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  • Brief:

    A water bear figurine that moves in a way that is representative of the animal's true motion, utilizing connected parts to orchestrate simultaneous motion.  

     

    Process:

    Presented with the challenge of recreating  and modeling an animals motion, I decided to try to represent the motion of an animal so small that its movement almost always go unnoticed. I found that the most compelling motion of the Waterbear came in the distinctive motion of its mouth which moves seemingly in and out of its body, and the juxtaposition of its back legs motion compared to its front. I attempted to capture both of these distinctive aspects. To represent the mouth I modeled a series of concentric and self contained cylinders to mimic the in and out, almost plunger, motion of the Waterbear's mouth. For the legs I reversed the orientation of the back to legs mimicking the orientation in the creature itself. Additionally I worked quite a bit in Rhino to capture the most realistic body shape possible. This ended up being somewhat of a challenge and I worked with several different curve commands in Rhino to refine the shape. Finally I assembled the orthographic creature and connected the three front legs to move in sync, as down by the Waterbear itself. As such, my Waterbear model would move in a convincing and accurate way mimicking the complex and dynamic animal motion.

  • The Porcuphant is a hand-powered kinetic creature based on what you would get by crossing Porcupine with an Elephant.  Our hours of iterations come together to make the ultimate Porcupine-Elephant experience.

    The inspiration for the Porcuphant came from a problem; a clear lack of affordable, easy to use, versatile combination of Porcupines and Elephants.  The solution was the Porcuphant.  A cardboard, easy-to-make, moving animal.  The Porcuphant is perfect for toddlers, adults, and everyone looking for a fun and versatile toy to burn off some stress with.

    The Porcuphant utilizes a unique cog/quill mechanism.  Turning the trunk will cause the quills to be pushed up and down by the continuous cog.  The Porcuphant is made of cardboard, with the quills and trunk made out of plastic, and the cam rod out of wood.

  • How to setup the NuVu Cloud


    All users can use NuVu's cloud service to share files for lasercutting and between collaborators. There are two options for accessing NextCloud, on the Web or through a client. Using the desktop client is preferable, but if you have issues, the web client works as well.

    Desktop Client

    1. Download next cloud using the addresses below:
      mac client https://download.nextcloud.com/desktop/releases/Mac/Installer/Nextcloud-2.3.3.84.pkg
      windows client https://download.nextcloud.com/desktop/releases/Windows/Nextcloud-2.3.3.1-setup.exe
    2. Double click on the file to install Nextcloud. 
    3. For the server, enter: https://nextcloud.nuvustudio.com
    4. For logging in, use your login info for nuvustudio.com (your email and your NuVu password)
    5. Accept the default settings by clicking on "Connect"
    6. On the next screen, click "Open Local Folder" This is where the NuVu cloud will sync to your machine.
    7. After the installation is complete, go to Finder and create a new folder called "laser_your name" under "Nextcloud"
    8. Right click on that folder, choose "share with Nextcloud" and share it with the following users:
      • If you are at NuVu main space, share with "lasercutter". 
      • If you are at MIT, share with "NuVuMIT"
    9. That will create a link to your laser cutter folder in the laser cutter computer. 


    Web Client

    1. Navigate to https://nextcloud.nuvustudio.com
    2. Use your login info for nuvustudio.com (your email and your NuVu password)
    3. Create a new folder called "laser_your name" under "Nextcloud"
    4.  Click on the share iconfor the folder, choose "share with Nextcloud" and share it with the user name provided by your Coach.
      • If you are at NuVu Cambridge, share with "lasercutter". 
    5. That will create a copy of your laser cutter folder in the laser cutter computer. 
  • Your portfolio tab is the part of your project viewable to the world. This is where you will present your work to your coaches and peers for your studio review presentation. This is also what family, friends, colleges, the media, and everyone outside of NuVu will see. It is the record of your work and must stand alone, telling a compelling story of your project.

    Portfolio pages have 2-3 posts in this order:

    1. The Presentation Post: This post's privacy is set to Everyone. This post showcases your final design by telling the comprehensive story of how your idea was born, developed, and manifested. The arc of the story should encompass the, How of your project in a compelling narrative. It showcases your design process including your brainstorming, each of your iterations, and your final prototype. It allows the viewer to delve deeply into your process.
      • Every Slide should have a Title and Caption.
        The body of this post is The Brief. You should include a version of the Brief for each collaborator in the project.
      • This post will be used in your review presentation at the end of the session.
    2. Optional Video: This post's privacy is set to Everyone. A video showing the interactive functionality of your project. The title of this post will be Video.
    3. Presentation Script: This post's privacy is set to School. Each group will post their script for there presentation. This post will be used to prepare for and practice your presentation. This post should be titled "Presentation Script" and should not be made public. Alternatively, 

     

    After reading this post and completing your Portfolio Tab, you must make sure you have done the following:

  • In the beginning of our project, we decided to focus our animal on a frog. At first we wanted our frog to leap and stick to whatever surface it would land on. While creating our sketches and creating our prototypes, we figured out that it would be quite difficult to make this possible so we decided to make our project much simpler. In the diagrams above, we made our frog move its front arms back and forth by pulling two pieces of cardboard in between its two bodies. We had to figure out how we wanted the arms to move, how to keep the arms in place, and how we could make it easy for the arms to move. Our project of course isn't perfect, but we believe we completed our frog to the best of our ability and is totally functional. 

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