Abstract
The present paper focus on studying the approximate reasoning models based on fuzzy information systems. Firstly, we introduce a concept of \( \lambda \)-truth degree in Lukasiewicz propositional logic by using the probability measure on the set of all valuations, which shows that all kinds of truth degree of formulas in quantitative logic can all be brought as special cases into the unified framework of the \( \lambda \)-truth degree. It is proved that the \( \lambda \)-truth degree satisfies the Kolmogorov axioms and hence the quantitative logic and the probability logic are integrated by means of \( \lambda \)-truth degree. Secondly, by using the \( \lambda \)-truth degree we define the \( \lambda \)-similarity degree and the logic \( \lambda \)-metric among two logic formulas, and prove that there exists not isolated point under some conditions and various logic operations are continuous in the logic \( \lambda \)-metric space. Thirdly, we analyze some applications of \( \lambda \)-truth degree to approximate reasoning in fuzzy information systems, propose two diverse approximate reasoning models in the logic \( \lambda \)-metric space, and give some examples to illustrate the application of approximate reasoning models.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Lu, R.Q., Ying, M.S.: A model of reasoning about knowledge. Sci. China E 41, 527–534 (1998)
Hajek, P.: Metamathematics of Fuzzy Logic. Kluwer Academic Publishers, Dordrecht (1998)
Wang, G.J.: Classical Mathematical Logic and Approximate Reasoning. Science Press, Beijing (2006)
Wang, G.J., Zhou, H.J.: Introduction to Mathematical Logic and Resolution Principle. Science Press, Beijing (2009)
Wang, G.J., Leung, Y.: Integrated semantics and logic metric spaces. Fuzzy Sets Syst. 136, 71–91 (2003)
Wang, G.J., Li, B.J.: Theory of truth degree of formulas in n valued propositional logic and a limit theorem. Sci. China F 8, 727–736 (2005)
Wang, G.J., Zhou, H.J.: Quantitative logic. Inf. Sci. 179, 226–247 (2009)
Hui, X.J., Wang, G.J.: Randomization of classical inference patterns and its application. Sci. China F 50, 867–877 (2007)
Zhou, H.J.: A probabilistically quantitative reasoning system based on n valued Lukasiewicz propositional logic. Pattern Recogn. Artif. Intell. 26(6), 521–528 (2013)
Zhang, J.L., Chen, X.G.: Theory of probability semantics of classical propositional logic and its application. Chin. J. Comput. 37(8), 1775–1785 (2014)
Zhang, J.L., Chen, X.G.: Approximate reasoning model based on probability valuation of propositional logic. Pattern Recogn. Artif. Intell. 28(9), 769–780 (2015)
Yan, S.J., Wang, S.J., Liu, X.F.: Probability Theory. Science Press, Beijing (1986)
Klement, E.P., Lowen, R., Schwyhla, W.: Fuzzy probability measures. Fuzzy Sets Syst. 1, 21–30 (1981)
Acknowledgement
This work has been supported by the Hunan Provincial Social Science Achievement Evaluation Committee (No. XSP19YBZ111), the Natural Science Foundation of Hunan province (No. 2016JJ6138, No. 2017JJ2241).
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Switzerland AG
About this paper
Cite this paper
Wu, X., Zhang, J., Lu, R. (2020). An Approximate Reasoning Method and Its Application to Fuzzy Information Systems. In: Liu, Y., Wang, L., Zhao, L., Yu, Z. (eds) Advances in Natural Computation, Fuzzy Systems and Knowledge Discovery. ICNC-FSKD 2019. Advances in Intelligent Systems and Computing, vol 1075. Springer, Cham. https://doi.org/10.1007/978-3-030-32591-6_68
Download citation
DOI: https://doi.org/10.1007/978-3-030-32591-6_68
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-32590-9
Online ISBN: 978-3-030-32591-6
eBook Packages: Intelligent Technologies and RoboticsIntelligent Technologies and Robotics (R0)