Viele unserer innovativen Methoden stellen wir als Software bereit. Der Reifegrad variiert vom Entwicklungscode bis hin zu kommerziell vertriebenen Softwarepaketen.
Folgende an unseren Trägerinstituten entwickelten Softwareprodukte stehen mit
den Forschungsaktivitäten des Matheon in Verbindung.
| Software |
Kurzbeschreibung (engl.) |
Trägereinrichtung |
| AMIRA |
3D visualization and modeling system with various features such as the generation of 3D surface models from raw image data, direct volume rendering and advanced vector field visualization, commercially distributed by Mercury Computer Systems Inc. |
ZIB |
| aws4SPM |
Toolbox for SPM (Welcome Trust Centre for Neuroimaging) implementing structural adaptive smoothing for fMRI data. |
WIAS |
| COSMOS |
Web front end for a search algorithm for fast 3D data mining in large biomolecule data bases |
HU Berlin |
| DiPoG |
Software for direct and inverse problems for optical gratings |
WIAS |
| El-Rambo |
Software package for nonlinear optimization problems |
HU Berlin |
| GELDA |
GEneral Linear Differential Algebraic equation solver |
TU Berlin |
| GENDA |
GEneral Nonlinear Differential-Algebraic equation solver |
TU Berlin |
| GEOMS |
General Equations Of Motion Solver: numerical simulation of multibody systems |
TU Berlin |
| HyperPlan |
Complex software package for simulating and planning regional hyperthermia therapy, commercially distributed by Dr. Sennewald Medizintechnik GmbH and BSD Medical Corporation |
ZIB |
| ILUPACK |
Incomplete LU decomposition PACKage, software for solving large linear systems |
TU Berlin |
| Imaging with R |
A series of packages for R implementing structural adaptive smoothing algorithms for color images, functional MRI, DWI and more. |
WIAS |
| jcmSuite |
Software package for the solution of Maxwell's equations in the optical regime, commercially distributed by the spin-off company jcmWave GmbH |
ZIB |
| jReality |
Java class library for interactive 3D visualization on a wide variety of platforms |
TU Berlin |
| LDSL-tool |
Software for the simulation of longitudinal dynamics in semiconductor lasers |
WIAS |
| Lenné3D |
Software system for the modelling and visualization of vegetation, rural and urban landscape, and gardens,
commercially distributed by the spin-off company Lenné3D GmbH |
ZIB |
| pdelib |
Toolbox for the solution of partial differential equations on the basis of the finite volume method and the finite element method |
WIAS |
| SCIP |
The currently fastest non-commercial mixed integer programming solver, providing also a framework for Constraint Integer Programming and branch-cut-and-price |
ZIB |
| SHIRA |
Skew Hamiltonian isotropic Implicitly Restarted Arnoldi, software for structured eigenvalue problems |
TU Berlin |
| solveDAE |
Matlab toolbox for the solution of arbitrary Differential Equations |
TU Berlin |
| SoPlex |
Implementation of the revised simplex algorithm, features primal and dual solving routines for linear programs and is implemented as a C++ class library that can be used with other programs |
ZIB |
| VPLAN |
General purpose tool for modeling, simulation, parameter estimation and optimum experimental design for processes which can be described by nonlinear DAE systems. |
HU Berlin |
| WIAS TeSCA |
Software for two and three dimensional semi-conductor analysis |
WIAS |
| WIAS-HiTNIHS |
A High Temperature Numerical Induction Heating Simulator |
WIAS |
| WIAS-QW |
Software for the simulation of strained multi quantum well structures |
WIAS |
| WIAS-SHarP |
Simulation and optimization software for laser and electron beam hardening |
WIAS |
| ZIMPL |
Language to translate the mathematical model of a problem into a linear or (mixed-) integer mathematical program readable
by LP or MIP solvers. |
ZIB |
Weitere Softwareprodukte und Informationen können Sie auf den folgenden Webseiten unserer Trägereinrichtungen finden:
Folgende an unseren Trägerinstituten entwickelten Patente stehen mit
den Forschungsaktivitäten des Matheon in Verbindung.
| Patent |
Kurzbeschreibung (engl.) |
Trägereinrichtung |
| DE102005023145
|
Electrical circuit simulating method, involves automatically generating net list with components for replacement of capacitance in capacitance-voltage source loops and inductance in inductance-power source sections (inventors: F. Ebert, S. Bächle) |
TU Berlin
|
DE102005029437
(pending) |
Method for computer-assisted finding of similar molecules in data bases (inventors: M. Thimm, S. Hougardy, V. Ziegler) |
HU Berlin
|
| DE102005003428 |
Generation of representation of appearance of physical object under different diffuse lighting conditions involves combination of pixel signals obtained from virtual illuminations of model representation of object (inventors: J. Hahn, K. Polthier) |
FU Berlin
in cooperation with Daimler Chrysler AG
|
| DE102005003427 |
Generation of representation of appearance of physical object under different diffuse lighting conditions involves combination of pixel signals obtained from virtual illuminations of model representation of object (inventors: J. Hahn, K. Polthier) |
FU Berlin
in cooperation with Daimler Chrysler AG
|
| DE102005003426 |
Generation of representation of appearance of physical object under different diffuse lighting conditions involves combination of pixel signals obtained from virtual illuminations of model representation of object (inventors: J. Hahn, K. Polthier) |
FU Berlin
in cooperation with Daimler Chrysler AG |
| DE102004045121 |
Generation of representation of appearance of physical object (inventors: J. Hahn, K. Polthier) |
FU Berlin
in cooperation with Daimler Chrysler AG |
| DE102004045119 |
Generation of representation of appearance of physical object under different diffuse lighting conditions involves combination of pixel signals obtained from virtual illuminations of model representation of object (inventors: J. Hahn, K. Polthier) |
FU Berlin
in cooperation with Daimler Chrysler AG |
| DE102006013860 |
Generation of representation of appearance of physical object (inventors: J. Hahn, K. Polthier) |
FU Berlin
in cooperation with Daimler Chrysler AG |
Die Verwertung von Patenten erfolgt an unseren Trägereinrichtungen Freie Universität Berlin, Humboldt Universität zu Berlin und Technische Universität Berlin
im Regelfall über die Patentverwertungsagentur ipal GmbH.
