Authors: Mohd Amaluddin Yusoff

Abstract:

In this paper, we consider the design of pulse shaping filter using orthogonal Hermite-Rodriguez basis functions. The pulse shaping filter design problem has been formulated and solved as a quadratic programming problem with linear inequality constraints. Compared with the existing approaches reported in the literature, the use of Hermite-Rodriguez functions offers an effective alternative to solve the constrained filter synthesis problem. This is demonstrated through a numerical example which is concerned with the design of an equalization filter for a digital transmission channel.

Keywords: channel equalization filter, Hermite-Rodriguez, pulseshaping filter, quadratic programming.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1056452

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References:

[1] L.R. Lo Conte and R. Merletti, "Hermite Expansions of compact support waveforms: applications to Myoelectric signals", IEEE Trans. on Biomedical Engineering, vol. 41, no. 12, pp.1147-1159, 1994.
[2] S.S. Abeysekera and Z. Zang, "Wideband Sonar Waveform Design using Linear FM Signals and Hermite-Rodriguez Functions", IEEE OCEANS-06 Asia Pacific, Singapore, May 2006.
[3] Bell Communications, "DSX-3 isolated pulse template and equations", Technical Reference TR-TSY-000499, Issue 2, pp.9-17, Dec. 1988.
[4] CCITT, "Physical/Electrical characteristic of hierarchical digital interfaces", G. 703, Fascicle III, 1991.
[5] B. Vo, A. Cantoni and K. L. Teo, "Envelope constrained filter with linear interpolator", IEEE Trans. Signal Processing, vol. 45, pp.1405- 1414, June 1997.
[6] A. Carusone and D. A. Johns, "Analogue adaptive filters: past and present", IEE Proc. Circuits, Devices and Systems, vol. 147, pp.82-90, 2000.
[7] R.J. Evans, A. Cantoni and T. E. Fortman, "Envelope-constrained filter, Part I, Theory and application; Part II, adaptive structures", IEEE Trans. Information Theory, vol. IT-23, pp.421-444, 1977.
[8] B. Vo, Z. Zang, A. Cantoni and K. L. Teo, "Continuous-time envelope constrained filter design via orthonormal filters", IEE Proc.- Vision, Image Signal Processing, vol. 142, pp.389-394, 1995.
[9] Z. Zang, B. Vo, A. Cantoni and K.L. Teo, "Iterative algorithms for envelope constrained recursive filter design via Laguerre functions," IEEE Trans. Circuits & Systems. Part I, vol. 46, no. 11, pp.1342-1348, 1999.
[10] S. Nordebo, Z. Zang, and I. Claesson, "A semi-infinite quadratic programming algorithm with applications to array pattern synthesis", IEEE Trans. Circuits & Systems. II, vol. 48, no. 3, pp.225-232, 2001.
[11] Z. Zang, "Application of wavelets to envelope-constrained analog filter design for communication channel equalisation", International Conf on Signal Processing, 1998.
[12] M.R. Mackenzie and A. K. Tieu, "Hermite neural network correlation and application", IEEE Trans. on Signal Processing, vol. 51, no. 12, pp.3210-3219, 2003.
[13] M.R. Mackenzie and A. K. Tieu, "Gaussian Filters and Filter Synthesis Using a Hermite/Laguerre Neural Network", IEEE Trans. on Neural Networks, vol. 15, no. 1, pp.206-214, Jan 2004.
[14] J.A. Ney da Silva and M.L.R. de Campos, "Spectrally Efficient UWB Pulse Shaping With Application on Orthogonal PSM", IEEE Trans. on Communications, vol. 55, no. 2, pp.313-322, Feb 2007.