Published March 26, 2018
| Version presented extended abstract
Conference paper
Open
Expected Emergent Algorithmic Creativity and Integration in Dynamic Complex Networks
- 1. National Laboratory for Scientific Computing (LNCC)
Description
We present a theoretical investigation of the emergence of complexity or irreducible information in networked computable systems when the network topology may change over time. For this purpose, we build a network model in which nodes are randomly generated Turing machines that obey a communication protocol of imitation of the fittest neighbor. Then, we show that there are topological conditions that trigger a phase transition in which eventually these networked computable systems begin to produce an unlimited amount of bits of expected emergent algorithmic complexity, creativity and integration as the network size goes to infinity.
Notes
Version 1: Submitted Extended Abstract.
Version 2 (Final): Extended abstract presented at the Congress of the Brazilian Computer Society 2018 (CSBC 2018) on July 22, 2018. This material is copyrighted by the Brazilian Computer Society (SBC).
Files
ETC2018-paper1-Felipe-Klaus-Artur.pdf
Files
(268.3 kB)
| Name | Size | Download all |
|---|---|---|
|
md5:c2bf8c4db13fbdcdd84825f1875d68c2
|
132.8 kB | Preview Download |
|
md5:76db14d5fbec799f4b8a2bf10f3cd559
|
135.5 kB | Preview Download |
Additional details
Related works
- Is identical to
- http://portaldeconteudo.sbc.org.br/index.php/etc/article/view/3152 (URL)