Computing with Modular Robots

Genaro J. Martínez; Andrew Adamatzky; Ricardo Q. Figueroa; Eric Schweikardt; Dmitry A. Zaitsev; Ivan Zelinka; Luz N. Oliva-Moreno

Computing with Modular Robots

Genaro J. Martínez, Andrew Adamatzky, Ricardo Q. Figueroa, Eric Schweikardt, Dmitry A. Zaitsev, Ivan Zelinka, Luz N. Oliva-Moreno

Research output: Contribution to journal › Article › peer-review

Abstract

Propagating patterns are used to transfer and process information in chemical and physical prototypes of unconventional computing devices. Logical values are represented by fronts of traveling diffusive, trigger or phase waves. We apply this concept of pattern based computation to develop experimental prototypes of computing circuits implemented in small modular robots. In the experimental prototypes the modular robots Cubelets are concatenated into channels and junction. The structures developed by Cubelets propagate signals in parallel and asynchronously. The approach is illustrated with a working circuit of a one-bit full adder. Complementarily a formalization of these constructions are developed across Sleptsov nets. Finally, a perspective to swarm dynamics is discussed.

Original language	English
Pages (from-to)	31-60
Number of pages	30
Journal	International Journal of Unconventional Computing
Volume	17
Issue number	1-2
State	Published - 2022

Keywords

Binary adder
Cellular automata
Competing patterns
Cubelets
Networks
Robotics
Sleptsov net
Unconventional computing

Cite this

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AU - Martínez, Genaro J.

AU - Adamatzky, Andrew

AU - Figueroa, Ricardo Q.

AU - Schweikardt, Eric

AU - Zaitsev, Dmitry A.

AU - Zelinka, Ivan

AU - Oliva-Moreno, Luz N.

PY - 2022

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KW - Networks

KW - Robotics

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Computing with Modular Robots

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Keywords

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