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Stochastic Modular Robotic Systems: A Study of Fluidic Assembly Strategies
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Stochastic Modular Robotic Systems: A Study of Fluidic Assembly Strategies   (Citations: 4)
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Modular robotic systems typically assemble using deterministic processes where modules are directly placed into their target position. By contrast, stochastic modular robots take advantage of ambient environmental energy for the transportation and delivery of robot components to target locations, thus offering potential scalability. The inability to precisely predict component availability and assembly rates is a key challenge for planning in such environments. Here, we describe a computationally efficient simulator to model a modular robotic system that assembles in a stochastic fluid environment. This simulator allows us to address the challenge of planning for stochastic assembly by testing a series of potential strategies. We first calibrate the simulator using both high-fidelity computational fluid-dynamics simulations and physical experiments. We then use this simulator to study the effects of various system parameters and assembly strategies on the speed and accuracy of assembly of topologically different target structures.
Journal: IEEE Transactions on Robotics - TRob , vol. 26, no. 3, pp. 518-530, 2010
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    • ...It is also interesting to compare these experimental results with our previously developed model-based simulation of the stochastic fluidic assembly system [10]...
    • ...In [10], we used this simulator to predict the time required to assemble one cube next to another on the centre of the bottom of a cylindrical fluidic chamber...

    Michael Thomas Tolleyet al. Fluidic manipulation for scalable stochastic 3D assembly of modular ro...

    • ...We have previously analyzed the high-level dynamics of assembly in this type of system using a custom simulator with simplified fluidic forces (Tolley et al. 2010)...
    • ...The motion of these blocks was simulated for the representative cases shown in Fig. 3 (Tolley et al. 2010)...
    • ...These four cases represent the possible docking scenarios during the assembly of a large structure (Tolley et al. 2010) 554 Microfluid Nanofluid (2010) 9:551‐558...

    Michael Kalontarovet al. Hydrodynamically driven docking of blocks for 3D fluidic assembly

    • ...A promising fabrication concept is to assemble active components that move about stochastically in a fluidic environment (table 14.1) [10]-[13]...
    • ...Table 14.4 Stochastic Fluidic Assembly Concept [10]...
    • ...Straightforward approaches, such as attracting components in a greedy manner wherever they are needed, result in porous structures with many unfillable holes ([10], table 14.6 (a))...

    Michael T. Tolleyet al. Evolutionary Design and Assembly Planning for Stochastic Modular Robot...

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