By the same authors

Tuning Jordan Algebra Artificial Chemistries with Probability Spawning Functions

Research output: Contribution to conferencePaperpeer-review

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Tuning Jordan Algebra Artificial Chemistries with Probability Spawning Functions. / Faulkner, Penelope Selina Margaret; Sebald, Angelika Anne-Marie; Stepney, Susan.

2017. 497-504 Paper presented at European Conference on Artificial Life 2017, Lyon, France.

Research output: Contribution to conferencePaperpeer-review

Harvard

Faulkner, PSM, Sebald, AA-M & Stepney, S 2017, 'Tuning Jordan Algebra Artificial Chemistries with Probability Spawning Functions', Paper presented at European Conference on Artificial Life 2017, Lyon, France, 4/09/17 - 8/09/17 pp. 497-504.

APA

Faulkner, P. S. M., Sebald, A. A-M., & Stepney, S. (2017). Tuning Jordan Algebra Artificial Chemistries with Probability Spawning Functions. 497-504. Paper presented at European Conference on Artificial Life 2017, Lyon, France.

Vancouver

Faulkner PSM, Sebald AA-M, Stepney S. Tuning Jordan Algebra Artificial Chemistries with Probability Spawning Functions. 2017. Paper presented at European Conference on Artificial Life 2017, Lyon, France.

Author

Faulkner, Penelope Selina Margaret ; Sebald, Angelika Anne-Marie ; Stepney, Susan. / Tuning Jordan Algebra Artificial Chemistries with Probability Spawning Functions. Paper presented at European Conference on Artificial Life 2017, Lyon, France.

Bibtex - Download

@conference{40c6c1f577544dc2af8a368a105ae4f5,
title = "Tuning Jordan Algebra Artificial Chemistries with Probability Spawning Functions",
abstract = "Natural chemistry deals with non-deterministic processes, and this is reflected in some artificial chemistries. We can tune these artificial systems by manipulating the functions that define their probabilistic processes. In this work we consider different probabilistic functions for particle linking, applied to our Jordan Algebra Artificial Chemistry. We use five base functions and their variations to investigate the possible behaviours of the system, and try to connect those behaviours to different traits of the functions. We find that, while some correlations can be seen, there are unexpected behaviours that we cannot account for in our current analysis. While we can set and manipulate the probabilities in our system, it is still complex and still displays emergent behaviour that we can not fully control.",
author = "Faulkner, {Penelope Selina Margaret} and Sebald, {Angelika Anne-Marie} and Susan Stepney",
note = "{\textcopyright} 2017, The Author(s). ; European Conference on Artificial Life 2017, ecal 2017 ; Conference date: 04-09-2017 Through 08-09-2017",
year = "2017",
month = sep,
language = "English",
pages = "497--504",

}

RIS (suitable for import to EndNote) - Download

TY - CONF

T1 - Tuning Jordan Algebra Artificial Chemistries with Probability Spawning Functions

AU - Faulkner, Penelope Selina Margaret

AU - Sebald, Angelika Anne-Marie

AU - Stepney, Susan

N1 - © 2017, The Author(s).

PY - 2017/9

Y1 - 2017/9

N2 - Natural chemistry deals with non-deterministic processes, and this is reflected in some artificial chemistries. We can tune these artificial systems by manipulating the functions that define their probabilistic processes. In this work we consider different probabilistic functions for particle linking, applied to our Jordan Algebra Artificial Chemistry. We use five base functions and their variations to investigate the possible behaviours of the system, and try to connect those behaviours to different traits of the functions. We find that, while some correlations can be seen, there are unexpected behaviours that we cannot account for in our current analysis. While we can set and manipulate the probabilities in our system, it is still complex and still displays emergent behaviour that we can not fully control.

AB - Natural chemistry deals with non-deterministic processes, and this is reflected in some artificial chemistries. We can tune these artificial systems by manipulating the functions that define their probabilistic processes. In this work we consider different probabilistic functions for particle linking, applied to our Jordan Algebra Artificial Chemistry. We use five base functions and their variations to investigate the possible behaviours of the system, and try to connect those behaviours to different traits of the functions. We find that, while some correlations can be seen, there are unexpected behaviours that we cannot account for in our current analysis. While we can set and manipulate the probabilities in our system, it is still complex and still displays emergent behaviour that we can not fully control.

M3 - Paper

SP - 497

EP - 504

T2 - European Conference on Artificial Life 2017

Y2 - 4 September 2017 through 8 September 2017

ER -