Authors: Alicia Y. C. Tang, Sharifuddin M. Zain, Noorsaadah A. Rahman, Rukaini Abdullah

Abstract:

This paper discusses a qualitative simulator QRiOM that uses Qualitative Reasoning (QR) technique, and a process-based ontology to model, simulate and explain the behaviour of selected organic reactions. Learning organic reactions requires the application of domain knowledge at intuitive level, which is difficult to be programmed using traditional approach. The main objective of QRiOM is to help learners gain a better understanding of the fundamental organic reaction concepts, and to improve their conceptual comprehension on the subject by analyzing the multiple forms of explanation generated by the software. This paper focuses on the generation of explanation based on causal theories to explicate various phenomena in the chemistry subject. QRiOM has been tested with three classes problems related to organic chemistry, with encouraging results. This paper also presents the results of preliminary evaluation of QRiOM that reveal its explanation capability and usefulness.

Keywords: Artificial intelligence, explanation, ontology, organicreactions, qualitative reasoning, QPT.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1054769

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References:

[1] K. Forbus, "Qualitative Process Theory," Artificial Intelligence, 24 85- 125, 1984.
[2] B. Bredeweg, and K. Forbus, "Qualitative Modelling in Education," AI Magazine 24(4), 35-46, 2003.
[3] P.S.B.A. Salles, H. Pain, and R.I. Muetzelfeldt, "Qualitative ecological models for tutoring systems: a comparative study," AAAI Technical Report WS-96-01, 1996.
[4] Y.C. Alicia Tang, and S.M.F.D. Syed Mustapha, "Representing SN1 Reaction Mechanism Using the Qualitative Process Theory," in Proc. 20th Int. Workshop on Qualitative Reasoning, eds. C. Bailey-Kellogg and B. Kuipers, Hanover, USA, 2006, pp. 137-147.
[5] Y.C. Alicia Tang, S.M.F.D. Syed Mustapha, R. Abdullah, S.M. Zain, and N. A. Rahman, "Towards Automating QPT Model Construction for Reaction Mechanisms Simulation", in Proceedings of the 21st International Workshop on Qualitative Reasoning, Aberystwyth, United Kingdom, 2007.
[6] Y.C. Alicia Tang, S.M. Zain, N. Abdul Rahman, and R. Abdullah, "An ontology-based reasoning framework for reaction mechanisms simulation," Lecture Notes in Artificial Intelligence (LNAI) 4798, Springer-Verlag Berlin Heidelberg, 2007, pp. 18-29.
[7] Y. C. Alicia Tang, R. Abdullah, S.M. Zain, and N.A. Rahman. "Generating Qualitative Causal Graph using Modeling Constructs of Qualitative Process Theory for Explaining Organic Chemistry Reactions", International Journal of Information Technology 5:1 2009, pp. 1-11, World Academy of Science, Engineering and Technology.