Anders Andersson

Universitetslektor matematik
Filosofie doktor

Artikel

Andersson, A., Nilsson, B., Biro, T. (2016). Fourier methods for harmonic scalar waves in general waveguides Journal of Engineering Mathematics, 98(1), 21-38. More information
Andersson, A. (2009). Modified Schwarz-Christoffel mappings using approximate curve factors Journal of Computational and Applied Mathematics, 233(4), 1117-1127. More information
Andersson, A. (2008). A modified Schwarz-Christoffel mapping for regions with piecewise smooth boundaries Journal of Computational and Applied Mathematics, 213(1), 56-70. More information
Andersson, A. (2008). Schwarz-Christoffel Mappings for Nonpolygonal Regions SIAM Journal on Scientific Computing, 31(1), 94-111 Philadelphia: Society for Industrial and Applied Mathematics . More information

Doktorsavhandling

Andersson, A. (2009). Numerical conformal mappings for waveguides (Doctoral thesis, Växjö: Växjö University Press). More information

Antologibidrag

Andersson, A. (2010). Numerical Conformal Mappings for Waveguides. In: Computational Mathematics: Theory, Methods and Applications Hauppauge NY, USA: Nova Science Publishers More information

Konferensbidrag

Andersson, A., Nilsson, B. (2009). Electro-Magnetic Scattering in Variously Shaped Waveguides with an Impedance Condition. More information
Andersson, A. (2009). On the curvature of an inner curve in a Schwarz--Christoffel mapping. More information
Nilsson, B., Augey, R., Andersson, A. (2009). Acoustic waves in a mean flow duct with varying boundary. Reston, Va.: < American Institute of Aeronautics and Astronautics, More information
Andersson, A., Nilsson, B. (2008). Acoustic Transmission in Ducts of Various Shapes with an Impedance Condition. Melville: American Institute of Physics, More information
Andersson, A. (2006). Using a zipper algorithm to find a conformal map for a channel with smooth boundary. More information

Licentiatavhandling

Andersson, A. (2006). Numerical Conformal Mappings for Regions Bounded by Smooth Curves (Licentiate thesis, Växjö: Matematiska och systemtekniska institutionen, Växjö universitet). More information