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Computational finance : MATLAB oriented modeling / Francesco Cesarone.

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Format:
Book
Author/Creator:
Cesarone, Francesco, author.
Series:
Routledge-Giappichelli studies in business and management.
Routledge-Giappichelli studies in business and management
Language:
English
Subjects (All):
Finance--Mathematical models.
Finance.
Finance--Statistics.
Physical Description:
1 online resource (243 pages).
Edition:
1st ed.
Place of Publication:
London ; New York : Routledge, Taylor & Francis Group, 2021.
Summary:
Computational finance is increasingly important in the financial industry, as a necessary instrument for applying theoretical models to real-world challenges. Indeed, many models used in practice involve complex mathematical problems, for which an exact or a closed-form solution is not available. Consequently, we need to rely on computational techniques and specific numerical algorithms. This book combines theoretical concepts with practical implementation. Furthermore, the numerical solution of models is exploited, both to enhance the understanding of some mathematical and statistical notions, and to acquire sound programming skills in MATLAB®, which is useful for several other programming languages also. The material assumes the reader has a relatively limited knowledge of mathematics, probability, and statistics. Hence, the book contains a short description of the fundamental tools needed to address the two main fields of quantitative finance: portfolio selection and derivatives pricing. Both fields are developed here, with a particular emphasis on portfolio selection, where the author includes an overview of recent approaches. The book gradually takes the reader from a basic to medium level of expertise by using examples and exercises to simplify the understanding of complex models in finance, giving them the ability to place financial models in a computational setting. The book is ideal for courses focusing on quantitative finance, asset management, mathematical methods for economics and finance, investment banking, and corporate finance.
Contents:
Cover
Half Title
Title Page
Copyright Page
Dedication
Table of Contents
Preface
Part I: Programming techniques for financial calculus
Chapter 1: An introduction to MATLAB®with applications
1.1: MATLAB®basics
1.1.1: Preliminary elements
1.1.2: Vectors and matrices
1.1.3: Basic linear algebra operations
1.1.4: Element-by-element multiplication and division
1.1.5: Colon (:) operator
1.1.6: Predefined and user-defined functions
1.2: M-file: Scripts and Functions
1.3: Programming fundamentals
1.3.1: if, else, and elseif construct
1.3.2: for loops
1.3.3: while loops
1.4: MATLAB®graphics
1.5: Preliminary exercises on programming
1.6: Exercises on the basics of financial evaluation
1.6.1: Interest Rate Swap
Part II: Portfolio selection
Chapter 2: Preliminary elements in Probability Theory and Statistics
2.1: Basic concepts in probability
2.2: Randomvariables
2.3: Probability distributions
2.4: Continuous randomvariables
2.5: Higher-order moments and synthetic indices of a distribution
2.6: Some probability distributions
2.6.1: Uniformdistribution
2.6.2: Normal distribution
2.6.3: Log-normal distribution
2.6.4: Chi-square distribution
2.6.5: Student-t distribution
Chapter 3: Linear and Non-linear Programming
3.1: General Framework
3.2: Optimization with MATLAB®
3.2.1: Linear Programming
3.2.2: Quadratic Programming
3.2.3: Non-Linear Programming
3.3: Multi-objective optimization
3.3.1: Efficient solutions and the efficient frontier
Chapter 4: Portfolio Optimization
4.1: Portfolio of equities: prices and returns
4.2: Risk-return analysis
4.2.1: Elements of Expected Utility Theory
4.2.2: General Framework
4.2.3: Mean-Variance model
4.2.4: Effects of diversification for an EW portfolio.
4.2.5: Mean-Mean Absolute Deviation model
4.2.6: Mean-Maximum Loss model
4.2.7: Value-at-Risk
4.2.8: Mean-Conditional Value-at-Risk model
4.2.9: Mean-Gini model
4.3: Elements of bond portfolio immunization
Part III: Derivatives pricing
Chapter 5: Further elements on Probability Theory and Statistics
5.1: Introduction toMonte Carlo simulation
5.2: Stochastic processes
5.2.1: Brownian motion
5.2.2: Ito's Lemma
5.2.3: Geometric Brownian motion
Chapter 6: Pricing of derivatives with an underlying security
6.1: Binomial model
6.1.1: A replicating portfolio of stocks and bonds
6.1.2: Calibration of the binomialmodel
6.1.3: Multi-period case
6.2: Black-Scholes model
6.2.1: Assumptions of the model
6.2.2: Pricing of a European call
6.2.3: Pricing equation for a call
6.2.4: Implied volatility
6.2.5: Black-Scholes formulas via integrals
6.3: Option Pricing via theMonte Carlomethod
6.3.1: Path Dependent Derivatives
References
Suggested lesson plan.
Notes:
Description based on print version record.
ISBN:
1-00-304558-8
1-003-04558-8
1-000-16903-0
9781003045588
OCLC:
1162607289

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