A virtual environment for remote testing of complex systems

Complex systems, realized by integration of several components or subsystems, pose specific problems to simulation environments. It is, in fact, desirable to simulate the complex system altogether, and not component by component, since the operation of the single part depends on the surrounding system and an early verification can prevent damages and save time for modifications. The availability of detailed and validated models of the single parts is therefore critical. This task may be difficult to achieve. In fact, in industrial applications, where a system can be a mix of different devices produced by different manufacturers, the physical device may not be accessible to the modeler for proprietary or safety concerns. Starting from this point, the idea of creating a virtual environment able to test the real single component remotely, employing simulators with remote signal processing capability, has been considered. A methodology for remote model validation is presented. The effectiveness of the approach is experimentally verified locally and remotely. For the remote testing, in particular, the physical device under test is located at the Politecnico di Milano, Italy, and the Virtual Test Bed model is located at the University of South Carolina.

[1]  D. Potter Using Ethernet for industrial I/O and data acquisition , 1999, IMTC/99. Proceedings of the 16th IEEE Instrumentation and Measurement Technology Conference (Cat. No.99CH36309).

[2]  Antonio Pietrosanto,et al.  Performance optimization of VXI-based measurement stations , 1994 .

[3]  Pasquale Daponte,et al.  A distributed laboratory based on object-oriented measurement systems , 1996 .

[4]  Vincenzo Piuri,et al.  Programmable instruments, virtual instruments, and distributed measurement systems: what is really useful, innovative and technically sound? , 1999 .

[5]  Antonello Monti,et al.  Rapid prototyping of digital controls for power electronics , 2003 .

[6]  Vincenzo Piuri,et al.  A Web-based distributed virtual educational laboratory , 2000, IEEE Trans. Instrum. Meas..

[7]  Alessandro Ferrero,et al.  A distributed system for electric power quality measurement , 2002, IEEE Trans. Instrum. Meas..

[8]  Antonello Monti,et al.  A multilanguage environment for interactive simulation and development controls for power electronics , 2001, 2001 IEEE 32nd Annual Power Electronics Specialists Conference (IEEE Cat. No.01CH37230).

[9]  Marco Parvis,et al.  A client-server architecture for distributed measurement systems , 1998, IEEE Trans. Instrum. Meas..

[10]  Bruce Hamilton,et al.  The design of distributed measurement systems based on IEEE1451 standards and distributed time services , 2000, Proceedings of the 17th IEEE Instrumentation and Measurement Technology Conference [Cat. No. 00CH37066].

[11]  Marco Parvis,et al.  Platform independent architecture for distributed measurement systems , 2000, Proceedings of the 17th IEEE Instrumentation and Measurement Technology Conference [Cat. No. 00CH37066].

[12]  G. Bucci,et al.  Low-cost VXI-based front-end for distributed measurement applications , 2000, Proceedings of the 17th IEEE Instrumentation and Measurement Technology Conference [Cat. No. 00CH37066].