Time as It Could Be Measured in Artificial Living Systems

Robu, Andrei and Polani, Daniel (2017) Time as It Could Be Measured in Artificial Living Systems. In: Proc. ECAL 2017: The Fourteenth European Conference on Artificial Life :. MIT Press. ISBN 978-0-262-34633-7
Copy

Being able to measure time, whether directly or indirectly, is a significant advantage for an organism. It permits it to predict regular events, and prepare for them on time. Thus, clocks are ubiquitous in biology. In the present paper, we consider the most minimal abstract pure clocks and investigate their characteristics with respect to their ability to measure time. Amongst other, we find fundamentally diametral clock characteristics, such as oscillatory behaviour for local time measurement or decay-based clocks measuring time periods in scales global to the problem. We include also cascades of independent clocks (“clock bags”) and composite clocks with controlled dependency; the latter show various regimes of markedly different dynamics.


picture_as_pdf
isal_a_061.pdf
subject
Published Version
Available under Creative Commons: BY 4.0

View Download
visibility_off picture_as_pdf

Submitted Version
lock

Atom BibTeX OpenURL ContextObject in Span OpenURL ContextObject Dublin Core MPEG-21 DIDL Data Cite XML EndNote HTML Citation METS MODS RIOXX2 XML Reference Manager Refer ASCII Citation
Export

Downloads