no code implementations • 17 Mar 2018 • Joseph Corneli, Ursula Martin, Dave Murray-Rust, Gabriela Rino Nesin, Alison Pease
To adequately model mathematical arguments the analyst must be able to represent the mathematical objects under discussion and the relationships between them, as well as inferences drawn about these objects and relationships as the discourse unfolds.
no code implementations • WS 2016 • Daniel Winterstein, Joseph Corneli
Our software system simulates the classical collaborative Japanese poetry form, renga, made of linked haikus.
no code implementations • 29 Apr 2016 • Joseph Corneli, Miriam Corneli
"Natural Language," whether spoken and attended to by humans, or processed and generated by computers, requires networked structures that reflect creative processes in semantic, syntactic, phonetic, linguistic, social, emotional, and cultural modules.
no code implementations • 6 Mar 2016 • Maximos Kaliakatsos-Papakostas, Roberto Confalonieri, Joseph Corneli, Asterios Zacharakis, Emilios Cambouropoulos
This tool allows a music expert to specify arguments over given transition properties.
no code implementations • 26 May 2015 • Joseph Corneli, Anna Jordanous
We propose a computational model of the Writers Workshop as a roadmap for incorporation of feedback in artificial creativity systems.
1 code implementation • 31 Jan 2015 • Joseph Corneli, Ewen Maclean
We define and explore in simulation several rules for the local evolution of generative rules for 1D and 2D cellular automata.
no code implementations • 3 Nov 2014 • Joseph Corneli, Anna Jordanous, Christian Guckelsberger, Alison Pease, Simon Colton
We conclude that it is feasible to equip computational systems with the potential for serendipity, and that this could be beneficial in varied computational creativity/AI applications, particularly those designed to operate responsively in real-world contexts.