|
|
Embedded System Periphelars Emulation for Fast Prototyping
Müller, Dominik ; Kekely, Lukáš (referee) ; Mrázek, Vojtěch (advisor)
This thesis deals with the design and implementation of a development platfrom for embedded system developers intended to accelerate initial phases of development cycle. The proposed platform allows to emulate real-time environment of the system under development with possibility to observe and change the environment at runtime. The design of the entire platform focused on its extensive configurability, ease of extensibility, reusability and versatility. Simulation is performed directly against a real microcontroller. The platform thus complements the pure software simulation approach with a real-world basis, but remains reusable and affordable compared to dedicated test systems. The result of this work is a physical device controllable via the user's computer allowing to connect the development kit and simulate its environment.
|
|
|
HIL model of electromechanical system
Malík, Lukáš ; Bartík, Ondřej (referee) ; Blaha, Petr (advisor)
This diploma thesis deals with creation of elektromechanical model in Modelica language which is subsequently imported into LabVIEW environment. The Modelica language, LabVIEW graphical programming tool and Functional Mock-up Interface 2.0 standard are described in the introduction of this thesis. Functional Mock-up Interface is a tool independent standard witch, defines a standardized interface to ModelExchange and Co-simulation of complex system components. The model of electromechanical system was created based on Functional Mock-up Interface standard. Part of the work focuses on the Functional Mock-up Unit storage possibilities and LabVIEW support to import models of this type. The imported model was simulated and tested in this environment. Finally, the instance of Functional Mock-up Unit was connected with LabVIEW FPGA target for the purpose of model HIL simulation on CompactRIO platform.
|
|
|
HIL testing of student formula battery management system
Přikryl, Matouš ; Brablc, Martin (referee) ; Adámek, Roman (advisor)
The thesis covers the topic of hardware-in-loop testing of the battery management system of student formula. The beginning of the thesis contains a literature review on the topic of battery management systems testing with an emphasis on the hardware and software that can be used for this purpose. In the second part of the thesis, the layout of the BMS connection to the test rig and its subsequent testing is described. Custom models of the formula parts and code written specifically for this thesis were used for the testing of the BMS. The final part contains test analysis and validation of the models of the simulated parts.
|
|
|
Embedded System Periphelars Emulation for Fast Prototyping
Müller, Dominik ; Kekely, Lukáš (referee) ; Mrázek, Vojtěch (advisor)
This thesis deals with the design and implementation of a development platfrom for embedded system developers intended to accelerate initial phases of development cycle. The proposed platform allows to emulate real-time environment of the system under development with possibility to observe and change the environment at runtime. The design of the entire platform focused on its extensive configurability, ease of extensibility, reusability and versatility. Simulation is performed directly against a real microcontroller. The platform thus complements the pure software simulation approach with a real-world basis, but remains reusable and affordable compared to dedicated test systems. The result of this work is a physical device controllable via the user's computer allowing to connect the development kit and simulate its environment.
|
|
|
HIL model of electromechanical system
Malík, Lukáš ; Bartík, Ondřej (referee) ; Blaha, Petr (advisor)
This diploma thesis deals with creation of elektromechanical model in Modelica language which is subsequently imported into LabVIEW environment. The Modelica language, LabVIEW graphical programming tool and Functional Mock-up Interface 2.0 standard are described in the introduction of this thesis. Functional Mock-up Interface is a tool independent standard witch, defines a standardized interface to ModelExchange and Co-simulation of complex system components. The model of electromechanical system was created based on Functional Mock-up Interface standard. Part of the work focuses on the Functional Mock-up Unit storage possibilities and LabVIEW support to import models of this type. The imported model was simulated and tested in this environment. Finally, the instance of Functional Mock-up Unit was connected with LabVIEW FPGA target for the purpose of model HIL simulation on CompactRIO platform.
|
guest ::
