Low complex Hardware Architecture Design Methodology for Cubic Spline Interpolation Technique for Assistive Technologies

The Hardware implementation of the Empirical mode decomposition algorithm has attracted attention in recent years due to its data-driven nature, adaptability, and ability to process non-stationary and non-linear signal analysis. Due to its high computation requirements for the sifting process, it is...

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Veröffentlicht in:2022 20th IEEE Interregional NEWCAS Conference (NEWCAS) S. 70 - 74
Hauptverfasser: Cheduluri, Ganesh, Bhardwaj, Swati, Naik, Ganesh R, Hansigida, Vidhumouli, Nali, Appa Rao, Acharyya, Amit
Format: Tagungsbericht
Sprache:Englisch
Veröffentlicht: IEEE 19.06.2022
Schlagworte:
Classification algorithms
Co-ordinate Rotation Digital Computer(CORDIC)
Complexity theory
Computer architecture
Cubic Spline Interpolation
Empirical Mode Decomposition
Hardware
Interpolation
Intrinsic Mode Function
Resource management
Surface EMG signal
Tridiagonal Matrix Algorithm
Very large scale integration
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Zusammenfassung:The Hardware implementation of the Empirical mode decomposition algorithm has attracted attention in recent years due to its data-driven nature, adaptability, and ability to process non-stationary and non-linear signal analysis. Due to its high computation requirements for the sifting process, it is difficult to achieve low hardware complexity. The proposed design introduces an efficient VLSI architecture for the Cubic spline interpolation technique based on the Co-Ordinate Rotation Digital Computer(CORDIC) for generating envelops in the EMD algorithm. The design was implemented on Xilinx ZynqU ltraScale+ZCU 102 Evaluation Board and synthesized using Vivado 2018.1 Design Suite with the fixed-point data format and generated envelops using the sifting procedure.
DOI:10.1109/NEWCAS52662.2022.9842110