no code implementations • 12 May 2023 • Yuheng Wang, Paul Fodor, Michael Kifer
To address these limitations, we propose KALMRA to enable authoring of rules and actions.
1 code implementation • 16 Apr 2023 • Sam van der Poel, Dakotah Lambert, Kalina Kostyszyn, Tiantian Gao, Rahul Verma, Derek Andersen, Joanne Chau, Emily Peterson, Cody St. Clair, Paul Fodor, Chihiro Shibata, Jeffrey Heinz
Synthetic datasets constructed from formal languages allow fine-grained examination of the learning and generalization capabilities of machine learning systems for sequence classification.
1 code implementation • 5 Aug 2022 • Yuheng Wang, Giorgian Borca-Tasciuc, Nikhil Goel, Paul Fodor, Michael Kifer
Unfortunately, at present, extraction of logical facts from unrestricted natural language is still too inaccurate to be used for reasoning, while restricting the grammar of the language (so-called controlled natural language, or CNL) is hard for the users to learn and use.
no code implementations • 15 Sep 2021 • Andrea Formisano, Yanhong Annie Liu, Bart Bogaerts, Alex Brik, Veronica Dahl, Carmine Dodaro, Paul Fodor, Gian Luca Pozzato, Joost Vennekens, Neng-Fa Zhou
ICLP is the premier international event for presenting research in logic programming.
no code implementations • 19 Sep 2020 • Francesco Ricca, Alessandra Russo, Sergio Greco, Nicola Leone, Alexander Artikis, Gerhard Friedrich, Paul Fodor, Angelika Kimmig, Francesca Lisi, Marco Maratea, Alessandra Mileo, Fabrizio Riguzzi
Since the first conference held in Marseille in 1982, ICLP has been the premier international event for presenting research in logic programming.
no code implementations • 17 Sep 2019 • Bart Bogaerts, Esra Erdem, Paul Fodor, Andrea Formisano, Giovambattista Ianni, Daniela Inclezan, German Vidal, Alicia Villanueva, Marina De Vos, Fangkai Yang
Since the first conference held in Marseille in 1982, ICLP has been the premier international event for presenting research in logic programming.
1 code implementation • 18 Jul 2019 • Tiantian Gao, Paul Fodor, Michael Kifer
The inherent difficulty of knowledge specification and the lack of trained specialists are some of the key obstacles on the way to making intelligent systems based on the knowledge representation and reasoning (KRR) paradigm commonplace.
no code implementations • 3 Aug 2016 • Tiantian Gao, Paul Fodor, Michael Kifer
Word puzzles and the problem of their representations in logic languages have received considerable attention in the last decade (Ponnuru et al. 2004; Shapiro 2011; Baral and Dzifcak 2012; Schwitter 2013).