Catalog
Launch Autonomy Retrieval
Robot Operations: Launch Autonomy Retrieval
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Skills Developed: Flight path planning, sequential command input, basic autonomous operation, proportionality calculations.
Participants autonomously navigate a static series of obstacles using simple command sequences. They plan flight paths, input sequential commands with a block-based IDE, and execute basic autonomous patterns (launch, wait, recover). This exercise emphasizes the importance of proportionality calculations and addresses the challenges of open-loop control.
Skills Developed: Flight path planning, sequential command input, basic autonomous operation, proportionality calculations.
AprilTag Navigation with JetBot
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AprilTags are a special type of marker that allows a robot to know its precise position (localization) and orientation (pose estimation) for accurate navigation. In this unit, participants calibrate the camera to improve AprilTag detection accuracy and leverage ROS (Robot Operating System) to perform waypoint navigation with the AprilTag markers.
SLAM with JetBot
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Simultaneous Localization and Mapping (SLAM) is a technique used in robotics to build a map of an environment while simultaneously keeping track of the robot's location within it. In this unit, participants configure ROS to communicate over a network, allowing the JetBot to transmit LiDAR data used to generate a high-fidelity map in an Ubuntu Virtual Machine.
Double Dare
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Skills Developed: Reinforcement of prior unit skills, including piloting, maintenance, teamwork, and troubleshooting.
Participants challenge each other to piloting or maintainer tasks of their own making. Themes for each day include flying challenges, teamwork challenges, head-to-head challenges, and troubleshooting and repair challenges.
Skills Developed: Reinforcement of prior unit skills, including piloting, maintenance, teamwork, and troubleshooting.
Autonomous Racing with JetBot
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Reinforcement Learning is a type of machine learning where a robot learns to make decisions through trial-and-error. In Autonomous Racing, the robot learns through trial-and-error as it drives on the track. In this unit, participants collect data from the track, train and visualize the base model, and then provide feedback to the robot as it learns to race.
Tandem Lift
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Participants work together to lift a payload using only their own drones. This exercise emphasizes mission planning, flight plan development, team coordination, and adapting to unexpected conditions. Students will calculate components of lifting force and understand how to sum and cancel force vectors from multiple sources.
Skills Developed: Mission planning, flight plan development, team planning, coordinated multi-robot operation, considering risk, adapting to unexpected conditions, calculating relevant components of oblique forces.
Wait Until & Sensors with Virtual SPIKE Prime (3.0) - Replay Enabled
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In this unit, you will learn how to use the sensors on the SPIKE Prime virtual robot. You will program your robot to perform simple sensing behaviors and respond to objects in its environment.
Continuous Decisions with Virtual SPIKE Prime (3.0) - Replay Enabled
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In this unit, you will learn how to program your robot to detect obstacles and line track with the use of continuous decisions.
Python-based Coding Practice with Virtual SPIKE Prime - Early Access!
Python-based Coding Practice with Virtual SPIKE Prime - Early Access!
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lego spike prime
virtual
elementary school
middle school
Python-based Coding Practice with Virtual SPIKE Prime provides students with a fully programmable robot that allows students to develop their programming and sensor integration skills using Python. The simulated environment is designed to resemble a robotics competition table, encouraging robotics teams to help prepare for competitions.
Block-based Coding Practice with Virtual SPIKE Prime
Block-based Coding Practice with Virtual SPIKE Prime
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lego spike prime
virtual
elementary school
middle school
Block-based Coding Practice with Virtual SPIKE Prime provides students with a fully programmable robot that allows students to develop their programming and sensor integration skills using Blocks. The simulated environment is designed to resemble a robotics competition table, encouraging robotics teams to help prepare for competitions.
Unit 8: Sorting Strawberries
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Program the Strawberry Sorter to make decisions so that it can... sort strawberries! You will use if-then-else blocks to program simple decisions and looped decisions. The robot design for this unit is the Strawberry Sorter.
Unit 9: Tilt it, Shake it, Bot-it!
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Learn how to program Events with the Gyro Sensor! The robot build for this unit is Bot-it.
Bonus: Soldering
Bonus: Soldering
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In this unit, you will learn about the basics of electrical soldering and get comfortable with the tools. You will learn about soldering tools (soldering iron, solder, flux, etc.), soldering safety procedures, what makes a good solder joint (tinning, heating, applying solder), and checking continuity with a Multimeter.