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Lunds tekniska högskola | Lunds universitet

Detaljer för kursplan för kurs FMAF05F giltig från och med HT 2018

Utskriftsvänlig visning

Allmänt
Syfte
  • To make the postgraduate student familiar with several concepts and techniques that are important in modern engineering mathematics.
Innehåll
  • ● Systems of linear differential equations: Equations in state form. Solution via diagonalization. Stability. Stationary solutions and transients. Solution via exponential matrix.

    ● Input/output relations: Linearity, time and space invariance, stability, causality. Convolutions. Elementary distribution theory. Transfer and frequency functions.

    ● Fourier analysis: The Laplace and Fourier transforms. Inversion formulae, the convolution theorem and Plancherel's theorem. Transform theory and analytic functions. Applications to differential equations and systems of differential equations.
Kunskap och förståelse
  • För godkänd kurs skall doktoranden
  • be familiar with the significance of eigenvalues in the context of stability and resonance, in linear systems, with continuous as well as discrete time.

    be able to describe and use the concepts of linearity, time invariance, stability, causality, impulse response and transfer function.

    be able to describe the structure of an exponential matrix, and be able to compute exponential matrices in simple cases.

    be able to define the concept of convolution, continuous and discrete, and to use convolutions both in the context of linear, time invariant systems and in the description of certain types of integral equations.
Färdighet och förmåga
  • För godkänd kurs skall doktoranden
  • be able to demonstrate an ability to independently choose appropriate methods to solve systems of linear differential and difference equations, and to carry out the solution essentially correctly.

    be able to demonstrate an ability to use eigenvalue techniques, elementary distribution theory, function theory, Fourier and Laplace transforms and convolutions in problem solving within the theory of linear systems.

    in connection with problem solving, be able to demonstrate an ability to integrate knowledge from the different parts of the course.

    with proper terminology, in a well-structured manner and with clear logic be able to explain the solution to mathematical problems within the framework of the course.
Värderingsförmåga och förhållningssätt
  • För godkänd kurs skall doktoranden
Undervisningsformer
  • Föreläsningar
  • övningar
Examinationsformer
  • Skriftlig tentamen
  • Inlämningsuppgifter
  • Underkänd, godkänd
Förkunskapskrav
Förutsatta förkunskaper
  • Linear algebra, calculus in one and several variables. Knowledge about complex analysis is useful for some parts.
Urvalskriterier
Litteratur
  • math-ssp: Lineära system.. KF-Sigma, 1997.
    math-ssp: Övningar i Lineära system.. KF-Sigma, 2009.
Övrig information
Kurskod
  • FMAF05F
Administrativ information
  •  -10-08
  • Professor Thomas Johansson

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Utskriftsvänlig visning