The Experts below are selected from a list of 12156 Experts worldwide ranked by ideXlab platform
Ming Cheng - One of the best experts on this subject based on the ideXlab platform.
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A Real Time testing system for wind turbine controller with xPC target machine
International Journal of Electrical Power & Energy Systems, 2015Co-Authors: Jianzhong Zhang, Ming ChengAbstract:Abstract A cheap hardware-in-the-loop testing system for wind turbine controller is built based on MATLAB xPC. A wind-power generation model is constructed in the Matlab/Simulink of host machine, where the code is generated by Real-Time Workshop and downloaded to the target machine. Then the virtual wind power generation system may be controlled by the physical controller, and the effectiveness and performance of the controller can be validated. By composing the drivers for xPC device, the selection of I/O devices for the testing system is flexible. A friendly interface of the testing system is established by combination of xPC and virtual Reality toolbox. A testing system for wind power generation system with friend interface may be established by the described method.
Jianzhong Zhang - One of the best experts on this subject based on the ideXlab platform.
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A Real Time testing system for wind turbine controller with xPC target machine
International Journal of Electrical Power & Energy Systems, 2015Co-Authors: Jianzhong Zhang, Ming ChengAbstract:Abstract A cheap hardware-in-the-loop testing system for wind turbine controller is built based on MATLAB xPC. A wind-power generation model is constructed in the Matlab/Simulink of host machine, where the code is generated by Real-Time Workshop and downloaded to the target machine. Then the virtual wind power generation system may be controlled by the physical controller, and the effectiveness and performance of the controller can be validated. By composing the drivers for xPC device, the selection of I/O devices for the testing system is flexible. A friendly interface of the testing system is established by combination of xPC and virtual Reality toolbox. A testing system for wind power generation system with friend interface may be established by the described method.
Huang Kedi - One of the best experts on this subject based on the ideXlab platform.
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study of Real Time simulation based on Real Time Workshop and linux
Computer Simulation, 2005Co-Authors: Huang KediAbstract:The present paper introduces an approach for adding a custom target configuration of a computer with RedHat Linux 9.0 into the Real-Time Workshop, and the model codes, generated with the new target, are downloaded automatically into Target. Then, the Real-Time control codes are added into the main program to make procedure executed in fixed step size. Finally, under the external mode of RTW, the Real-Time performance of the program executed in RedHat Linux 9.0 environment is tested and studied, and the performance is improved by setting the scheduling policy, shutting down the swap area and locking the memory.
Oyvind Netland - One of the best experts on this subject based on the ideXlab platform.
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remote inspection of offshore wind turbines a study of the benefits usability and feasibility
2014Co-Authors: Oyvind NetlandAbstract:This paper describes how to configure MathWorks Real- Time Workshop to automatically build a control system ap- plication for an unsupported embedded computer platform. The application can be generated with a single command, allowing for quick iterations of testing and debugging. The I/O interface and control algorithm of the application is de- scribed in a Simulink model. In this paper an AVR32 embed- ded computer running AVR32-Linux was used, but it should also be relevant for adapting Real-Time Workshop for other embedded platforms.
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adaption of mathworks Real Time Workshop for an unsupported embedded platform
Software Engineering and Advanced Applications, 2010Co-Authors: Oyvind Netland, Amund SkavhaugAbstract:This paper describes how to configure MathWorks Real-Time Workshop to automatically build a control system application for an unsupported embedded computer platform. The application can be generated with a single command, allowing for quick iterations of testing and debugging. The I/O interface and control algorithm of the application is described in a Simulink model. In this paper an AVR32 embedded computer running AVR32-Linux was used, but it should also be relevant for adapting Real-Time Workshop for other embedded platforms.
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EUROMICRO-SEAA - Adaption of MathWorks Real-Time Workshop for an Unsupported Embedded Platform
2010 36th EUROMICRO Conference on Software Engineering and Advanced Applications, 2010Co-Authors: Oyvind Netland, Amund SkavhaugAbstract:This paper describes how to configure MathWorks Real-Time Workshop to automatically build a control system application for an unsupported embedded computer platform. The application can be generated with a single command, allowing for quick iterations of testing and debugging. The I/O interface and control algorithm of the application is described in a Simulink model. In this paper an AVR32 embedded computer running AVR32-Linux was used, but it should also be relevant for adapting Real-Time Workshop for other embedded platforms.
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Developing Embedded Control System Platform using Atmel AVR32 Processor: Using Rapid Prototyping with Matlab Real-Time Workshop
2007Co-Authors: Oyvind NetlandAbstract:AVR32 is a new processor architecture made by Atmel Norway, and in this thesis it has been used to make a control system platform. The hardware used in this platform is the STK1000, an AVR32 development board and an I/O-card. The I/O-card were developed as a part of the thesis. Software for the platform consists of I/O-card firmware, Linux device driver for the I/O-card and user mode drivers. The platform supports usage of Matlab Real-Time Workshop as a rapid prototyping tool, that generates code from graphical visualization of mathematical models. S-functions were created so Matlab Real-Time Workshop can control the I/O-card. The control system platform is documented in an user manual. This manual describes how to install development tools for the platform on a Linux or Windows computer, and how to use the it.
Zuo Xin - One of the best experts on this subject based on the ideXlab platform.
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Development of Simulation Software Based on Matlab and Visual Basic
Computer Simulation, 2008Co-Authors: Zuo XinAbstract:Matlab/Simulink is a powerful tool for modeling.Visual Basic language has good graphics interface functions. According to their respective advantages, simulation software can be developed more conveniently and more rapidly. Firstly, process dynamic model, made by Matlab/Simulink, was turned into Visual C++ project through Real-Time Workshop. Secondly, through the act of renewed exploitation, compiled executable file was gained on the base of the VC project. The executable file altered with Visual Basic and finally the development of simulation software was achieved.
