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Lecturer:
Giuseppe Savarè
Course name: Mathematical methods
Course code: 500541
Degree course: Bioingegneria, Ingegneria Informatica
Disciplinary field of science: MAT/05
University credits: CFU 6
Course website: http://www.imati.cnr.it/~savare/didattica/metodi/
Specific course objectives
Learn how to work in the complex framework, evaluate integrals of olomorphic functions, manipulate power and Fourier series, adopt the point of view of signal theory, calculate and operate with Z, Fourier and Laplace transforms, solve simple ordinary differential equations with constant coefficients, understand convolutions.
Course programme
Complex functions
- Manipulation of complex numbers
- Rational, exponential, and trigonometric functions, logarithms
- Power series
- Conplex derivatives, olomorphic functions, Cauchy-Riemann conditions
- Line integrals, Cauchy theorem, , analyticity of olomorphic functions
- Singularities, Laurent series, residue formula
- Evaluation of integrals, Jordan lemma
Signals
- Discrete and continuous signals
- Elementary manipulation of signals: sum, linear combination, shift and rescaling.
- Scalar products and norms
Z transform
- Definition, simple properties, examples
- Applications to linear difference equations
Fourier series
- Periodic signals, trigonometric and exponential functions, Fourier series.
- Pointwise and energy convergence, Gibbs phenomenon.
- Parseval identity
- Applications
Fourier trasform
- Definition of Fourier transform, relationships with Fourier series, elementary properties
- Riemann-Lebesgue lemma
- Inversion theorem for piecewise regular functions
- Plancherel identity, Fourier transform for L^2 functions
Laplace transform
- Definition, links with the Fourier transform, main properties
- Inversion of Laplace transform, residue and Heaviside formula
- Application to simple ordinary differential equations
Convolutions
- Definition and simple example of convolutions
- Links with Fourier and Laplace transform
- Simple applications to differential equations
Course entry requirements
Differential and integral calculus for scalar and vector functions, matrices and linear transformations, sequences and series, power series in the real line, complex numbers, polar coordinates.
Course structure and teaching
Lectures (hours/year in lecture theatre): 22
Practical class (hours/year in lecture theatre): 43
Practicals / Workshops (hours/year in lecture theatre): 0
Suggested reading materials
M. Codegone. Metodi matematici per l'Ingegneria. Zanichelli.
M. Giaquinta, G. Modica. Note di Metodi Matematici per Ingegneria Informatica. Pitagora.
F. Tomarelli. Esercizi di Metodi Matematici per l'Ingegneria. CLU.
G. Savaré. Lecture notes. The pdf file can be downloaded from the web site of the course.
Testing and exams
Written and oral examination
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