Advanced artificial intelligence system by intuitionistic fuzzy (sic)-subring for automotive robotic manufacturing

Firouzkouhi, Narjes1; Amini, Abbas2,3; Nazari, Marziyeh4; Alkhatib, Fadi2; Bordbar, Hashem5; Cheng, Chun6; Davvaz, Bijan1; Rashidi, Maria3

2023-02-01

10.1007/s10462-023-10396-5

ARTIFICIAL INTELLIGENCE REVIEW   影响因子和分区

0269-2821

1573-7462

In recent years, robotic engineering has been enriched with Artificial Intelligence (AI) technology, preparing the industries to enter the Industry 4.0 era. The powerful neoteric paradigm of AI can serve automotive industries (as one of the largest sectors in the world), to inevitably change their outdated manufacturing strategies. These industrial sectors are increasingly encountering mega data that inevitably carry uncertainty, for which the available methodologies are not capable to deal with that efficiently. To theoretically resolve this gap, a generalized intuitionistic fuzzy set (IFS) theory is proposed here as an efficient, fast, and flexible method. Based on the membership and non-membership degrees, multi-aspect gamma-systems is developed to model the complex real systems. Inspired by multi-attribute gamma-systems and IFS approach, a novel mathematical concept namely intuitionistic fuzzy gamma-subring (IF gamma R) method, is developed to establish an AI platform for robotic automotive manufacturing. Significant characteristics of IF gamma R are developed, including the overlapping of elements with IF gamma R property is IF gamma R, also image and inverse image of elements with IF gamma R property are IF gamma R under gamma-ring homomorphism. Additionally, the connection between upper and lower bound level cuts and image/inverse image property are parametrically discussed. With the effect of surjective homomorphism on upper and lower level cuts, there would be equivalent upper and lower level cuts of image/inverse image in IF gamma R environment. The developed notion of IF gamma I is obtained as the generalization of gamma-ideal under gamma-ring R along with the resultant fundamental properties of IF gamma I, where the overlapping/intersection family of IF gamma Is is proved to be IF gamma I. Also, the upper and lower bound level cuts of elements with IF gamma I property are gamma-ideals. Finally, the proposed IF gamma gamma R method is utilized for automotive AI systems (AAIS) by means of mathematical algebraic notions of gamma-ring, IFS, gamma-ring isomorphism, and upper and lower bound levels. The developed methodology is validated using real dataset of industrial robots in supply chain and then, the elements are characterized in terms of metric overall factory effectiveness. With a systematic pattern of gamma-ring structure, the IF gamma R model is accomplished on elements, and the intercomponent correspondence of AAIS is established with the gamma-ring isomorphism. Based on QC (quality criteria) and non-QC indexes, as the derivation of upper and lower bound level cuts, the analysis of parameters (robots) is simplified for the identification of effective and compatible components in AAIS. The generalized IFS-based method for complex systems has a potential to be used in different AI platforms.

Intelligent systems Robotic manufacturing Intuitionistic fuzzy set Image and inverse image Upper and lower bound level

SCI ; EI

英语

其他

Computer Science

Computer Science, Artificial Intelligence

WOS:000934210800001

SPRINGER

20230713571262

Algebra ; Automotive industry ; Fuzzy sets ; Industrial robots ; Industry 4.0 ; Intelligent robots ; Inverse problems ; Supply chains

Artificial Intelligence:723.4 ; Robot Applications:731.6 ; Inventory Control:911.3 ; Industrial Engineering and Management:912 ; Production Planning and Control; Manufacturing:913 ; Manufacturing:913.4 ; Algebra:921.1

COMPUTER SCIENCE

Web of Science

1.Yazd Univ, Dept Math, Yazd, Iran
2.Australian Univ Kuwait, Coll Engn, Dept Mech Engn, Safat 13015, Kuwait
3.Western Sydney Univ, Ctr Infrastructure Engn, Penrith, NSW 2751, Australia
4.Australian Univ Kuwait, Coll Engn, Dept Math & Phys, Safat 13015, Kuwait
5.Univ Nova Gor, Ctr Informat Technol & Appl Math, Nova Gorica, Slovenia
6.Southern Univ Sci & Technol, Dept Mat Sci & Engn, Shenzhen 518055, Peoples R China

Firouzkouhi, Narjes,Amini, Abbas,Nazari, Marziyeh,et al. Advanced artificial intelligence system by intuitionistic fuzzy (sic)-subring for automotive robotic manufacturing[J]. ARTIFICIAL INTELLIGENCE REVIEW,2023,56(9):9639-9664.

Firouzkouhi, Narjes.,Amini, Abbas.,Nazari, Marziyeh.,Alkhatib, Fadi.,Bordbar, Hashem.,...&Rashidi, Maria.(2023).Advanced artificial intelligence system by intuitionistic fuzzy (sic)-subring for automotive robotic manufacturing.ARTIFICIAL INTELLIGENCE REVIEW,56(9),9639-9664.

Firouzkouhi, Narjes,et al."Advanced artificial intelligence system by intuitionistic fuzzy (sic)-subring for automotive robotic manufacturing".ARTIFICIAL INTELLIGENCE REVIEW 56.9(2023):9639-9664.