ a b c Ullrich, David C. (2018-05-26). "The tauberian final value Theorem". Math Stack Exchange.
- ^ a b Sopasakis, Pantelis (2019-05-18). "A proof for the Final Value theorem using Dominated convergence theorem". Math Stack Exchange.
- ^ Murthy, Kavi Rama (2019-05-07). "Alternative version of the Final Value theorem for Laplace Transform". Math Stack Exchange.
- ^ Gluskin, Emanuel (1 November 2003). "Let us teach this generalization of the final-value theorem". European Journal of Physics. 24 (6): 591–597. doi:10.1088/0143-0807/24/6/005.
- ^ Hew, Patrick (2020-04-22). "Final Value Theorem for function that diverges to infinity?". Math Stack Exchange.[permanent dead link ]
- ^ Mohajeri, Kamran; Madadi, Ali; Tavassoli, Babak (2021). "Tracking Control with Aperiodic Sampling over Networks with Delay and Dropout". International Journal of Systems Science. 52 (10): 1987–2002. doi:10.1080/00207721.2021.1874074.
External links
edit- https://web.archive.org/web/20101225034508/http://wikis.controltheorypro.com/index.php?title=Final_Value_Theorem
- http://fourier.eng.hmc.edu/e102/lectures/Laplace_Transform/node17.html Archived 2017-12-26 at the Wayback Machine: final value for Laplace
- https://web.archive.org/web/20110719222313/http://www.engr.iupui.edu/~skoskie/ECE595s7/handouts/fvt_proof.pdf: final value proof for Z-transforms