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Kvantovaya Elektronika, 2014, Volume 44, Number 3, Pages 239–246 (Mi qe15881)  
This article is cited in 10 scientific papers (total in 10 papers)

Optical tomography

Theoretical limit of spatial resolution in diffuse optical tomography using a perturbation model

A. B. Konovalov, V. V. Vlasov

Russian Federal Nuclear Center E. I. Zababakhin All-Russian Scientific Research Institute of Technical Physics, Snezhinsk, Chelyabinsk region
Full-text PDF (1416 kB) Citations (10)
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Abstract: We have assessed the limit of spatial resolution of timedomain diffuse optical tomography (DOT) based on a perturbation reconstruction model. From the viewpoint of the structure reconstruction accuracy, three different approaches to solving the inverse DOT problem are compared. The first approach involves reconstruction of diffuse tomograms from straight lines, the second – from average curvilinear trajectories of photons and the third – from total banana-shaped distributions of photon trajectories. In order to obtain estimates of resolution, we have derived analytical expressions for the point spread function and modulation transfer function, as well as have performed a numerical experiment on reconstruction of rectangular scattering objects with circular absorbing inhomogeneities. It is shown that in passing from reconstruction from straight lines to reconstruction using distributions of photon trajectories we can improve resolution by almost an order of magnitude and exceed the accuracy of reconstruction of multi-step algorithms used in DOT.
Keywords: spatial resolution, diffuse optical tomography, perturbation reconstruction model, point inhomogeneity, point spread function, modulation transfer function.
Received: 10.11.2013
English version:
Quantum Electronics, 2014, Volume 44, Issue 3, Pages 239–246
DOI: https://doi.org/10.1070/QE2014v044n03ABEH015342
Bibliographic databases:
Document Type: Article
PACS: 2.30.Wb, 42.25.Dd, 42.25.Fx
Language: Russian


Citation: A. B. Konovalov, V. V. Vlasov, “Theoretical limit of spatial resolution in diffuse optical tomography using a perturbation model”, Kvantovaya Elektronika, 44:3 (2014), 239–246 [Quantum Electron., 44:3 (2014), 239–246]
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  • https://www.mathnet.ru/eng/qe/v44/i3/p239
    • This publication is cited in the following 10 articles:
    1. Konovalov A.B. Vlasov V.V. Uglov A.S., Int. J. Numer. Meth. Biomed., 37:1 (2021), e03408  crossref  isi  scopus
    2. X. Chen, Sh. Zhu, H. Wang, C. Bao, D. Yang, Ch. Zhang, P. Lin, J.-X. Cheng, Y. Zhan, J. Liang, J. Tian, IEEE Trans. Biomed. Eng., 67:5 (2020), 1293–1302  crossref  isi  scopus
    3. T. Das, B. P. V. Dileep, P. K. Dutta, Appl. Optics, 57:8 (2018), 1838–1848  crossref  isi  scopus
    4. R. Butler, Ph. T. Lavin, F. L. Tucker, L. D. Barke, M. Bohm-Velez, S. Destounis, S. R. Grobmyer, J. Katzen, K. A. Kist, E. V. Makariou, K. J. Schilling, C. A. Young, B. E. Dogan, E. I. Neuschler, Am. J. Roentgenol., 211:5 (2018), 1155–1170  crossref  isi  scopus
    5. A. B. Konovalov, V. V. Vlasov, 2017 Progress In Electromagnetics Research Symposium - Spring (PIERS), IEEE, 2017, 3487–3494  crossref  mathscinet  isi
    6. X. Chen, Ch. Zhang, P. Lin, K.-Ch. Huang, J. Liang, J. Tian, J.-X. Cheng, Nat. Commun., 8 (2017), 15117  crossref  isi  scopus
    7. Potlov A.Yu., Frolov S.V., Proskurin S.G., Opt. Spectrosc., 120:1 (2016), 9–19  crossref  adsnasa  isi  scopus
    8. Badon A., Li D., Lerosey G., Boccara A.C., Fink M., Aubry A., Optica, 3:11 (2016), 1160–1166  crossref  isi  elib  scopus
    9. Konovalov A.B. Vlasov V.V., Saratov Fall Meeting 2015 (Saratov, Russian Federation, Tuesday 22 September 2015), SPIE Proceedings, 9917, ed. Genina E. Derbov V. Postnov D. Pravdin A. Larin K. Meglinski I. Tuchin V., Spie-Int Soc Optical Engineering, 2016, 99170S  crossref  isi  scopus
    10. Quantum Electron., 44:8 (2014), 719–725  mathnet  crossref  isi  elib
    Citing articles in Google Scholar: Russian citations, English citations
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    		Квантовая электроника Quantum Electronics
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