Abstract
This paper proposes a generic FPGA realization of an IP core for fractional-order integration and differentiation based on the GrünwaldLetnikov approximation. All fractional-order dependent terms are approximated to simpler relations using curve fitting to enable an efficient hardware realization. Compared to previous works, the proposed design introduces enhancements in the fractional-order range covering both integration and differentiation. An error analysis between software and hardware results is presented for sine, triangle and sawtooth signals. The proposed generic design is realized on XC7A100T FPGA achieving frequency of 9.328 MHz and validated experimentally for a sine input signal on the oscilloscope. The proposed unified generic design is suitable for biomedical signal processing applications. In addition, it can be employed as a laboratory tool for fractional calculus education. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.
Authors
Monir M.S., Sayed W.S., Madian A.H., Radwan A.G., Said L.A.
Keywords
Document Type
Journal
Source
Electronics (Switzerland), Doi:10.3390/electronics11132052