Cai Wood scite author profile

Cai Wood

3Publications

3Citation Statements Received

18Citation Statements Given

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National University of Ireland, Maynooth

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Turning machines: a simple algorithmic model for molecular robotics

2022

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Molecular robotics is challenging, so it seems best to keep it simple. We consider an abstract molecular robotics model based on simple folding instructions that execute asynchronously. Turning Machines are a simple 1D to 2D folding model, also easily generalisable to 2D to 3D folding. A Turning Machine starts out as a line of connected monomers in the discrete plane, each with an associated turning number. A monomer turns relative to its neighbours, executing a unit-distance translation that drags other monomers along with it, and through collective motion the initial set of monomers eventually folds into a programmed shape. We provide a suite of tools for reasoning about Turning Machines by fully characterising their ability to execute line rotations: executing an almost-full line rotation of $$5\pi /3$$ 5 π / 3 radians is possible, yet a full $$2\pi$$ 2 π rotation is impossible. Furthermore, line rotations up to $$5\pi /3$$ 5 π / 3 are executed efficiently, in $$O(\log n)$$ O ( log n ) expected time in our continuous time Markov chain time model. We then show that such line-rotations represent a fundamental primitive in the model, by using them to efficiently and asynchronously fold shapes. In particular, arbitrarily large zig-zag-rastered squares and zig-zag paths are foldable, as are y-monotone shapes albeit with error (bounded by perimeter length). Finally, we give shapes that despite having paths that traverse all their points, are in fact impossible to fold, as well as techniques for folding certain classes of (scaled) shapes without error. Our approach relies on careful geometric-based analyses of the feats possible and impossible by a very simple robotic system, and pushes conceptional hardness towards mathematical analysis and away from molecular implementation.

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Frameworks of Indexing Mechanism for Mobile Devices

Kadim¹,

Wood²

2007

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Enterprise are increasing incorporating mobile devices to improve their works. Mobile devices require limited storages and low computational resources. The volumes of spatial data are tremendous and spatial operations are time-intensive. Therefore, it is necessary to study a spatial index which is small and efficiently filter out the candidate objects of a spatial operation as well in order to processing spatial operations efficiently in the vector map service based on mobile devices such as PDA, phone and telemetric terminals.In this paper, we propose a hash based spatial index for the mobile map services. The index has a simple structure for storage utilization and uses a hashing technique for search efficiency.

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Turning Machines

Kostitsyna¹,

Wood²,

Woods³

2020

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Cai Wood

Turning machines: a simple algorithmic model for molecular robotics

Frameworks of Indexing Mechanism for Mobile Devices

Turning Machines

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