Risultati del Progetto
Risultati del Progetto:
I risultati del progetto sono pubblicati nel Supplemento al Volume XLVI degli Annali dell'Universita' di Ferrara (2000). E' possibile richiederne una copia scrivendo una mail alla Prof. Valeria Ruggiero all'indirizzo rgv@unife.it
INDICE
Treatement of signals and images
P.Boccacci, P.Bonetto, P.Brianzi, P.Calvini, F.Di Benedetto, A.R.Formiconi, A.Passeri - The 2D+1 method for an efficient modeling of collimator blur in 3D SPECT imaging |
Pag 1 |
M.Cotronei, L.Puccio - Effectiveness of multiwavelets in signal and image processing | Pag 19 |
L.Favella, M.T.Reineri, N.Balossino - A universal orthogonal system of functions for black and white and chromatic images compression and results in reconstruction | Pag 33 |
L.Favella, P.Angelino, M.T.Reineri - Analytical models for the image Loeve-Karhunen eigenfunctions | Pag 53 |
A.R.Formiconi, A.Passeri, P.Calvini - Theoretical determination of the collimator geometrical transfer function for the reconstruction of SPECT data with algorithms basedon the numerical inversion of the Radon transform |
Pag 73 |
A.R.Formiconi, E.Loli Piccolomini, S.artini, F.Zama, G.Zanghirati -Numerical methods and software for functional magnetic resonance images reconstruction | Pag 87 |
C.Guerrini, D.Lazzaro, L.B.Montefusco - An algebraic approach to signal processing: algorithms and applications | Pag 103 |
E.Loli Piccolomini, F.Zama - Numerical solution of some problems in tomography | Pag 115 |
S.Morigi, F.Sgallari - Models and numerical methods in nonlinear diffusion equations for 2D/3D image and image sequence analysis | Pag 129 |
A.Murli, L.D'Amore, L.Carracciuolo, P.Boccacci, P.Calvini - Parallel software for 3D SPECT imaging based on the 2D+1 approximation of collimator blur | Pag 143 |
G.Rodriguez, P.Vitali, F.Nobili, N.Girtler, P.Calvini - Brain perfusional SPECT imaging implementation for the early diagnosis and prognosis in Alzheimer disease | Pag 153 |
Differential equations
L.Aceto, P.Amodio, L.Brugnano, F.Iavernaro, F.Mazzia, D.Trigiante - Study of numerical methods for evolutionary equations and construction of the corresponding software for sequential and parallel computers |
Pag 167 |
L.Bergamaschi, G.Gambolati, A.Mazzia, G.Pini, M.Putti - Mixed finite elements and finite volumes for density dependent flow and transport in groundwater | Pag 179 |
L.Bergamaschi, G.Pini, F.Sartoretto - Parallel flow evaluation and preconditioning of gradient eigensolvers | Pag 191 |
E.Bertolazzi, G.Manzini - P2MESH: an extensible set of generic classes for PDE solvers on 2-D unstructured meshes | Pag 203 |
L.Bonaventura, V.Casulli, P.Zanolli - Numerical methods for large scale environmental flows | Pag 215 |
M.Carletti - Numerical integration of a model for the marine bacteriophage infection influenced by stochastic perturbations | Pag 227 |
V.Comincioli, I.Comodi, L.DellaCroce, G.Naldi, T.Scapolla, P.Venini, C.Viganotti - Numerical methods for structural mechanics problems and nonlinear materials | Pag 243 |
V.Comincioli, G.Naldi, L.Pareschi, G.Toscani - Numerical methods for multiscale hyperbolic systems and nonlinear parabolic equations | Pag 255 |
N.DelBuono, F.Diele, L.Lopez, C.Mastroserio, R.Peluso, T.Politi, I.Sgura - Conservative methods for ordinary differential equations on quadratic groups | Pag 267 |
D.Di Serafino, G.Giunta, A.Murli - A parallel software system for the numerical simulation of air pollution | Pag 279 |
M.Frontini, L.Gotusso - Discrete conservative models for the simulation of the motion of a vibrating string or rod | Pag 293 |
P.Ghelardoni, G.Gheri, M.Marletta, P.Marzulli - Correction of solutions for linear and nonlinear boundary value problems | Pag 305 |
E.Messina, B.Paternoster - Efficient methods for special second--order ODEs | Pag 317 |
L.Pareschi, G.Russo - Fast spectral methods for Boltzmann and Landau integral operators of gas and plasma kinetic theory | Pag 329 |
Integral equations
M.R.Capobianco, G.Criscuolo - The numerical treatment of hypersingular integral equations | Pag 343 |
G.Capobianco, M.R.Crisci, E.Russo, A.Vecchio - Parallel methods for Volterra integral equations | Pag 357 |
F.Caliò, E.Marchetti - Integro-differential models: a program code | Pag 369 |
M.R.Crisci, E.Russo, A.Vecchio - On the discrete Volterra equations | Pag 383 |
Numerical approximation and computational geometry
M.R.Capobianco, G.Criscuolo, R.Giova - On the approximate computation of singular and hypersingular integrals | Pag 393 |
G.Casciola, S.Morigi - xcmodel: an aCADemic system | Pag 405 |
F.Costabile, M.I.Gualtieri, S.Serra-Capizzano - Asymptotic expansions and extrapolation for positive linear operators | Pag 431 |
C.Dagnino, V.Demichelis, P.Lamberti, G.Pittaluga, L.Sacripante - Numerical integration based on spline approximation | Pag 443 |
C.Dagnino, V.Demichelis, P.Lamberti, G.Pittaluga, L.Sacripante - On univariate and bivariate polynomial spline approximation | Pag 455 |
Numerical optimization and nonlinear systems
L.Bergamaschi, G.Zilli - Parallel inexact Newton and interior point method | Pag 467 |
M.D'Apuzzo, V.De Simone, M.Marino, G.Toraldo - Parallel computing in bound constrained quadratic programming | Pag 479 |
C.Durazzi, E.Galligani - Solution of discrete optimal control problems via Mathematical Programming | Pag 493 |
V.Rizzoli, F.Sgallari, F.Mastri, C.Cecchetti, A.Lipparini - The exploitation of Krylov-subspace methods in the harmonic-balance simulation of large nonlinear microwave circuits | Pag 507 |
V.Ruggiero, L.Zanni - Splitting and projection--type methods for large convex quadratic programs | Pag 521 |
Miscellaneous topics
M.Frontini, A.Tagliani - Inverse Z transform for probability mass functions | Pag 541 |
S.Noschese, L.Pasquini - Condition and stability problems | Pag 553 |
P.Natalini, S.Noschese, P.E.Ricci - Numerical approach to some problems of Mathematical Physics | Pag 569 |
G.Pittaluga, L.Sacripante - Problems involving special functions | Pag 589 |
G.Spaletta, N.Sabbi, L.Guidotti, F.Fabbri - A numeric symbolic tool in total hip arthroplasty | Pag 599 |
E.Spedicato, Z.Xia, E.Bodon, A.DelPopolo - ABS algorithms for linear equations and ABSPACK | Pag 611 |