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Publication details
HydroGen: Automatically Generating Self-Assembly Code for Hydron Units
George Konidaris, Tim Taylor, John Hallam
2007
Abstract
This paper introduces HydroGen, an object compiler system that produces self-assembly instructions for configurations of Hydron units. The Hydron is distinct from other self-reconfigurable robotic units in that it operates under water, and can thus move without being constrained by gravity of connectivity requirements. It is therefore well suited to self-assembly as opposed to self-reconfiguration, and faces similar control problems to those expected in nanotechnology applications. We describe the first version of the Hydron Object Compiler and its supporting software. The object compiler uses a basic instruction set to produce instructions for the distributed self-assembly of any given connected configuration of Hydron units. We briefly outline the implementation of a preliminary interpreter for this instruction set for Hydron units in a reasonably realistic simulated environment, and demonstrate its operation on two example configurations.
Full text
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On publisher's website: via DOI
Reference
Konidaris, G., Taylor, T., & Hallam, J. (2007). HydroGen: Automatically Generating Self-Assembly Code for Hydron Units. In R. Alami, H. Asama, & R. Chatila (Eds.), Distributed Autonomous Robotic Systems 6 (Proceedings of the Seventh International Symposium on Distributed Autonomous Robotic Systems, DARS04) (pp. 33–42). https://doi.org/10.1007/978-4-431-35873-2_4
BibTeX
@inproceedings{konidaris2007hydrogen,
author = {Konidaris, George and Taylor, Tim and Hallam, John},
title = {HydroGen: Automatically Generating Self-Assembly Code for Hydron Units},
booktitle = {Distributed Autonomous Robotic Systems 6 (Proceedings of the Seventh International Symposium on Distributed Autonomous Robotic Systems, DARS04)},
year = {2007},
editor = {Alami, R. and Asama, H. and Chatila, R.},
pages = {33-42},
address = {Toulouse, France},
doi = {10.1007/978-4-431-35873-2_4},
note = {DARS04 took place in Toulouse, France, 23-25 June 2004. The proceedings were published by Springer in 2007.},
publisher = {Springer},
category = {conference},
keywords = {hydra}
}
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isbn = {0903878267},
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category = {conference},
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}
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@techreport{taylor2007pattern,
author = {Taylor, Tim and Ottery, Peter and Hallam, John},
title = {Pattern formation for multi-robot applications: Robust, self-repairing systems inspired by genetic regulatory networks and cellular self-organisation},
institution = {University of Edinburgh},
year = {2007},
type = {Informatics Research Report},
number = {EDI-INF-RR-0971},
category = {techreport},
keywords = {grn, hydra, robots}
}
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@inproceedings{ostergaard2005hydra,
author = {{\O}stergaard, Esben H. and Christensen, David J. and Eggenberger, Peter and Taylor, Tim and Ottery, Peter and Lund, Henrik H.},
title = {{HYDRA}: From Cellular Biology to Shape-Changing Artefacts},
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publisher = {Springer},
address = {Berlin},
series = {Lecture Notes in Computer Science},
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pages = {275--281},
doi = {10.1007/11550822_44},
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keywords = {hydra, robots}
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author = {Taylor, Tim},
title = {A Genetic Regulatory Network-Inspired Real-Time Controller for a Group of Underwater Robots},
booktitle = {Intelligent Autonomous Systems 8 (Proceedings of IAS-8)},
year = {2004},
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publisher = {{IOS} Press},
category = {conference},
keywords = {grn, hydra, robots}
}