Biblio Index

Export 235 results:
Author [ Title(Asc)] Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
R
Giannetti, F., & Passarelli di Napoli, A.. (2022). Regularity for solutions to a class of PDE’s with Orlicz growth. Dolomites Research Notes on Approximation, 15(5), 113-127. presented at the 12/2022. doi:10.14658/pupj-drna-2022-5-10
PDF icon GIANNETTI_PASSARELLI.pdf (322.54 KB)
Cuomo, S., DeRossi, A., Rizzo, L., & Sica, F.. (2022). Reconstruction of volatility surfaces: a first computational study. Dolomites Research Notes on Approximation, 15(3), 37-48. presented at the 10/2022. doi:10.14658/pupj-drna-2022-3-5
PDF icon 05_cuomo.pdf (1.98 MB)
Wright, G. (2013). Reconstruction and decomposition of vector fields on the sphere with applications. Dolomites Research Notes on Approximation, 6(Special_Issue). presented at the 09/2013.
PDF icon Wright-2013-Lecture02.pdf (2.16 MB)
Franceschini, A., Ferronato, M., Janna, C., & Magri, V. A. P.. (2018). Recent advancements in preconditioning techniques for large size linear systems suited for High Performance Computing. Dolomites Research Notes on Approximation, 11(3), 11-22. presented at the 11/2018. doi:10.14658/pupj-drna-2018-3-3
PDF icon Franceschinietal_DRNA2018.pdf (363.76 KB)
Perracchione, E. (2020). RBF-based tensor decomposition with applications to oenology. Dolomites Research Notes on Approximation. presented at the 05/2020, Padova, IT: Padova University Press. doi:10.14658/PUPJ-DRNA-2020-1-5
PDF icon Perracchione_2020_RBF.pdf (311.54 KB)
Perracchione, E., & Stura, I.. (2016). RBF kernel method and its applications to clinical data. Dolomites Research Notes on Approximation, 9(Special_Issue), 13-18. presented at the 09/2016. doi:10.14658/pupj-drna-2016-Special_Issue-3
PDF icon PerracchioneStura_KMFA2016.pdf (183.88 KB)
Fasshauer, G. (2008). RBF Interpolation and MLS Approximation. Dolomites Research Notes on Approximation, 1(1). presented at the 09/2008.
PDF icon Fasshauer-2008-Lecture2.pdf (997.89 KB)
Fasshauer, G. (2008). RBF Collocation and Polynomial Pseudospectral Methods. Dolomites Research Notes on Approximation, 1(1). presented at the 09/2008.
PDF icon Fasshauer-2008-Lecture4.pdf (834.01 KB)
Dell'Accio, F., & Di Tommaso, F.. (2019). Rate of convergence of multinode Shepard operators. Dolomites Research Notes on Approximation, 12(1), 1-6. presented at the 02/2019. doi:10.14658/pupj-drna-2019-1-1
PDF icon DellAccioDiTommaso_2019_RCM.pdf (92.2 KB)
Mudiyanselage, N. D. K., Blazejewski, J., Ong, B., & Piret, C.. (2022). A Radial Basis Function - Finite Difference and Parareal Framework for Solving Time Dependent Partial Differential Equations. Dolomites Research Notes on Approximation, 15(5), 8-23. presented at the 12/2022. doi:10.14658/pupj-drna-2022-5-2
PDF icon MUDIYANSELAGE_et_al.pdf (3.36 MB)
Q
De Marchi, S., Elefante, G., Perracchione, E., & Poggiali, D.. (2021). Quadrature at fake nodes. Dolomites Research Notes on Approximation, 14(2), 39-45. presented at the 04/2021. doi:10.14658/pupj-drna-2021-2-6
PDF icon DeMarchietalMATA2020.pdf (237.78 KB)
P
Sommer, M. (2019). Property A and best L1-Approximation. Dolomites Research Notes on Approximation, 12(Special_Issue), 29-37. presented at the 10/2019. doi:10.14658/pupj-drna-2019-Special_Issue-5
PDF icon AKroo_Sommer.pdf (428.25 KB)
Fermo, L., & Occorsio, D.. (2021). A projection method with smoothing transformation for second kind Volterra integral equations. Dolomites Research Notes on Approximation, 14(1), 12-26. presented at the 01/2021. doi:10.14658/pupj-drna-2021-1-2
PDF icon FermoOccorsio_2021_PST.pdf (326.56 KB)
Conte, D., Guarino, N., Pagano, G., & Paternoster, B.. (2022). Positivity-preserving and elementary stable nonstandard method for a COVID-19 SIR model. Dolomites Research Notes on Approximation, 15(5), 65-77. presented at the 12/2022. doi:10.14658/pupj-drna-2022-5-7
PDF icon CONTE_et_al.pdf (370.75 KB)
De Marchi, S., & Vianello, M.. (2013). Polynomial approximation on pyramids, cones and solids of rotation. Dolomites Research Notes on Approximation, 6(Special_Issue), 20-26. presented at the 09/2013. doi:10.14658/pupj-drna-2013-Special_Issue-4
PDF icon DeMarchiVianello-2013-PAP.pdf (417.92 KB)
Szili, L., & Vértesi, P.. (2015). On polynomial and barycentric interpolations. Dolomites Research Notes on Approximation, 8(Special_Issue), 17-22. presented at the 11/2015. doi:10.14658/pupj-drna-2015-Special_Issue-3
PDF icon SziliVertesi_10YPDPTS.pdf (228.76 KB)
Acar, T., & Kursun, S.. (2023). Pointwise convergence of generalized Kantorovich exponential sampling series. Dolomites Research Notes on Approximation, 16(1), 1-10. presented at the 01/2023. doi:10.14658/pupj-drna-2023-2-1
PDF icon 01_COMSS_22_Acar_Kursun.pdf (260.67 KB)
O
Fasshauer, G. (2008). “Optimal” Shape Parameters for RBF Approximation Methods. Dolomites Research Notes on Approximation, 1(1). presented at the 09/2008.
PDF icon Fasshauer-2008-Lecture5.pdf (1.15 MB)
Leopardi, P., Sommariva, A., & Vianello, M.. (2017). Optimal polynomial meshes and Caratheodory-Tchakaloff submeshes on the sphere. Dolomites Research Notes on Approximation, 10(Special_Issue), 18-24. presented at the 05/2017. doi:10.14658/pupj-drna-2017-Special_Issue-4
PDF icon LeopardiSommarivaVianello_DRNA2017.pdf (485.74 KB)
Bos, L., & De Marchi, S.. (2011). On Optimal Points for Interpolation by Univariate Exponential Functions. Dolomites Research Notes on Approximation, 4(1), 8-12. presented at the 09/2011. doi:10.14658/pupj-drna-2011-1-2
PDF icon Bos-2011-OOP.pdf (135.3 KB)
Bos, L. (2022). On Optimal Designs for a d-Cube. Dolomites Research Notes on Approximation, 15(4), 20-34. presented at the 12/2022. doi:10.14658/pupj-drna-2022-4-3
PDF icon 03_60thDM.pdf (449.05 KB)
N
Laurita, C. (2022). A Nyström method for integral equations of the second kind with fixed singularities based on a Gauss-Jacobi-Lobatto quadrature rule. Dolomites Research Notes on Approximation, 15(5), 96-112. presented at the 12/2022. doi:10.14658/pupj-drna-2022-5-9
PDF icon LAURITA.pdf (277.1 KB)
De Bonis, M. C., & Laurita, C.. (2021). The numerical solution of Cauchy singular integral equations with additional fixed singularities. Dolomites Research Notes on Approximation, 14(2), 26-38. presented at the 04/2021. doi:10.14658/pupj-drna-2021-2-5
PDF icon DeBonisLauritaMATA2020.pdf (179.67 KB)
De Bonis, M. C., & Occorsio, D.. (2017). Numerical methods for hypersingular integrals on the real line. Dolomites Research Notes on Approximation, 10(Special_Issue), 97-117. presented at the 06/2017. doi:10.14658/pupj-drna-2017-Special_Issue-11
PDF icon DeBonisOccorsio_DRNA2017.pdf (555.2 KB)
Laguardia, A. L., & Russo, M. G.. (2022). Numerical methods for Fredholm integral equations based on Padua points. Dolomites Research Notes on Approximation, 15(5), 39-50. presented at the 12/2022. doi:10.14658/pupj-drna-2022-5-4
PDF icon LAGUARDIA_RUSSO.pdf (302.44 KB)

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