The Robotics Summer of Learning (RSOL) opens today! This summer, students have the opportunity to learn how to program virtual robots using a FREE copy of Robot Virtual Worlds where they can program VEX IQ or LEGO MINDSTORMS EV3 virtual robots. All RSOL courses are self-paced with e-mail support available at email@example.com.
Just a few of the great reasons to join this year’s Robotics Summer of Learning:
- All software and trainings are free for the entire summer.
- No robotics hardware required.
- Access to self-paced training and high quality curriculum designed to help new users.
- Learning to program with Virtual robots takes 1/3 less time compared to physical robots! Read more about the study results here!
- ROBOTC Graphical allows you to drag and drop blocks of code from the menu to get your program created even faster!
- Earn a programming certificate and badges from CMU’s Robotics Academy.
1. Visit The Computer Science Student Network
If you do not already have aCS2N account, sign up for free! Then click one of our Summer of Learning Courses (VEX IQ or LEGO EV3) to register.
2. Download the Software
Follow the instructions on CS2N to download bothRobot Virtual Worlds andROBOTC for free!
3. Start Programming!
Have fun learning how to code with fun Robot Virtual Worlds!
We are proud to announce the return of our Robotics Summer of Learning program! This summer, students have the opportunity to learn how to program robots, earn a programming certificate and badges, and play with cool software for FREE! We will provide all of the software and training materials at no cost to you or your students. The course will consist of three modules: movement, sensing, and program flow and will be taught using the Robot Virtual World software.
The Robotics Summer of Learning starts June 15th, register here and we’ll send you a reminder when it opens up!
Hot on the heels of the official game unveiling, the ROBOTC and Robot Virtual World team is proud to announce the availability of the new FTC Cascade Effect virtual world! Check out the rules for the new game here.
Like past FTC Robot Virtual Worlds, the game elements, scoring, autonomous period, and tele-operated period are all simulated. We also provide three different robot models that can interact with this year’s game objects.
Conveyorbot is capable of picking up 4 balls at a time, and dropping them into the movable tube goals. The 4 balls can be any combination of the small golf balls or larger wiffle balls.
Scissorbot can pick up any of this year’s game objects: the larger wiffle balls, smaller golf balls, and the movable tube goals. It’s gripper can extend high into the air, allowing it to also drop the balls into any of the goals!
Gripperbot can also pick up all of this year’s game objects: the larger wiffle balls, smaller golf balls, and the movable tube goals. Its streamlined design and low center of gravity allow it to quickly score balls and move tubes across the playing field.
All robots this year have been upgraded with “ball guards” around their chassis and wheels, which will help them to traverse the field once it has been covered in balls. They can also be equipped with either a Gyro sensor for precise turns, even if the robot slips, or an IR Receiver for tracking the center goal! Click here to download some sample code we’ve written to help you get started with all of the robots.
Download and try out the game today. If you are using ROBOTC 4, make sure that your Platform Type is set to LEGO Mindstorms NXT, and that you have “External Motor/Servo Controllers” enabled.
We appreciate any feedback you have! Please feel free to share it at the ROBOTC.net forums. Also, be on the lookout for future updates on our blog. We will be releasing a game video, along with an update that includes additional features along with robot-to-game object interaction tweaks.
The Robot Virtual World team is happy to announce not one, but two early presents for you this years! Get ready for some deep sea robot programming, because we’ve updated both the Ruins of Atlantis and Expedition Atlantis virtual worlds.
Ruins of Atlantis
Robots to the Rescue: Ruins of Atlantis is our underwater programming game. This update brings it up to speed with all of the latest RVW technology, including CS2N Achievements, the Measurement Toolkit, Quality Controls, and more. The audio and visuals of the game have also undergone a major overhaul – check out the slideshow to see just how beautiful the world is!
Ruins of Atlantis can be downloaded from RobotVirtualWorlds.com or CS2N.org. Be sure to create and use a CS2N account to keep track of your achievements and game progress.
Expedition Atlantis is our brand new underwater math game, designed to teach and reinforce concepts like proportional reasoning. We are currently in the process of collecting and implementing feedback on the game. This update extends the trial period of the game through July 2014!
Expedition Atlantis can also be downloaded from RobotVirtualWorlds.com or CS2N.org. Any feedback you have regarding the game is highly appreciated! Please share your feedback in this short survey.
The Robot Virtual World team has just released a beta version of it’s latest game, Expedition Atlantis! It’s the year 2023 and Atlantis has been discovered deep in the ocean, off of the coast of Africa. A team of elite scientists and engineers have been sent to investigate the underwater ruins, and you’re one of them! Use your skills to to maneuver the teams underwater vehicles in this expedition to Atlantis!
Proportional problems are embedded everywhere. Expedition Atlantis provides students with the big ideas needed to become proficient proportional thinkers. Check out this video to see how:
The game begins with your submarine being deployed from a large mothership, beginning your expedition to Atlantis. A large underwater storm throws the submarine off course and into a cliff side!
Fortunately, the submarine was equipped with an escape pod! The underwater storm is still acting up, so you’ll need to move the robot to areas with cover between outbursts. The mothership will transmit how far away the next safe zone is; you’ll need to calculate how many wheel rotations it will take to get there. Be careful not to move too far or too little or you’ll be blown around the ocean floor!
A special training mode is available to help you learn how proportional relationships work, like how turning a number of wheel rotations translates into moving forward a certain distance.
Expedition Atlantis can be played with four different difficulty levels: Cadet (Easy), Explorer (Medium), Admiral (hard), and Custom. With custom mode, you can set how many problems you need to solve in each level of the game, and how hard the problems are. You’ll also notice that there are 4 main levels to the game.
After completing Level 1, the Minoan Megaliths, you’ll reach Level 2, the Pillars of Hercules. Underwater platforms appear to allow your escape pod to cross the chasm. You’ll need to calculate how much the robot needs to turn to line itself up with the next platform, before the robots thrusters engage. Be careful or your robot will thrust itself right to the bottom of the chasm!
Once you cross the chasm, you’ll reach the Atlantis Base and be equipped with a robot capable of catching cargo from the mothership. The storm is still acting up and throwing the cargo off course, so you’ll need to calculate how much the robot needs to turn and move forward to catch the cargo in Poseidons Courtyard.
The cargo you catch contains upgrades for your robot, which will be crucial for the final part of your mission. Take the cargo back to base to equip the upgrades!
In the underwater base, you’ll be able to equip all of the upgrades that you caught in Poseidons Courtyard. Upgrades range from different wheels, different robot bodies (chassis), powerful attachments, and even paint colors.
With your upgraded robot, you’ll be ready to explore the Heart of Atlantis. You’ll be completely in charge of marking where your robot needs to go, performing the calculations to get it there. Be careful! Ancient Atlantis was highly advanced technologically – it has a reactor core and portal network which is still operational today, but sensor readings indicate that they are unstable. Your robots radiation shield will protect it from the radiation, but will also slowly drain its batteries.
As you make progress in Atlantis, you’ll be rewarded with achievements. These achievements will also show up on your “My Achievements” page on CS2N, if you logged into the game with your CS2N username!
Why Use Expedition Atlantis?
- Proportional problems are embedded everywhere
- Widely applicable
- Students with math IEPs especially need proportional reasoning skills
- Expedition Atlantis provides students with the big ideas needed to become proficient proportional thinkers
- High student engagement through underwater robotics game
- Mechanistic approach
- Proportional thinking, not just proportional methods
- Repeated, contextualized practice
- Unified approach
- Aligns with the Common Core Standards
- Immediate teacher and student feedback
- Differentiation for high- and low-performing students (manual and automatic)
Expedition Atlantis is designed to be a fun, educational tool to teach and reinforce proportional relationships. When complete, it will be accompanied with a full Teacher’s Guide that provides information on its use in the classroom, ties into mathematical standards, and other valuable information. It’s also available completely for free during our Beta and Feedback period, so download it today!
We appreciate any feedback you have about Expedition Atlantis. Feel free to share it at the ROBOTC.net Forums.