Tue, 27 Apr 2004
12:00
12:00
L3
Mon, 26 Apr 2004
17:00
17:00
L1
Cavitation and Configurational Forces in a Nonlinearly Elastic Material
Scott Spector
(Southern Illinois University)
Mon, 26 Apr 2004
16:00
16:00
L1
Representations of real semi-simple Lie groups and the geometry of flag manifolds
(Clown Meeting)
Masaki Kashiwara
(Kyoto)
Mon, 26 Apr 2004
14:15
14:15
L3
Mon, 26 Apr 2004
12:00
12:00
L1
Symplectic leaves of nxn matrices and representation theory of quantum groups
(Clown Meeting)
Ken Brown
(Glasgow)
Thu, 22 Apr 2004
17:00
17:00
L3
Thu, 22 Apr 2004
17:00
17:00
Graph colouring and frequency assignment -Please note that the above seminar will be held in Corpus Christi College
Prof Martin Grotschel
(Berlin)
Abstract
In Corpus
Thu, 22 Apr 2004
11:00
11:00
L3
Tue, 16 Mar 2004
12:00
12:00
L3
Towards a Donaldson-Floer type of theory for 3-manifolds based on the Gabai moduli space
Ioannis Zois
(Cardiff)
Fri, 12 Mar 2004
15:15
15:15
SR1
Fri, 12 Mar 2004
14:30
14:30
L3
Intra-membrane ligand diffucion and cell shape modulate juxtacrine patterning
Dr Steve Webb
(Loughborough)
Fri, 12 Mar 2004
14:15
14:15
DH 3rd floor SR
Thu, 11 Mar 2004
16:30
16:30
DH 2nd floor SR
Thu, 11 Mar 2004
14:00 -
15:00
Rutherford Appleton Laboratory, nr Didcot
Structured matrix computations
Dr Francoise Tisseur
Abstract
We consider matrix groups defined in terms of scalar products. Examples of interest include the groups of
- complex orthogonal,
- real, complex, and conjugate symplectic,
- real perplectic,
- real and complex pseudo-orthogonal,
- pseudo-unitary
matrices. We
- Construct a variety of transformations belonging to these groups that imitate the actions of Givens rotations, Householder reflectors, and Gauss transformations.
- Describe applications for these structured transformations, including to generating random matrices in the groups.
- Show how to exploit group structure when computing the polar decomposition, the matrix sign function and the matrix square root on these matrix groups.
This talk is based on recent joint work with N. Mackey, D. S. Mackey, and N. J. Higham.