These are Alternative 3D Building Instructions for the Light Show mission model for the FIRST LEGO League 2023-2024 MASTERPIECE competition. A single accurate rotation of the white arrow indicates a perfect mission completion.
We designed this field to closely resemble the hardest level of line-following fields used by the "Arab Robotics & AI Association" in multiple competitions.
We designed this field to closely resemble the intermediate level of line-following fields used by the "Arab Robotics & AI Association" in multiple competitions.
We designed this field to closely resemble the hard level of line-following fields used by the "Arab Robotics & AI Association" in multiple competitions.
We designed this field to closely resemble the easiest level of line-following fields used by the "Arab Robotics & AI Association" in multiple competitions.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
This attachment is designed to detach, once it completes its purpose. This is done, so that the team loses less time switching attachments in the base, lowering the chance of human error during the competition.
This robot is made to serve as a cautionary tale for the line following robots with exposed to the ambient light sensors.
This robot was designed as an example for use on simple line-following fields. It is ideal for beginner and intermediate levels of line-following competitions.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
This attachment is designed to detach, once it completes its purpose. This is done, so that the team loses less time switching attachments in the base, lowering the chance of human error during the competition.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
This attachment is designed to be detached, once it completes its purpose. This is done, so that the team loses less time switching attachments in the base, lowering the chance of human error during the competition.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
This attachment is designed to detach, once it completes its purpose. This is done, so that the team loses less time switching attachments in the base, lowering the chance of human error during the competition.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
This attachment is designed to detach, once it completes its purpose. Due to the way, the attachment is left on the mission model, it slides from, creating distance between itself and the mission model, therefore meeting the requirement that no attachment should be touching the mission model at the end of the competition. This is done, so that the team loses less time switching attachments in the base, lowering the chance of human error during the competition.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
This attachment is designed to detach, once it completes its purpose. This is done, so that the team loses less time switching attachments in the base, lowering the chance of human error during the competition.
This construction is ment as a addition to the base line following robot with exposed sensor.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
The offset beam creates a hook-like motion when rotating the gear, making "hooking" in loops an easy task.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
This attachment is designed to detach, once it completes its purpose. This is done, so that the team loses less time switching attachments in the base, lowering the chance of human error during the competition.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
This attachment is designed to detach, once it completes its purpose. This is done, so that the team loses less time switching attachments in the base, lowering the chance of human error during the competition.
A FIRST LEGO League 2023-2024 attachment for the MiniBox Robot.
This attachment is designed to be thrown back to the base, with the lifted model it collected, before the robot returns, so the team can start loading the model to the next attachment, while the robot is still moving. This is done, so that the team loses less time switching attachments in the base, lowering the chance of human error during the competition.
The MiniBox box robot features a unique design with three perpendicularly rotating gearwheels, which simplifies the attachment design process. This setup allows teams to easily create and connect attachments on multiple sides, making it quick to adjust the robot for various tasks.
Its structure includes walls with a maximum attachable surface area, offering flexibility in attachment placement. This extensive surface allows for secure connections, so teams can experiment with different attachment configurations.
The MiniBox’s compact size is best suited for smaller, lightweight attachments. When working with larger attachments, its balance and stability can be affected, limiting its effectiveness in tasks that require more substantial setups.
