Robotic Projects: Difference between revisions
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Several robotic kits are available for students to learn from. |
Several robotic kits are available for students to learn from. Engineering students will work with these kits after introductory lessons in actuators, communication interfaces, and microcontroller programming. The robotic kits provide different learning opportunities. |
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[[File:Alvik.png|thumb|Arduino Alvik]] |
[[File:Alvik.png|thumb|Arduino Alvik]] |
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'''Arduino Alvik''' - This rover is powered by the Arduino Nano ESP32. The Alvik robot monitors and interacts with the environment using high-quality sensors. These include a line-following sensor array, a Time of Flight distance sensor, a 6-axis accelerometer & gyroscope, and RGB color sensors. The inclusion of encoded motors inside Alvik's wheels enables accurate movement and control. |
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Effortlessly add external sensors to the I2C Grove and Qwiic plug-and-play connectors without the need for soldering or complex wiring, enabling prototyping and experimentation within minutes. Students can personalize and expand their robots for specific tasks or unique creations. |
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This robot is used by engineering students after introductory lessons in actuators and microcontroller programming. Students learn how to use Micro Python in programming microcontrollers. |
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[[File:Tumbller.png|thumb|Elegoo Tumbller]] |
[[File:Tumbller.png|thumb|Elegoo Tumbller]] |
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[[File:FTBase.png|thumb|FischerTechnik TXT 4.0 Base]] |
[[File:FTBase.png|thumb|FischerTechnik TXT 4.0 Base]] |
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Latest revision as of 18:02, 8 September 2025
Several robotic kits are available for students to learn from. Engineering students will work with these kits after introductory lessons in actuators, communication interfaces, and microcontroller programming. The robotic kits provide different learning opportunities.
Arduino Alvik - This rover is powered by the Arduino Nano ESP32. The Alvik robot monitors and interacts with the environment using high-quality sensors. These include a line-following sensor array, a Time of Flight distance sensor, a 6-axis accelerometer & gyroscope, and RGB color sensors. The inclusion of encoded motors inside Alvik's wheels enables accurate movement and control.
Effortlessly add external sensors to the I2C Grove and Qwiic plug-and-play connectors without the need for soldering or complex wiring, enabling prototyping and experimentation within minutes. Students can personalize and expand their robots for specific tasks or unique creations.
This robot is used by engineering students after introductory lessons in actuators and microcontroller programming. Students learn how to use Micro Python in programming microcontrollers.
