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Unique recovery of unknown spatial load in damped Euler-Bernoulli beam equation from final time measured output Full article

Journal Inverse Problems
ISSN: 0266-5611
Output data Year: 2021, Volume: 37, Number: 7, Article number : 075005, Pages count : DOI: 10.1088/1361-6420/ac01fb
Tags damped Euler-Bernoulli and wave equations; inverse source problem; singular values; uniqueness
Authors Hasanov A. 1 , Romanov V. 2,3 , Baysal O. 4
Affiliations
1 Department of Mathematics, Kocaeli University, Turkey Şehit Ekrem Mah, Altinşehir Sk., Ayazma Villalari, 22, Bahčecik, Kocaeli, 41030, Turkey
2 Sobolev Institute of Mathematics, Russia, 4 Acad. Koptyug avenue, 630090 Novosibirsk, Russian Federation
3 Mathematical Center in Akademgorodok, Novosibirsk State University, Russia, 2 Pirogova str., Novosibirsk, 630090, Russian Federation
4 İstanbul Kültür University, Bakirköy, İstanbul, 34158, Turkey

Abstract: In this paper we discuss the unique determination of unknown spatial load F(x) in the damped Euler-Bernoulli beam equation ρ (x)utt + μ ut + (r (x) uxx)xx = F (x)G (t) from final time measured output (displacement, u T (x) ≔ u(x, T) or velocity, ν t,T (x) ≔ u t (x, T)). It is shown in [Hasanov Hasanoglu and Romanov 2017 Introduction to Inverse Problems for Differential Equations (New York: Springer)] that the unique determination of F(x) in the undamped wave equation utt-(k (x)ux)x = F (x)G (t) from final time output is not possible. This result is also valid for the undamped beam equation ρ (x) utt+ (r (x) uxx)xx = F (x)G (t). We prove that in the presence of damping term μu t , the spatial load can be uniquely determined by the final time output, in terms of the convergent singular value expansion (SVE), as, F(x) = ςn = 1∞ uT,n ψn (x)/ σn under some acceptable conditions with respect to the final time T > 0, the damping coefficient μ > 0 and the temporal load G(t) > 0. As an alternative method we propose the adjoint problem approach (APA) and derive an explicit gradient formula for the Fréchet derivative of the Tikhonov functional J(F) = ∥u (˙ ,T;F)- uT∥L2 (0,l)2. Comparative analysis of numerical algorithms based on SVE and APA methods are provided for the harmonic loading G(t) = cos(ωt), ω > 0, as a most common dynamic loading case. The results presented in this paper not only clearly demonstrate the key role of the damping term μu t in the inverse problems arising in vibration and wave phenomena, but also allows us, firstly, to find admissible values of the final time T > 0, at which a final time measured output can be extracted, and secondly, to reconstruct the unknown spatial load F(x) in the damped Euler-Bernoulli beam equation from this measured output.
Cite: Hasanov A. , Romanov V. , Baysal O.
Unique recovery of unknown spatial load in damped Euler-Bernoulli beam equation from final time measured output
Inverse Problems. 2021. V.37. N7. 075005 . DOI: 10.1088/1361-6420/ac01fb WOS Scopus OpenAlex
Identifiers:
Web of science: WOS:000664518500001
Scopus: 2-s2.0-85109096129
OpenAlex: W3161956258
Citing:
DB Citing
Scopus 13
OpenAlex 10
Web of science 5
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