Shifted Legendre polynomials-based single and double integral inequalities with arbitrary approximation order: Application to stability of linear systems with time-varying delays

• Published in: AIMS mathematics Vol. 5; no. 5; pp. 4371 - 4398
• Main Authors: Gong, Deren, Wang, Xiaoliang, Dong, Peng, Wu, Shufan, Zhu, Xiaodan
• Format: Journal Article
• Language: English
• Published: AIMS Press 01.01.2020
• Subjects: arbitrary approximation order; cholesky decomposition; shifted legendre polynomials; stability analysis; time-delayed systems
• ISSN: 2473-6988; 2473-6988
• DOI: 10.3934/math.2020279

This paper proposes novel single and double integral inequalities with arbitrary approximation order by employing shifted Legendre polynomials and Cholesky decomposition, and these inequalities could significantly reduce the conservativeness in stability analysis of linear systems with interval time-varying delays. The coefficients of the proposed single and double integral inequalities are determined by using the weighted least-squares method. Also former well-known integral inequities, such as Jensen inequality, Wirtinger-based inequality, auxiliary function-based integral inequalities, are all included in the proposed integral inequalities as special cases with lower-order approximation. Stability criterions with less conservatism are then developed for both constant and time-varying delay systems. Several numerical examples are given to demonstrate the effectiveness and benefit of the proposed method.