A real-time FPGA-based implementation for detection and sorting of bio-signals

Francisco Javier Iniguez-Lomeli; Yannick Bornat; Sylvie Renaud; Jose Hugo Barron-Zambrano; Horacio Rostro-Gonzalez

doi:10.1007/s00521-021-05853-7

A real-time FPGA-based implementation for detection and sorting of bio-signals

Francisco Javier Iniguez-Lomeli, Yannick Bornat, Sylvie Renaud, Jose Hugo Barron-Zambrano^*, Horacio Rostro-Gonzalez

^*Corresponding author for this work

Research output: Indexed journal article › Article › peer-review

7 Citations (Scopus)

Abstract

Extracting and analyzing relevant information from bio-signal recordings are complex tasks in which action potential detection and sorting processes take place, moreover if these are performed in real time. In this regard, the present paper introduces real-time FPGA-based architectures for detection and sorting of bio-signals, in particular macaque and human pancreatic signals. Action potential detection is performed by using an adaptive threshold. Also, during this process we have identified six different action potential shapes from the signals, which have been used to classify the action potentials. Our implementation runs at a frequency of 100 MHz with a low resource consumption for both architectures, and action potentials can be also observed in real time during a simulation in an OLED display.

Original language	English
Pages (from-to)	12121-12140
Number of pages	20
Journal	Neural Computing and Applications
Volume	33
Issue number	18
DOIs	https://doi.org/10.1007/s00521-021-05853-7
Publication status	Published - Sept 2021
Externally published	Yes

Keywords

Action
Bio-signals
FPGA
Sorting
VHDL

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10.1007/s00521-021-05853-7

Cite this

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abstract = "Extracting and analyzing relevant information from bio-signal recordings are complex tasks in which action potential detection and sorting processes take place, moreover if these are performed in real time. In this regard, the present paper introduces real-time FPGA-based architectures for detection and sorting of bio-signals, in particular macaque and human pancreatic signals. Action potential detection is performed by using an adaptive threshold. Also, during this process we have identified six different action potential shapes from the signals, which have been used to classify the action potentials. Our implementation runs at a frequency of 100 MHz with a low resource consumption for both architectures, and action potentials can be also observed in real time during a simulation in an OLED display.",

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AU - Renaud, Sylvie

AU - Barron-Zambrano, Jose Hugo

AU - Rostro-Gonzalez, Horacio

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A real-time FPGA-based implementation for detection and sorting of bio-signals

Abstract

Keywords

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