MENG Hailong, LAI Xiaoping, YI Huoping, “A Sequential Partial Optimization Algorithm for Design of Near Linear-Phase ⅡR Digital Differentiators,” Chinese Journal of Electronics, vol. 28, no. 5, pp. 968-977, 2019, doi: 10.1049/cje.2019.06.017
Citation: MENG Hailong, LAI Xiaoping, YI Huoping, “A Sequential Partial Optimization Algorithm for Design of Near Linear-Phase ⅡR Digital Differentiators,” Chinese Journal of Electronics, vol. 28, no. 5, pp. 968-977, 2019, doi: 10.1049/cje.2019.06.017

A Sequential Partial Optimization Algorithm for Design of Near Linear-Phase ⅡR Digital Differentiators

doi: 10.1049/cje.2019.06.017
Funds:  This work is supported by the National Nature Science Foundation of China (No.61573123, No.61333009).
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  • Corresponding author: LAI Xiaoping (corresponding author) received the B.S.and M.S.degrees in physics from Shandong University in June 1985 and June 1988,and the Ph.D.degree in applied mathematics from Shandong University in June 2000.From 1988 to 2008,he was with Shandong University,China,where he became a professor in 2001,was the Director of the Department of Information Science and Control Engineering for 2003-2004,and was the Dean of the School of Information Engineering for 2004-2007.Since 2008,he has been with Hangzhou Dianzi University,China,as a distinguished professor of Control Science and Engineering,where he was the Dean of the Automation School for 2010-2015.Dr.Lai has served as an associate editor of Multidimensional Systems and Signal Processing since June 2014.His general research interests lie in the areas of optimization methods and applications in digital signal processing and control systems.His current research focuses on optimal designs of one and multidimensional digital filters and filter banks,compressive sensing,neural networks,and optimization for big data.(Email:laixp@hdu.edu.cn)
  • Received Date: 2018-07-05
  • Rev Recd Date: 2019-01-15
  • Publish Date: 2019-09-10
  • The linear phase is a major characteristic of digital differentiators in many signal processing applications. This study presents a sequential partial optimization method for designing a fullband infinite impulse response digital differentiator with a near linear phase. To achieve a near linear phase, the group delay is treated as an optimization variable, and the maximum phase error is minimized within a constrained domain. During each iteration of the algorithm, in addition to the whole numerator and group delay, only one secondorder denominator factor is optimized. The necessary and sufficient stability triangles are applied to insure the stability of the differentiators, and the Gauss-Newton strategy is used to handle the nonconvexity of the design problems. Design examples show that the proposed method outperforms several state-of-the-art methods in terms of the maximum phase deviation from the desired linear phase.
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