User-Selected Sets of Algorithmic Implementation of Fuzzy Processing Subsystem for Embedded Intelligent Control Systems

Alexei Evgenievich Vassiliev; Htut Shine; Ye Min Htet; Viktoriia Alexeevna Karpenko

doi:10.55549/epstem.1406787

Conference Paper

Year 2023, Volume: 24, 257 - 262, 30.11.2023

Alexei Evgenievich Vassiliev Htut Shine Ye Min Htet Viktoriia Alexeevna Karpenko

https://doi.org/10.55549/epstem.1406787

Abstract

References

Ascia, G., Catania, V., & Russo, M. (1999). VLSI hardware architecture for complex fuzzy systems. IEEE Transactions on Fuzzy Systems, 7(5), 553–570.
Barrett, S. F., & Magleby, D. B. (2004). Embedded systems: Design and applications with the 68HC12 and HCS12. Retrieved from https://www.amazon.com/Embedded-Systems-Design-Applications.
Evmorfopoulos, N., & Avaritsiotis, J. (2002). An adaptive digital fuzzy architecture for application-specific integrated circuits. Active and Passive Electronic Components,25(4), 289-306.

User-Selected Sets of Algorithmic Implementation of Fuzzy Processing Subsystem for Embedded Intelligent Control Systems

Year 2023, Volume: 24, 257 - 262, 30.11.2023

Alexei Evgenievich Vassiliev Htut Shine Ye Min Htet Viktoriia Alexeevna Karpenko

https://doi.org/10.55549/epstem.1406787

Abstract

Embedded intelligent control systems (EICS) have been used in a wide range of tasks involving the adaptive control of technical objects and processes. For the hardware implementation of EICS, developers actively use function-oriented microcontrollers, that aimed to be the effective implementation of control algorithms, including adaptive and intelligent control. Embedded control systems based on the concept of fuzzy set theory have recently been developed for specific individual control operations, allowing more efficient implementation of complex object control algorithms. This paper approaches the study of the different implementation of control algorithms in embedded microcontrollers based on fuzzy sets theory to result in reduced hardware area and complexity, high operating speed, and adaptability to various applicable domains. It shows that the performance of fuzzy computing specialized in embedded systems has significantly increased and makes possible a huge scope for further improvement of the implementation of fuzzy control algorithms at the hardware level.

Keywords

: Embedded control system, MCS-51, Control algorithms, Fuzzy sets, Fuzzy computation

References

Ascia, G., Catania, V., & Russo, M. (1999). VLSI hardware architecture for complex fuzzy systems. IEEE Transactions on Fuzzy Systems, 7(5), 553–570.
Barrett, S. F., & Magleby, D. B. (2004). Embedded systems: Design and applications with the 68HC12 and HCS12. Retrieved from https://www.amazon.com/Embedded-Systems-Design-Applications.
Evmorfopoulos, N., & Avaritsiotis, J. (2002). An adaptive digital fuzzy architecture for application-specific integrated circuits. Active and Passive Electronic Components,25(4), 289-306.

There are 3 citations in total.

Details

Primary Language	English
Subjects	Control Theoryand Applications
Journal Section	Articles
Authors	Alexei Evgenievich Vassiliev Htut Shine Ye Min Htet Viktoriia Alexeevna Karpenko
Early Pub Date	December 19, 2023
Publication Date	November 30, 2023
Published in Issue	Year 2023Volume: 24

Cite

APA	Vassiliev, A. E., Shine, H., Htet, Y. M., Karpenko, V. A. (2023). User-Selected Sets of Algorithmic Implementation of Fuzzy Processing Subsystem for Embedded Intelligent Control Systems. The Eurasia Proceedings of Science Technology Engineering and Mathematics, 24, 257-262. https://doi.org/10.55549/epstem.1406787