Leonidas Mindrinos

Department of Natural Resources Development and Agricultural Engineering
Agricultural University of Athens
Roussopoulos Building, Leoforos Athinon 51, Athens 104 47, Greece
E-mail: leonidas.mindrinos[at]aua.gr

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Short Bio

Since February 2023, I am an Assistant Professor of Partial Differential Equations in the Department of Natural Resources Development and Agricultural Engineering at the Agricultural University of Athens in Greece.

I have held post-doctoral positions in the School of Applied Mathematical and Physical Sciences (SEMFE) with D. Gintides at the National Technical University of Athens (NTUA), Greece (2022), in the Computational Science Center with O. Scherzer at the University of Vienna (2019-2022), and at the Johann Radon Institute for Computational and Applied Mathematics (RICAM) of the Austrian Academy of Sciences in Austria (2018-2019).

Prior to that I was an Assistant Professor in the Faculty of Mathematics at the University of Vienna (2013-2018).

I got my Habilitation on mathematics from the University of Vienna in 2018. I obtained a MSc and PhD on applied mathematics at SEMFE (NTUA). My bachelor's degree was in mathematics in the Department of Mathematics at the National and Kapodistrian University of Athens in 2006.

Research Interests

direct and inverse scattering problems
medical imaging
mathematical modeling
data analysis

Teaching

Agricultural University of Athens, Greece

Department of Natural Resources Development and Agricultural Engineering

1001 Topics on Applied Mathematics (summer, 2023, 2024)

Department of Food Science and Human Nutrition

555 Mathematics I (winter, 2023)

Department of Agricultural Economics and Rural Development

3705 Operations Research (winter, 2023)

Department of Biotechnology

Introduction to Ordinary Differential Equations (winter, 2023)

National Technical University of Athens, Greece

School of Applied Mathematical and Physical Sciences

Integral Equations (summer, 2024)
9350 Partial Differential Equations ΙΙ (summer, 2022)
9106 Software for Mathematics and Physics (summer, 2022)

University of Vienna, Austria

Faculty of Mathematics

250101 Inverse Problems (summer, 2015)
250112 Optimization in Function Spaces (summer, 2014)
250061 Tutorial on numerical mathematics (summer, 2013)

Faculty of Physics

269011 Numerical Methods III - Optimisation (summer, 2016, 2017, 2018)
269012 Numerical Methods IV - Partial Differential Equations (summer, 2016, 2017, 2018)
269006 Numerical Methods I - Exercises (winter, 2013, 2014, 2017)
269007 Numerical Methods II (winter, 2015)
269008 Numerical Methods II - Exercises (winter, 2013, 2014, 2015)

Faculty of Computer Science

050043 Continuous Optimization (summer, 2014, 2015)
050129 Discrete Optimization (winter, 2013, 2014)

Department of Meteorology and Geophysics

280390 Inverse Problems (winter, 2015, 2016, 2017)

Publications

Journal Publications

L. Veselka, P. Elbau, L. Mindrinos, L. Krainz, and W. Drexler, Quantitative Parameter Reconstruction from Optical Coherence Tomographic Data, Inverse Problems, 40(2): 025001, 2024 ()

@article{VesElbMinKra24, author = {Veselka, L. and Elbau, P. and Mindrinos, L. and Krainz, L. and Drexler, W.}, title = {Quantitative Parameter Reconstruction from Optical Coherence Tomographic Data}, journal = {Inverse Problems}, volume = {40}, number = {2}, url = {https://iopscience.iop.org/article/10.1088/1361-6420/ad0fab}, doi = {10.1088/1361-6420/ad0fab}, pages = {025001}, year = {2024} }
D. Gintides, S. Giogiakas and L. Mindrinos, The scattering problem of obliquely incident electromagnetic waves by an inhomogeneous infinitely long cylinder, Physica Scripta, 98(11):115517, 2023 ()

@article{GinGioMin23a, doi = {10.1088/1402-4896/ad0009}, url = {https://dx.doi.org/10.1088/1402-4896/ad0009}, year = {2023}, month = {oct}, publisher = {IOP Publishing}, volume = {98}, number = {11}, pages = {115517}, author = {Gintides, D. and Giogiakas, S. and Mindrinos, L.}, title = {The scattering problem of obliquely incident electromagnetic waves by an inhomogeneous infinitely long cylinder}, journal = {Physica Scripta} }
P. Elbau, L. Mindrinos and L. Veselka, Development of mathematical models for quantitative OCT: A review, AIMS Mathematics, 8(2): 2508–2531, 2023 ()

@article{ElbMinVes22, author = {Elbau, P. and Mindrinos, L. and Veselka, L.}, title = {Development of mathematical models for quantitative OCT: A review}, journal = {{AIMS} Mathematics}, pages = {2508--2531}, volume = {8}, number = {2}, url = {https://www.aimspress.com/article/doi/10.3934/math.2023130}, year = {2023}, }
A. Kittenberger, L. Mindrinos and O. Scherzer, Computed Origami Tomography, SIAM Review, 64(2): 469–484, 2022 ()

@article{KitMinSch22, author = {Kittenberger, A. and Mindrinos, L. and Scherzer, O.}, title = {Computed Origami Tomography}, journal = {{SIAM} Rev.}, fjournal = {{SIAM} Review}, pages = {469--484}, volume = {64}, number = {2}, year = {2022}, }
R. Chapko and L. Mindrinos, On the numerical solution of a hyperbolic inverse boundary value problem in bounded domains, Mathematics, 10(5):750, 2022 ()

@article{ChaMin22, author = {Chapko, R. and Mindrinos, L.}, title = {On the numerical solution of a hyperbolic inverse boundary value problem in bounded domains}, journal = {Mathematics}, volume = {10}, number = {5}, pages = {750}, url = {https://www.mdpi.com/2227-7390/10/5/750}, year = {2022}, }
P. Elbau, L. Mindrinos and L. Veselka, Quantitative OCT reconstructions for dispersive media, In B. Kaltenbacher, T. Schuster and A. Wald (editors) Time-dependent Problems in Imaging and Parameter Identification, 229–266, Springer, Cham, 2021 ()

@incollection{ElbMinVes21, author = {Elbau, P. and Mindrinos, L. and Veselka, L.}, title = {Quantitative OCT reconstructions for dispersive media}, booktitle = {Time-dependent Problems in Imaging and Parameter Identification}, doi = {https://doi.org/10.1007/978-3-030-57784-1_8}, editor = {Kaltenbacher, B. and Schuster, T. and Wald, A.}, pages = {229--266}, publisher = {Springer, Cham}, year = {2021}, }
L. Veselka, L. Krainz, L. Mindrinos, W. Drexler and P. Elbau, A Quantitative Model for Optical Coherence Tomography, Sensors, 21(20):6864, 2021 ()

@article{VesKraMinDreElb21, author = {Veselka, L. and Krainz, L. and Mindrinos, L. and Drexler, W. and Elbau, P. }, title = {A Quantitative Model for Optical Coherence Tomography}, doi = {10.3390/s21206864}, journal = {Sens.}, fjournal = {Sensors}, number = {20}, pages = {6864}, url = {https://www.mdpi.com/1424-8220/21/20/6864}, volume = {21}, year = {2021}, }
R. Chapko, B. T. Johansson and L. Mindrinos, On a boundary integral solution of a lateral planar Cauchy problem in elastodynamics, Journal of Computational and Applied Mathematics, 367:112463, 2020 ()

@article{ChaJohMin20, author = {Chapko, R. and Johansson, B.~T. and Mindrinos, L.}, title = {On a boundary integral solution of a lateral planar Cauchy problem in elastodynamics}, doi = {https://doi.org/10.1016/j.cam.2019.112463}, issn = {0377-0427}, pages = {112463}, volume = {367}, year = {2020}, }
R. Chapko and L. Mindrinos, On the non-linear integral equation approach for an inverse boundary value problem for the heat equation, Journal of Engineering Mathematics, 119(1):255–268, 2019 ()

@article{ChaMin19, author = {Chapko, R. and Mindrinos, L.}, title = {On the non-linear integral equation approach for an inverse boundary value problem for the heat equation}, doi = {10.1007/s10665-019-10028-4}, number = {1}, pages = {255--268}, volume = {119}, year = {2019}, }
D. Gintides and L. Mindrinos, The inverse electromagnetic scattering problem by a penetrable cylinder at oblique incidence, Applicable Analysis, 98:781–798, 2019 ()

@article{GinMin19, author = {Gintides, D. and Mindrinos, L.}, title = {The inverse electromagnetic scattering problem by a penetrable cylinder at oblique incidence}, doi = {10.1080/00036811.2017.1402891}, issue = {4}, journal = {Appl. Anal.}, fjournal = {Applicable Analysis}, pages = {781--798}, pdf = {https://www.tandfonline.com/doi/pdf/10.1080/00036811.2017.1402891?needAccess=true}, url = {http://www.tandfonline.com/doi/full/10.1080/00036811.2017.1402891}, volume = {98}, year = {2019}, }
L. Mindrinos, The electromagnetic scattering problem by a cylindrical doubly connected domain at oblique incidence: the direct problem, IMA Journal of Applied Mathematics, 84:292–311, 2019 ()

@article{Min19, author = {Mindrinos, L.}, title = {The electromagnetic scattering problem by a cylindrical doubly connected domain at oblique incidence: the direct problem}, doi = {10.1093/imamat/hxy059}, issue = {2}, journal = {{IMA} J. Appl. Math.}, fjournal = {{IMA} Journal of Applied Mathematics}, pages = {292--311}, url = {https://academic.oup.com/imamat/advance-article/doi/10.1093/imamat/hxy059/5161356}, volume = {84}, year = {2019}, }
R. Chapko, D. Gintides and L. Mindrinos, The inverse scattering problem by an elastic inclusion, Advances in Computational Mathematics, 44:453–476, 2018 ()

@article{ChaGinMin18, author = {Chapko, R. and Gintides, D. and Mindrinos, L.}, title = {The inverse scattering problem by an elastic inclusion}, doi = {10.1007/s10444-017-9550-z}, issue = {2}, journal = {Adv. Comput. Math.}, fjournal = {Advances in Computational Mathematics}, pages = {453--476}, volume = {44}, year = {2018}, }
R. Chapko and L. Mindrinos, On the numerical solution of the exterior elastodynamic problem by a boundary integral equation method, Journal of Integral Equations and Applications, 30(4):521–542, 2018 ()

@article{ChaMin17, author = {Chapko, R. and Mindrinos, L.}, title = {On the numerical solution of the exterior elastodynamic problem by a boundary integral equation method}, doi = {10.1216/JIE-2018-30-4-521}, journal = {J. Integral Equations Appl.}, fjournal = {Journal of Integral Equations and Applications}, number = {4}, pages = {521--542}, url = {https://projecteuclid.org/euclid.jiea/1543482175}, volume = {30}, year = {2018}, }
P. Elbau, L. Mindrinos and O. Scherzer, Quantitative reconstructions in multi-modal photoacoustic and optical coherence tomography imaging, Inverse Problems, 34(1):014006, 2018 ()

@article{ElbMinSch18, author = {Elbau, P. and Mindrinos, L. and Scherzer, O.}, title = {Quantitative reconstructions in multi-modal photoacoustic and optical coherence tomography imaging}, doi = {10.1088/1361-6420/aa9ae7}, journal = {Inverse Probl.}, fjournal = {Inverse Problems}, number = {1}, pages = {014006}, pdf = {https://iopscience.iop.org/article/10.1088/1361-6420/aa9ae7/pdf}, url = {http://stacks.iop.org/0266-5611/34/i=1/a=014006}, volume = {34}, year = {2018}, }
P. Elbau, L. Mindrinos and O. Scherzer, The inverse scattering problem for orthotropic media in polarization-sensitive optical coherence tomography, GEM - International Journal on Geomathematics, 9(1):145–165, 2018 ()

@article{ElbMinSch18a, author = {Elbau, P. and Mindrinos, L. and Scherzer, O.}, title = {The inverse scattering problem for orthotropic media in polarization-sensitive optical coherence tomography}, doi = {10.1007/s13137-017-0102-y}, journal = {GEM. Int. J. Geomath.}, fjournal = {GEM - International Journal on Geomathematics}, number = {1}, pages = {145--165}, url = {https://link.springer.com/content/pdf/10.1007%2Fs13137-017-0102-y.pdf}, volume = {9}, year = {2018}, }
H. Akhouayri, M. Bergounioux, A. Da Silva, P. Elbau, A. Litman and L. Mindrinos, Quantitative thermoacoustic tomography with microwaves sources, Journal of Inverse and Ill-Posed Problems, 25(6):703–717, 2017 ()

@article{AkhBerSilElbLit16, author = {Akhouayri, H. and Bergounioux, M. and Da Silva, A. and Elbau, P. and Litman, A. and Mindrinos, L.}, title = {Quantitative thermoacoustic tomography with microwaves sources}, doi = {10.1515/jiip-2016-0012}, journal = {J. Inverse Ill-Posed Probl.}, fjournal = {Journal of Inverse and Ill-Posed Problems}, number = {6}, pages = {703--717}, volume = {25}, year = {2017}, }
P. Elbau, L. Mindrinos and O. Scherzer, Inverse problems of combined photoacoustic and optical coherence tomography, Mathematical Methods in the Applied Sciences, 40(3):505–522, 2017 ()

@article{ElbMinSch17, author = {Elbau, P. and Mindrinos, L. and Scherzer, O.}, title = {Inverse problems of combined photoacoustic and optical coherence tomography}, doi = {10.1002/mma.3915}, journal = {Math. Methods Appl. Sci.}, fjournal = {Mathematical Methods in the Applied Sciences}, number = {3}, pages = {505--522}, url = {http://onlinelibrary.wiley.com/doi/10.1002/mma.3915/epdf}, volume = {40}, year = {2017}, }
D. Gintides and L. Mindrinos, The direct scattering problem of obliquely incident electromagnetic waves by a penetrable homogeneous cylinder, Journal of Integral Equations and Applications, 28(1):91–122, 2016 ()

@article{GinMin16, author = {Gintides, D. and Mindrinos, L.}, title = {The direct scattering problem of obliquely incident electromagnetic waves by a penetrable homogeneous cylinder}, doi = {10.1216/JIE-2016-28-1-91}, journal = {J. Integral Equations Appl.}, fjournal = {Journal of Integral Equations and Applications}, number = {1}, pages = {91--122}, url = {http://projecteuclid.org/euclid.jiea/1460727506}, volume = {28}, year = {2016}, }
P. Elbau, L. Mindrinos and O. Scherzer, Mathematical Methods of Optical Coherence Tomography, In O. Scherzer, editor, Handbook of Mathematical Methods in Imaging, 1169–1204. Springer New York, 2015 ()

@incollection{ElbMinSch15, author = {Elbau, P. and Mindrinos, L. and Scherzer, O.}, title = {Mathematical Methods of Optical Coherence Tomography}, booktitle = {Handbook of Mathematical Methods in Imaging}, doi = {10.1007/978-1-4939-0790-8_44}, editor = {Scherzer, O.}, pages = {1169--1204}, publisher = {Springer New York}, url = {http://link.springer.com/referenceworkentry/10.1007/978-1-4939-0790-8_44}, year = {2015}, }
D. Gintides and L. Midrinos, Inverse scattering problem for a rigid scatterer or a cavity in elastodynamics Journal of Applied Mathematics and Mechanics, 91(4):276–287, 2011 ()

@article{GinMid11, author = {Gintides, D. and Midrinos, L.}, title = {Inverse scattering problem for a rigid scatterer or a cavity in elastodynamics}, doi = {10.1002/zamm.201000098}, number = {4}, pages = {276--287}, volume = {91}, year = {2011}, }

Conference Publications (peer-reviewed)

D. Gintides, S. Giogiakas and L. Mindrinos, A theoretical and numerical study of oblique scattering by an inhomogeneous cylinder, In Journal of Physics: Conference Series, 2444: 012009. IOP Publishing, 2023 ()

@inproceedings{GinGioMin23, author = {Gintides, D. and Giogiakas, S. and Mindrinos, L.}, title = {A theoretical and numerical study of oblique scattering by an inhomogeneous cylinder}, journal = {Journal of Physics: Conference Series}, booktitle = {10th International Conference on Inverse problems in Engineering}, volume = {2444}, doi = {10.1088/1742-6596/2444/1/012009}, url = {https://iopscience.iop.org/article/10.1088/1742-6596/2444/1/012009}, year = {2023}, }
P. Elbau, L. Mindrinos and L. Veselka, Reconstructing the Optical Parameters of a Layered Medium with Optical Coherence Elastography, In L. Beilina, M. Bergounioux, M. Christofol, A. Da Silva and A. Litman, editors, Mathematical and Numerical Approaches for Multi-Wave Inverse Problems, (328)105–126. Springer, 2020 ()

@inproceedings{ElbMinVes20, author = {Elbau, P. and Mindrinos, L. and Veselka, L.}, title = {Reconstructing the Optical Parameters of a Layered Medium with Optical Coherence Elastography}, booktitle = {Mathematical and Numerical Approaches for Multi-Wave Inverse Problems}, doi = {10.1007/978-3-030-48634-1_8}, editor = {Beilina, L. and Bergounioux, M. and Christofol, M. and Da Silva, A. and Litman, A.}, number = {328}, pages = {105--126}, publisher = {Springer}, series = {Springer Proceedings in Mathematics \& Statistics}, year = {2020}, }
R. Chapko and L. Mindrinos, On the numerical solution of the elastodynamic problem by a combination of the laguere transformation and the boundary integral equation method, In Proceedings of the International Ukrainian Conference on Applied Mathematics (UCAM 2017), 29–31. Ivan Franko National University of Lviv, 2018 ()

@inproceedings{ChaMin17b, author = {Chapko, R. and Mindrinos, L.}, title = {On the numerical solution of the elastodynamic problem by a combination of the laguere transformation and the boundary integral equation method}, booktitle = {Proceedings of the International Ukrainian Conference on Applied Mathematics (UCAM 2017)}, isbn = {978-617-7065-76-9}, location = {Lviv}, pages = {29--31}, pdf = {http://ami.lnu.edu.ua/ucam/docs/conf2017_final.pdf}, publisher = {Ivan Franko National University of Lviv}, url = {https://ami.lnu.edu.ua/ucam/docs/conf2017_final.pdf}, year = {2018}, }
P. Elbau, L. Mindrinos and O. Scherzer, Modeling polarization-sensitive OCT using inverse scattering techniques, In Imaging and Applied Optics 2017, MW3C.3. Optical Society of America, 2017 ()

@inproceedings{ElbMinSch17b, author = {Elbau, P. and Mindrinos, L. and Scherzer, O.}, title = {Modeling polarization-sensitive OCT using inverse scattering techniques}, booktitle = {Imaging and Applied Optics 2017}, doi = {10.1364/MATH.2017.MW3C.3}, location = {OSA Imaging and Applied Optics Congress, San Francisco, California, United States}, pages = {MW3C.3}, publisher = {Optical Society of America}, year = {2017}, }
P. Elbau, L. Mindrinos and O. Scherzer, The Inverse Scattering Problem in Optical Coherence Tomography, In Imaging and Applied Optics 2016, MW5H.6. Optical Society of America, 2016 ()

@inproceedings{ElbMinSch16a, author = {Elbau, P. and Mindrinos, L. and Scherzer, O.}, title = {The Inverse Scattering Problem in Optical Coherence Tomography}, booktitle = {Imaging and Applied Optics 2016}, doi = {10.1364/MATH.2016.MW5H.6}, location = {Imaging and Applied Optics 2016 congress in Heidelberg, Germany from 25 until 28 July 2016}, pages = {MW5H.6}, publisher = {Optical Society of America}, year = {2016}, }
P. Elbau, L. Mindrinos and O. Scherzer, The inverse electromagnetic scattering problem in OCT for anisotropic media, In F. Cakoni, M. Hanke-Bourgeois, A. Kirsch and W. Rundell (editors) Oberwolfach Conference: Theory and Numerics of Inverse Scattering Problems, 13:2612–2615. EMS Publishing House, 2016 ()

@inproceedings{ElbMinSch16b, author = {Elbau, P. and Mindrinos, L. and Scherzer, O.}, title = {The inverse electromagnetic scattering problem in OCT for anisotropic media}, booktitle = {Oberwolfach Conference: Theory and Numerics of Inverse Scattering Problems}, doi = {10.4171/OWR/2016/45}, editor = {Cakoni, F. and Hanke-Bourgeois, M. and Kirsch, A. and Rundell, W.}, issue = {3}, pages = {2612--2615}, publisher = {EMS Publishing House}, series = {Oberwolfach reports}, url = {https://www.mfo.de/document/1638b/OWR_2016_45.pdf}, volume = {13}, year = {2016}, }
P. Elbau, L. Mindrinos and O. Scherzer, Mathematical Modeling of Optical Coherence Tomography, In Oberwolfach Conference: Mathematics and Algorithms in Tomography, 2053–2054. Mathematisches Forschungsinstitut Oberwolfach, 2014 ()

@inproceedings{ElbMinSch14, author = {Elbau, P. and Mindrinos, L. and Scherzer, O.}, title = {Mathematical Modeling of Optical Coherence Tomography}, booktitle = {Oberwolfach Conference: Mathematics and Algorithms in Tomography}, doi = {10.4171/OWR/2014/37}, pages = {2053--2054}, publisher = {Mathematisches Forschungsinstitut Oberwolfach}, year = {2014}, }
D. Gintides and L. Mindrinos, The detection of an inclusion in 2-D linear elasticity using non-linear integral equations, In Conference Proceedings of the 2nd International Conference on Inverse Problems in Mechanics of Structures and Materials (IPM 2011), 27–28, 2011 ()

@inproceedings{GinMin11b, author = {Gintides, D. and Mindrinos, L.}, title = {The detection of an inclusion in 2-D linear elasticity using non-linear integral equations}, booktitle = {Conference Proceedings of the 2nd International Conference on Inverse Problems in Mechanics of Structures and Materials (IPM 2011)}, pages = {27--28}, year = {2011}, }
D. Gintides and L. Midrinos, The inverse scattering problem in linear elasticity for few incident waves using nonlinear integral equations, In J. A. Murillo and F. Periago (editors) Proceedings Book of the Fifth International Conference on Inverse Problems, Control and Shape Optimization, 167–172, 2010 ()

@inproceedings{GinMid10a, author = {Gintides, D. and Midrinos, L.}, title = {The inverse scattering problem in linear elasticity for few incident waves using nonlinear integral equations}, booktitle = {Proceedings Book of the Fifth International Conference on Inverse Problems, Control and Shape Optimization}, doi = {10.1142/9789814322034_0002}, editor = {Murillo, J. A. and Periago, F.}, pages = {167--172}, publisher = {World Scientific}, year = {2010}, }
D. Gintides and L. Midrinos, The inverse scattering problem in linear elasticity via a pair of nonlinear integral equations, In A. Charalambopoulos, D. I. Fotiadis and D. Polyzos (editors) Advanced Topics in Scattering and Biomedical Engineering, 12–19. World Scientific, 2010 ()

@inproceedings{GinMid10, author = {Gintides, D. and Midrinos, L.}, title = {The inverse scattering problem in linear elasticity via a pair of nonlinear integral equations}, booktitle = {Advanced Topics in Scattering and Biomedical Engineering}, doi = {10.1142/9789814322034_0002}, editor = {Charalambopoulos, A. and Fotiadis, D. I. and Polyzos, D.}, pages = {12--19}, publisher = {World Scientific}, series = {Proceedings of the 9th International Workshop on Mathematical Methods in Scattering Theory and Biomedical Engineering}, year = {2010}, }
D. Gintides, K. Kiriaki, A. Lygidaki and L. Midrinos, The detection of point scatterers in a waveguide, In A. Charalambopoulos, D. I. Fotiadis and D. Polyzos (editors) Advanced Topics in Scattering and Biomedical Engineering, 38–46. World Scientific, 2008 ()

@inproceedings{GinKirLygMid08, author = {Gintides, D. and Kiriaki, K. and Lygidaki, A. and Midrinos, L.}, title = {The detection of point scatterers in a waveguide}, booktitle = {Advanced Topics in Scattering and Biomedical Engineering}, doi = {10.1142/9789812814852_0005}, editor = {Charalambopoulos, A. and Fotiadis, D. I. and Polyzos, D.}, pages = {38--46}, publisher = {World Scientific}, series = {Proceedings of the 8th International Workshop on Mathematical Methods in Scattering Theory and Biomedical Engineering}, year = {2008}, }

Presentations

Invited Talks (10 most recent)

Scattering by a layered medium: Direct and inverse problems, 15th Internal SFB Meeting, Obergurgl, Austria 2023
Solving Cauchy problems using semi-discretization techniques and BIE, 11th Applied Inverse Problems Conference, Göttingen, Germany 2023
A numerical solution for various lateral Cauchy problems, 2nd Congress of Greek Mathematicians, Athens, Greece 2022
A two-step method for the numerical solution of lateral Cauchy problems, Joint Fudan-RICAM Seminar on Inverse Problems (virtual), Shanghai, China 2021
Refractive index reconstructions in coupled physics imaging, IS20: SIAM Conference on Imaging Science (virtual), Toronto, Canada 2020
An iterative method for solving numerically the exterior elastodynamic problem in planar unbounded domains, Applied Inverse Problems Conference (AIP), Grenoble, France 2019
Reconstructing the optical properties of a medium from the coupled physics PAT/OCT system, Joint Mathematics Meetings - SIAM Minisymposium, Baltimore, USA 2019
A reconstruction method for multi-modal imaging, SIAM Conference on Imaging Science, Bologna, Italy 2018
The electromagnetic scattering problem by an infinitely long cylinder at oblique incidence, Inverse Problems: Modeling and Simulation (IPMS), Mellieha, Malta 2018
Quantitative Polarized-sensitive Optical Coherence Tomography for orthotropic media, The 9th Applied Inverse Problems Conference (AIP), Hangzhou, China 2017

Curriculum Vitae

CV in English (last updated Feb 24)
CV in Greek (last updated Feb 24)