Matthew Dale
Matthew Dale
Research Associate, Computer Science, University of York
Verified email at york.ac.uk - Homepage
TitleCited byYear
Evolving carbon nanotube reservoir computers
M Dale, JF Miller, S Stepney, MA Trefzer
International Conference on Unconventional Computation and Natural …, 2016
322016
Reservoir Computing as a Model for In-Materio Computing
M Dale, JF Miller, S Stepney
Advances in Unconventional Computing, 533-571, 2017
202017
Reservoir computing in materio: An evaluation of configuration through evolution
M Dale, S Stepney, JF Miller, M Trefzer
2016 IEEE Symposium Series on Computational Intelligence (SSCI), 1-8, 2016
142016
A substrate-independent framework to characterize reservoir computers
M Dale, JF Miller, S Stepney, MA Trefzer
Proceedings of the Royal Society A 475 (2226), 20180723, 2019
62019
Reservoir computing with computational matter
Z Konkoli, S Nichele, M Dale, S Stepney
Computational Matter, 269-293, 2018
52018
Reservoir computing in materio: A computational framework for in materio computing
M Dale, S Stepney, JF Miller, M Trefzer
2017 International Joint Conference on Neural Networks (IJCNN), 2178-2185, 2017
42017
Neuroevolution of hierarchical reservoir computers
M Dale
Proceedings of the Genetic and Evolutionary Computation Conference, 410-417, 2018
22018
The role of structure and complexity on reservoir computing quality
M Dale, J Dewhirst, S O’Keefe, A Sebald, S Stepney, MA Trefzer
International Conference on Unconventional Computation and Natural …, 2019
12019
Reservoir computing: evolution in Materio’s missing link
M Dale, JF Miller, S Stepney, MA Trefzer
Proceedings of the 9th York doctoral symposium on computer science and …, 2016
12016
Reservoir Computing in materio
M Dale, J Miller, S Stepney, M Trefzer
International Conference on Unconventional Computation and Natural …, 2016
2016
Unconventional Reservoir Computers: Exploiting Materials to Perform Computation
M Dale
Eighth York Doctoral Symposium on Computer Science & Electronics, 69, 2015
2015
Characterising Unconventional Computers using Novelty Search
M Dale, JF Miller, S Stepney, MA Trefzer
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Articles 1–12