MATHEMATICAL MODELS IN FINANCE MOD. 1
cod. 1006141

Academic year 2018/19
2° year of course -
Professor
Chiara GUARDASONI
Academic discipline
Analisi numerica (MAT/08)
Field
A scelta dello studente
Type of training activity
Student's choice
48 hours
of face-to-face activities
6 credits
hub: -
course unit
in

Integrated course unit module: MATHEMATICAL MODELS IN FINANCE

Learning objectives

- Knowledge of language and technical procedures typical of Mathematical Finance. Ability to understand numerical methods for the resolution of differential problems arising from derivatives evalutation in Finance.

- Ability to apply knowledge and understanding in the critical analysis of the numerical results obtained giving a financial interpretation.

- Autonomy of judgment in evaluating the approximation algorithms and the obtained results also through discussion with one's peers.

- Ability to communicate clearly the acquired concepts and to discuss the obtained results.

- Ability to learn limits and advantages of models and methods of resolution and to apply them in different working and scientific contexts.

Prerequisites

- - -

Course unit content

Description of some types of financial options and of differential models that model their evaluation. Description and analysis of numerical methods for the resolution of these differential models.

Full programme

- Black & Scholes (BS) model for the evaluation of European financial options.
- Numerical methods for the resolution of the BS model: implicit and explicit finite difference methods, finite element method, binomial method.
- Financial options with barriers and boundary element method.
- Multiasset options.
- Asian options.

Bibliography

Most of the program is based on:

- P.Wilmott, J. Dewynne and S. Howison, 'Option Pricing', Oxford Financial Press, 1993

- R. Seydel, 'Tools for Computational Finance', Springer, 2009

Teaching methods

During the lectures the contents of the course will be analyzed, highlighting the difficulties related to the introduced numerical techniques. Moreover, the course will consist of a part of supervised cooperative learning consisting in the application of the numerical techniques through laboratory programming in Matlab. This activity will allow students to acquire the ability to deal with "numerical" difficulties, it will allow to evaluate the reliability and consistency of the obtained results and to analyse them from a financial point of view.

Assessment methods and criteria

The exam consists of
an assessment of the knowledge through a discussion of topics of the course or of a deepening job carried out autonomously by the candidate on a specific task. The threshold of sufficiency consists in the knowledge of the characteristics that allow to evaluate efficiency and stability of a numerical method and the knowledge of some foundations of quantitative finance illustrated during the course.

Other information

- - -

2030 agenda goals for sustainable development

- - -

Contacts

Toll-free number

800 904 084

Segreteria studenti

E. segreteria.scienze@unipr.it
T. +39 0521 905116

Quality assurance office

Education manager
dott.ssa Giulia Bonamartini

T. +39 0521 906968
Office E. smfi.didattica@unipr.it
Manager E.giulia.bonamartini@unipr.it

President of the degree course

Prof. Luca Lorenzi
E. luca.lorenzi@unipr.it

Faculty advisor

Prof. Luca Lorenzi
E. luca.lorenzi@unipr.it

Career guidance delegate

Prof. Francesco Morandin
E. francesco.morandin@unipr.it

Tutor Professors

Prof.ssa Alessandra Aimi
E. alessandra.aimi@unipr.it

Prof. Luca Lorenzi
E. luca.lorenzi@unipr.it

Prof. Adriano Tomassini
E. adriano.tomassini@unipr.it

 

Erasmus delegates

Prof. Leonardo Biliotti
E. leonardo.biliotti@unipr.it

Quality assurance manager

Prof.ssa Alessandra Aimi
E. alessandra.aimi@unipr.it

Internships

Prof. Costantino Medori
E.
 costantino.medori@unipr.it

Tutor students

Dott.ssa Fabiola Ricci
E. fabiola.ricci1@studenti.unipr.it