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Thread: Miscellaneous

  1. #1

    Miscellaneous



    Self Assembly of Shady3D robot

    Published on Feb 12, 2013

    We describe self-assembling robot arm systems composed of active modular robots and passive bars.We present a case study where the robotic module is the Shady3D robot and the passive component is a rigid bar with embedded IR LEDs. We propose algorithms that demonstrate the cooperative aggregation of modular robotic manipulators with greater capability and workspace out of these two types of elements. We present results from physical experiments in which two 3DOF Shady3D robots and one rigid bar coordinate to self-assemble into a 6DOF manipulator. We then demonstrate cooperative algorithms for forward and inverse kinematics, grasping, and mobility with this arm.

  2. #2


    Self Replication: How molecules can make copies of themselves

    Published on Mar 24, 2015

    This movie shows the spontaneous emergence of self replicating molecules, so molecules that are able to make copies of themselves. We start with simple building blocks that have two yellow ends with which they can react with other building blocks. This initially results in the formation of many different cyclic molecules. These cyclic molecules continuously exchange components between each other, to give a mixture that is at equilibrium.

    Some of the molecules in the mixture that have the right ring size interact with each other and can start forming stacks. At first there is only a very small number of these stacks in solution, but they continue to grow longer by incorporating more and more of the stacking molecules. In this way the assembly of the molecules into the stacks drives the system to produce more of the very molecules that make the stack. Self replication!

    When energy is provided to the system by, for example, stirring, long stacks will start to break into two. The two stacks will each grow again until they are in turn also long enough to break. In this way one stack becomes two, two become four, four become eight, eight become sixteen and so on. This result is the exponential growth of these stacks and thereby also of the molecules within them. At the end of the process all of the building blocks that were available have been converted into the self replicating molecules.

    For more information see:
    "Mechanosensitive Self-Replication Driven by Self-Organization"

    by Jacqui M. A. Carnall, Christopher A. Waudby, Ana M. Belenguer, Marc C. A. Stuart, J?r?me J.-P. Peyralans, Sijbren Otto
    March 19, 2010

    otto-lab.com

  3. #3


    Self-a-Bot: The self building robot

    Published on Jan 4, 2016

    A self-assembling robot made with LEGO EV3

  4. #4


    The self-assembling computer chips of the future | Karl Skjonnemand

    Published on Mar 13, 2019

    The transistors that power the phone in your pocket are unimaginably small: you can fit more than 3,000 of them across the width of a human hair. But to keep up with innovations in fields like facial recognition and augmented reality, we need to pack even more computing power into our computer chips -- and we're running out of space. In this forward-thinking talk, technology developer Karl Skjonnemand introduces a radically new way to create chips. "This could be the dawn of a new era of molecular manufacturing," Skjonnemand says.

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