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Builders' gallery

OSRs in the wild and under construction! Please add your rover and add updates and pictures here as it evolves.

Raf the Rover (Achille)

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background

  • This is my second rover! I built the first one Robert the Rover in 2019. This version is the original v2 of the OSR, which I lead the mechanical design of.
  • It was featured on Hackaday

modifications

  • I built a roof rack for it so that it could carry stuff around. As you can see from my first rover's mods, I switched to a roof payload holder instead of a trailer cart since that makes doing autonomy easier and lowers the chance of slipping.

JPL Rover

:-:
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  • Constructed in 2017, upgraded many times since!
  • JPL has used this rover for many different events, from JPL/Mars outreach events, taking it to schools, local robotics clubs, and even a few robotic conferences!
  • Maintained by a few different JPL employees over the years

modifications

  • Annodization! Before assembly of this version we got the metal pieces annodized a mix of red/black
  • Micro D-Sub connectors at each of the rocker-bogies, so that both can be taken off easily and rover can be transported much easier!
  • JPL Beanie! :)

Robert the Rover (Achille)

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background

  • I started construction in December 2019. Robert took his first steps about 3 months later.
  • I use the rover for fun,
  • I help maintain the two repositories. I'm a robotics engineer by training and happy to help with anyone stuck or with ideas. The best way to reach me is via Slack.

modifications

  • bigger battery: Robert runs off of this 9Ah LiPo battery
  • RC: For outdoor roving, I use a long-range transmitter and receiver from Spektrum.
  • sensor stack: I mounted a lidar on top of my rover to allow for 2D mapping, localization, and navigation. I also have mounted (variations of) two monocular cameras, an IMU, and depth cameras to it. Details in my blog post.
  • toy trailer: I bought this toy trailer so that Robert can carry a payload. I attached it to Robert using a repurposed wrench and a collar clamp. It's not very robust but it does the trick!
  • handle: I used a strong piece of rope and a small piece of PCV tubing (handle) to lift the rover off the ground so I could carry it up and down stairs.

blogs

  1. Deploying on Mars: NASA-JPL Open Source Rover
  2. Deploying on Mars: How to Pick Sensors to Enable Navigation for Your Autonomous Mobile Robot (AMR)
  3. Deploying on Mars: Rock solid Odometry for Wheeled Robots
  4. Deploying on Mars: Rock solid Odometry for Wheeled Robots

Paddy-Rover (Kit)

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  • I built Paddy through the winter of 2019-2020. She was (kinda) a covid baby!
  • It's been a great learning experience building and maintaining Paddy.
  • I help maintain the two repositories!

Sinuhe's rover

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This project help us get through covid year 2020!

Alex' rover

Rover.mp4

Roverto (toebes)

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Built by the Cardinal Gibbons Robotics team for use at outreach events. Roverto has been to a few places, but is most at home on our Mars Map courtesy of the Aldrin Foundation. With it Roverto has been to:

Enhancements

  • The drive motors have been replaced by Rev Robotics Core Hex Motors to give better torque
  • The LED display has been updated with a 10" HDMI Touchscreen. We have a custom HTML web page which shows Roverto's face.
  • Roverto has a custom development stand that lifts all the wheels off the ground for easy testing.

Media

USAi Labs AUDACITY (JHPHELAN)

AUDACITY 01 video
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Background

  • Started August 2019 as soon as we heard about the release of the NASA-JPL Open Source Rover
  • Named first version "Fidelity" to be as close to the NASA-JPL version as possible
  • Once initial parts had arrived, had a "part picking party"
    • with instructions from the manual for various sub-assemblies passed out, ziplock bagged & labeled
  • Sub-assemblies then assembled in groups
  • Had first roll-out almost exactly 1 year later after multiple delays, modifications, and frustrations as seen in .mp4 above

Modifications

  • New version of rover named "AUDACITY" to be as boldly upgraded as possible to ultimately be autonomous
  • Raspberry Pi 3 >> Raspberry Pi 4b 4GB. Perhaps later >> Jetson NANO to permit onboard AI "on the edge"
  • Raspbian >> Ubuntu 20.04
  • hand-coded Python >> ROS >> ROS2 Foxy
  • Upgraded PCB. Looking forward to Rev F!
  • Upgraded drive & steering motors
  • Custom front/back acrylic panels
  • Emergency "Bop to Stop" switch. Abandoned to free up room
  • Key fob remote power "Kill Switch" for range safety.
    • to substitue RoboClaw e-stop pins in future to stop motors but not CPU
  • Arduino driven LED "head" >> onboard LCD monitor - work in progress
  • Addition of cameras: Picamera, USB camera, Intel RealSense D450 Depthcamera, OAK-D Depthcamera |
    • all works in progress and fraught with frustrations
  • Front bright LED "headlights" wired in parallel with drive motors. Since polarity matters, only on when driving forward
  • Plan steering motors >> servos at some point

External links

  1. USAi Labs and Houston Community College First rollout of rover

Instructions for adding your build

  1. We'll be needing a little bit of git skills here. Although not strictly necessary, it helps to take a look at some tutorials on contributing using git & GitHub. Here are the basic steps.
    1. install git on your computer. On Linux, that means sudo apt-get install git
    2. Fork this repository by clicking the Fork button in the top right corner of the GitHub page.
    3. 'Clone' your fork to your computer by clicking the green Code button and copying the link. Type in git clone into your terminal and paste the link you just copied.
    4. Create a new branch and switch to it. git checkout -b ourrovername_gallery
    5. You're ready to start making changes! You can use any text editor of your liking, like VS code.
  2. copy over someone else's section and adjust it to include your build's information. Add your entry to the bottom, just above this section. To keep this compact, add any text and details to the collapsible section (within the <details> </details> tags).
  3. Create a new folder within the images folder and add your rover's pictures to it.
  4. Change the image links to point to your images. The format for that is image src="images/your_folder_name/your_picture.jpg".
  5. Commit your changes with git.
    1. in the terminal, navigate to this folder. git status should show that there are changes and new files.
    2. use git add folder_name/file_name for each change you want to include to stage those files.
    3. Commit these changes: git commit -m "Adding my rover to the OSR gallery!"
    4. Upload them using git push origin ourrovername_gallery, replacing ourrovername_gallery with the branch name you created earlier.
  6. Create a Pull Request (PR) to suggest merging your code into the main branch.
    1. Navigate to the repository's pull request page on GitHub. Click 'New pull request'.
    2. click 'compare across forks'.
    3. Select your fork from the head repository dropdown and pick your branch.
    4. click 'create pull request'. GitHub will take you to a page where you can create a title of your suggested changes and a description.
  7. Wait for a maintainer to review your changes. They might ask you to make changes if something doesn't look right. Once the PR has been greenlighted, your changes will be added to the main branch!