GraATP: A graph theoretic approach for Automated Theorem Proving in plane geometry

Author

Mahmud, Mohammad Murtaza ; Shatabda, Swakkhar ; Huda, Mohammad Nurul

Author_Institution

Dept. of Comput. Sci. & Eng., United Int. Univ., Dhaka, Bangladesh

fYear

2014

Firstpage

1

Lastpage

6

Abstract

Automated Theorem Proving (ATP) is an established branch of Artificial Intelligence. The purpose of ATP is to design a system which can automatically figure out an algorithm either to prove or disprove a mathematical claim, on the basis of a set of given premises, using a set of fundamental postulates and following the method of logical inference. In this paper, we propose GraATP, a generalized framework for automated theorem proving in plane geometry. Our proposed method translates the geometric entities into nodes of a graph and the relations between them as edges of that graph. The automated system searches for different ways to reach the conclusion for a claim via graph traversal by which the validity of the geometric theorem is examined.

Keywords

geometry; graph theory; inference mechanisms; theorem proving; GraATP; artificial intelligence; automated theorem proving; fundamental postulates; geometric theorem; graph node; graph theoretic approach; graph traversal; logical inference; plane geometry; Color; Computer science; Design automation; Geometry; Inference algorithms; Mathematical model; Roads; Automated theorem prover; Cartesian algebraic method; Euclidean logical inference method; dimensions; graph; topological ordering.;

fLanguage

English

Publisher

ieee

Conference_Titel

Software, Knowledge, Information Management and Applications (SKIMA), 2014 8th International Conference on

Type

conf

DOI

10.1109/SKIMA.2014.7083537

Filename

7083537