A showcase of Virtual Robot Curriculum and Cobot Coding Games from Carnegie Mellon Robotics Academy
This collection of badges showcases some of the Virtual Robot Curriculum, Digital Cobot Coding Games, and other interactive learning technologies from the Carnegie Mellon Robotics Academy.
Learn to code using the Virtual SPIKE Prime, VICE, and EV3 curricula which feature a programming environment and virtual robot embedded within the site. The lessons available within the badges here are a free demo portion of the full curriculum. Visit the Carnegie Mellon Robotics Academy site for more information on the full curriculum.
In the Player-Programmed-Partner Games badge, you will find a collection of games where you can program a collaborative robot (aka "cobot") to help you succeed! When properly programmed, these cobots can help you to fend off baddies, pull off stunts, reprogram troublemaking robots, and even stay on beat!
Learn to code using the Virtual SPIKE Prime, VICE, and EV3 curricula which feature a programming environment and virtual robot embedded within the site. The lessons available within the badges here are a free demo portion of the full curriculum. Visit the Carnegie Mellon Robotics Academy site for more information on the full curriculum.
In the Player-Programmed-Partner Games badge, you will find a collection of games where you can program a collaborative robot (aka "cobot") to help you succeed! When properly programmed, these cobots can help you to fend off baddies, pull off stunts, reprogram troublemaking robots, and even stay on beat!
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 Blocks. The simulated environment is designed to resemble a robotics competition table, encouraging robotics teams to help prepare for competitions.
This badge is a sample activity from the full Coding and Computational Thinking with a Virtual Robot curriculum. In this activity, you will learn how to program the movement of a virtual robot from directly within your web browser while completing challenges themed after the real-world Iris Rover from Carnegie Mellon University.
This badge is a sample activity from the full Coding and Computational Thinking with Virtual SPIKE Prime curriculum. In this activity, you will learn how to program the movement of a Virtual SPIKE Prime robot from directly within your web browser while completing challenges themed after the real-world Iris Rover from Carnegie Mellon University.
Programming with Virtual SPIKE Prime (3.0)
Role of the Programmer
Introduction: Iris Rover
Lesson: Moving Forward
Mini-Lesson: Proportional Relationships
Mini-Challenge: Sequential Movements
Lesson: Turning In Place
Mini-Challenge: Turn Around the Craters
Big Idea: Planning and Behaviors
Activity: Introduction to Pseudocode
Continue Learning....
This badge is a sample activity from the full Introduction to Programming with Virtual EV3 curriculum. In this activity, you will learn how to program the movement of a virtual robot from directly within your web browser while completing challenges themed after the real-world Sensabot robot from Carnegie Mellon University.
In Player-Programmed-Partner Games, you play alongside a collaborative robot (aka "cobot") that you can code to suit your playstyle and accomplish the goals in the game.
Learn how Machine Vision can be integrated into robotics systems to automatically perform tasks such as image detection and quality control.