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Four legged walking robot
Fischer, Jan ; Krištůfková Dvorská, Jolana (referee) ; Neužil, Tomáš (advisor)
The object of this thesis is an analysis of the possibilities of a wireless communication and a sensor‘s equipment for a four legged walking robot. The thesis is divided into three parts. In the first part there is a particular sale’s exploration in the section of the wireless communication modules. It refers to the differences among technologies in the methods of signal transmission, the technical parameters but also in the communication protocols. The next part of this thesis is focused on sensor’s equipment with the accent on the possibility of use for a four legged walking robot. It contains a short listing of sensors, which are available in the Czech Republic with division based on the type of sensing magnitude. These two parts make a base for the last part where I have chosen suitable communication modules along with sensors and realization wireless data transfer including control and visualization. The result of this thesis is the complete communication block from the user to the robot.
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Two legged walking robot
Kraus, Václav ; Háze, Jiří (referee) ; Šteffan, Pavel (advisor)
The aim of this work is to present the topic of walking robots, the design and construction of a two-legged wirelessly controled robot. The work is divided into two parts. The first one is theoretical. It addresses the possibilities of sensorics and wireless communication technologies, which are used in robotics. The second part includes the robot's design of construction, walking and electronics. The output of this work is the robot construction, which is controled using a computer application via wireless technology WiFi.
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Motion activated measurement module with wireless interface
Novotný, Josef ; Krajsa, Ondřej (referee) ; Havránek, Zdeněk (advisor)
This semestral project deals with the selection of a suitable MEMS mechanical motion sensor with verylow power consumption. The market research is mainly about sensors that can be activated by motion. Project also contains description of motion activation function of the sensor ADXL362. Project also contains verification of datasheet data of the sensor ADXL362 for the motion activation. Further It also includes a market survey of microcontrollers with ARM Cotex M4 core. Furthermore, the wireless transmission via Bluetooth is tested and a measurement unit is designed and implemented. At the end of the thesis are achived results summarized.
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Two legged walking robot
Kraus, Václav ; Háze, Jiří (referee) ; Šteffan, Pavel (advisor)
The aim of this work is to present the topic of walking robots, the design and construction of a two-legged wirelessly controled robot. The work is divided into two parts. The first one is theoretical. It addresses the possibilities of sensorics and wireless communication technologies, which are used in robotics. The second part includes the robot's design of construction, walking and electronics. The output of this work is the robot construction, which is controled using a computer application via wireless technology WiFi.
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Four legged walking robot
Fischer, Jan ; Krištůfková Dvorská, Jolana (referee) ; Neužil, Tomáš (advisor)
The object of this thesis is an analysis of the possibilities of a wireless communication and a sensor‘s equipment for a four legged walking robot. The thesis is divided into three parts. In the first part there is a particular sale’s exploration in the section of the wireless communication modules. It refers to the differences among technologies in the methods of signal transmission, the technical parameters but also in the communication protocols. The next part of this thesis is focused on sensor’s equipment with the accent on the possibility of use for a four legged walking robot. It contains a short listing of sensors, which are available in the Czech Republic with division based on the type of sensing magnitude. These two parts make a base for the last part where I have chosen suitable communication modules along with sensors and realization wireless data transfer including control and visualization. The result of this thesis is the complete communication block from the user to the robot.
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