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Mobile robot control system
Bugár, Loránt ; Jílek, Tomáš (referee) ; Hynčica, Ondřej (advisor)
Bachelors project is fixated for creating a mobile robot with a real time operating system. The robot control system is based on a microcontroller Arduino with ARM Cortex-m3 processor. The practical part is dealing with resolving the client-server communication with the UDP protocol, also with the identification of the engine from measured data’s by the Simulink and subsequently designing the PI regulator from the identificated data’s. In he last part of the work the focus is giving to solving the communication with I2C bus and using sensors like : accelerometer, ultrasonic sensor, infra sensor, light sensor, hall sensor and usage of a robotic arm. An application is created for controlling the robot and for visualisation of sensor readings..
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Firmware for the Robotic Vehicle
Otava, Lukáš ; Sojka,, Michal (referee) ; Kučera, Pavel (advisor)
This thesis is focused on a firmware for robotic vehicle based on the ARM Cortex-M3 architecture that is running a real-time operating system (RTOS). Theoretical part describes available solutions of embedded RTOS and concrete HW implementation of the robotic vehicle. There is also comparison of the three selected RTOS with their measurements. Result of this thesis is base firmware compounded by a program modules that controls HW parts. There is also a sample PC and firmware application that extends base firmware. This sample application is able to communicate with robotic vehicle, control wheel motion and measure process data.
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Firmware for Testing Platform JaQT
Veverka, Jiří ; Drahanský, Martin (referee) ; Malaník, Petr (advisor)
This bachelor thesis is about the JaQT (Just a Quick Test) platform which was developed for simple and fast software-hardware testing. The theoretical part of this thesis is describing used MCU, control board, peripherals and interfaces. The USB protocol and its CDC ACM class which is used for interfacing the device to enable communication with the board is described in this part as well. In the practical part is described how the JaQT was implemented, debugged, tested, used and evaluated.
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Forming Machine Control System
Vaško, Jiří ; Fojtík, Pavel (referee) ; Kučera, Pavel (advisor)
This master thesis deals with the implementation of the control system for the forming machine used in producing of confectionery forms. The introductory part describes the forming machine from the point of important control elements. The second part is associated with the hardware design of the control automat and description of main functional units on the control PCB, as well as on other PCBs. The following text presents the communication protocol between the control automat and PC and after that there is a description of the CPU firmware. The final section brings the characteristics of the PC application for a connection with the automat.
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Microcontroller system for office access monitoring
Tříska, Martin ; Franek, Lešek (referee) ; Bradáč, Zdeněk (advisor)
This thesis describes the design and realization of terminal for time attendance system. The introductory part shortly presents several solutions currently available on the market. The main part of this thesis is divided into two sections. The first of them deals with design of hardware platform, and the second describes the development of software. The terminal is realized as a compact with wide possibilities for future functional expansion. Special attention is given to the flexibility and user-friendly interface.
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Firmware for Testing Platform JaQT
Veverka, Jiří ; Drahanský, Martin (referee) ; Malaník, Petr (advisor)
This bachelor thesis is about the JaQT (Just a Quick Test) platform which was developed for simple and fast software-hardware testing. The theoretical part of this thesis is describing used MCU, control board, peripherals and interfaces. The USB protocol and its CDC ACM class which is used for interfacing the device to enable communication with the board is described in this part as well. In the practical part is described how the JaQT was implemented, debugged, tested, used and evaluated.
|
|
|
Mobile robot control system
Bugár, Loránt ; Jílek, Tomáš (referee) ; Hynčica, Ondřej (advisor)
Bachelors project is fixated for creating a mobile robot with a real time operating system. The robot control system is based on a microcontroller Arduino with ARM Cortex-m3 processor. The practical part is dealing with resolving the client-server communication with the UDP protocol, also with the identification of the engine from measured data’s by the Simulink and subsequently designing the PI regulator from the identificated data’s. In he last part of the work the focus is giving to solving the communication with I2C bus and using sensors like : accelerometer, ultrasonic sensor, infra sensor, light sensor, hall sensor and usage of a robotic arm. An application is created for controlling the robot and for visualisation of sensor readings..
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|
|
Microcontroller system for office access monitoring
Tříska, Martin ; Franek, Lešek (referee) ; Bradáč, Zdeněk (advisor)
This thesis describes the design and realization of terminal for time attendance system. The introductory part shortly presents several solutions currently available on the market. The main part of this thesis is divided into two sections. The first of them deals with design of hardware platform, and the second describes the development of software. The terminal is realized as a compact with wide possibilities for future functional expansion. Special attention is given to the flexibility and user-friendly interface.
|
|
|
Firmware for the Robotic Vehicle
Otava, Lukáš ; Sojka,, Michal (referee) ; Kučera, Pavel (advisor)
This thesis is focused on a firmware for robotic vehicle based on the ARM Cortex-M3 architecture that is running a real-time operating system (RTOS). Theoretical part describes available solutions of embedded RTOS and concrete HW implementation of the robotic vehicle. There is also comparison of the three selected RTOS with their measurements. Result of this thesis is base firmware compounded by a program modules that controls HW parts. There is also a sample PC and firmware application that extends base firmware. This sample application is able to communicate with robotic vehicle, control wheel motion and measure process data.
|
|
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Forming Machine Control System
Vaško, Jiří ; Fojtík, Pavel (referee) ; Kučera, Pavel (advisor)
This master thesis deals with the implementation of the control system for the forming machine used in producing of confectionery forms. The introductory part describes the forming machine from the point of important control elements. The second part is associated with the hardware design of the control automat and description of main functional units on the control PCB, as well as on other PCBs. The following text presents the communication protocol between the control automat and PC and after that there is a description of the CPU firmware. The final section brings the characteristics of the PC application for a connection with the automat.
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