|
Wednesday, September 17 |
| Overview of VTB
related programs and progress |
Dougal |
| Simulation as
the system spec |
Ericsen |
| VTB to S3D -
commercialization |
Islam |
| VXE
commercialization |
King/Sechrest |
| Security of the
simulation environment |
Pei |
| VTB Scripting
tool |
Broughton |
| The portable
VTB solver |
Leonard |
|
Distributed
Simulation and the Real Time Extension of VTB |
Figueroa/X Wu |
| Processor in the simulation
loop |
Lentijo |
| Integrated nutrid
based high-power circuits |
Simin |
| Sim/stim interface |
Vallieu |
| Labview
interface |
McKay |
| HIL and distributed
modeling |
Popov |
| Testing control
agents using VTB |
Cartes |
|
Virtual and real
testing of synergetic controls
|
Santi |
| Frequency analysis
methods |
Ponci/Monti/Shin |
| Virtual system faults for training
fault identifiers |
Ponci |
| Application of VTB in Future Energy
Challenge |
Monti |
| |
|
| Thursday,
September 18 |
| Top-down
system design in VTB, simulation of uncertain systems |
Monti |
| Multitranslator, Modelica, XML
representation of models
|
Guzik/Pakhomkin |
| User-defined models
- UDD |
Solodovnik |
| Paragon - defining new
models |
Mantooth |
| VTB in the
classroom |
Monti |
| Synergetic controls for electric
vehicles |
Kolesnikov/Kondratiev |
| Simulation of barge
crane |
Palmer |
| Portable
power sources |
Dougal |
| Fuel cell
modeling |
Vilar |
|
Convection Heat
Transfer and Fuel Cell Models |
Kiehne/Carroll |
| Thermal fluid
models |
Khan |
| Power semiconductor
device models |
Santi |
| Ship
system models for testing of power controls
|
Brice |
| Distributed
energy in power systems |
Z Wu |
|
Hydrodynamic
Impulse Response Functions for Ship-Water Interaction - A VTB Approach |
Zhou/Rizos |
| Future Outlook for
VTB |
Dougal |
