Using Compression to Find Interesting One Dimensional Cellular Automata
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In: Complex and Intelligent Systems, Vol. 6, No. 1, 04.2020, p. 123–146.
Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Using Compression to Find Interesting One Dimensional Cellular Automata
AU - Ahmed, Nadim
AU - Teahan, William
N1 - doi.org/10.1007/s40747-019-00121-7
PY - 2020/4
Y1 - 2020/4
N2 - This paper proposes a novel method for finding interesting behaviour in complex systems based on compression. A new clustering algorithm has been designed and applied specifically for clustering 1D elementary cellular automata behaviour using the prediction by partial matching (PPM) compression scheme, with the results gathered to find interesting behaviours. This new algorithm is then compared with other clustering algorithms in Weka and the new algorithm is found to be more effective at grouping behaviour that is visually similar in output. Using PPM compression, the rate of change of the cross-entropy with respect to time is calculated. These values are used in combination with a clustering algorithm, such as k-means, to create a new set of clusters for cellular automata. An analysis of the data in each cluster is then used to determine if a cluster can be classed as interesting. The clustering algorithm itself was able to find unusual behaviours, such as rules 167 and 181 which have output that is slightly different from all the other Sierpiński Triangle-like patterns, because their apexes are off-centre by one cell. When comparing the new algorithm with other established ones, it was discovered that the new algorithm was more effective in its ability to group interesting and unusual cellular automata behaviours together.
AB - This paper proposes a novel method for finding interesting behaviour in complex systems based on compression. A new clustering algorithm has been designed and applied specifically for clustering 1D elementary cellular automata behaviour using the prediction by partial matching (PPM) compression scheme, with the results gathered to find interesting behaviours. This new algorithm is then compared with other clustering algorithms in Weka and the new algorithm is found to be more effective at grouping behaviour that is visually similar in output. Using PPM compression, the rate of change of the cross-entropy with respect to time is calculated. These values are used in combination with a clustering algorithm, such as k-means, to create a new set of clusters for cellular automata. An analysis of the data in each cluster is then used to determine if a cluster can be classed as interesting. The clustering algorithm itself was able to find unusual behaviours, such as rules 167 and 181 which have output that is slightly different from all the other Sierpiński Triangle-like patterns, because their apexes are off-centre by one cell. When comparing the new algorithm with other established ones, it was discovered that the new algorithm was more effective in its ability to group interesting and unusual cellular automata behaviours together.
KW - Machine Learning
KW - Clustering
KW - Interestingness
KW - Cellular Automata
KW - PPM Compression
U2 - 10.1007/s40747-019-00121-7
DO - 10.1007/s40747-019-00121-7
M3 - Article
VL - 6
SP - 123
EP - 146
JO - Complex and Intelligent Systems
JF - Complex and Intelligent Systems
SN - 2199-4536
IS - 1
ER -