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A neuromorphic physiological signal processing system based on VO2 memristor for next-generation human-machine interface

Yuan Rui, Pek Jun Tiw, Lei Cai, Zhiyu Yang, Chang Liu, Teng Zhang, Chen Ge, Ru Huang, Yuchao Yang

2023Nature Communications192 citationsDOIOpen Access PDF

Abstract

Abstract Physiological signal processing plays a key role in next-generation human-machine interfaces as physiological signals provide rich cognition- and health-related information. However, the explosion of physiological signal data presents challenges for traditional systems. Here, we propose a highly efficient neuromorphic physiological signal processing system based on VO 2 memristors. The volatile and positive/negative symmetric threshold switching characteristics of VO 2 memristors are leveraged to construct a sparse-spiking yet high-fidelity asynchronous spike encoder for physiological signals. Besides, the dynamical behavior of VO 2 memristors is utilized in compact Leaky Integrate and Fire (LIF) and Adaptive-LIF (ALIF) neurons, which are incorporated into a decision-making Long short-term memory Spiking Neural Network. The system demonstrates superior computing capabilities, needing only small-sized LSNNs to attain high accuracies of 95.83% and 99.79% in arrhythmia classification and epileptic seizure detection, respectively. This work highlights the potential of memristors in constructing efficient neuromorphic physiological signal processing systems and promoting next-generation human-machine interfaces.

Topics & Concepts

Neuromorphic engineeringMemristorComputer scienceInterface (matter)SIGNAL (programming language)Signal processingSpike (software development)EncoderArtificial neural networkBrain–computer interfaceArtificial intelligenceComputer architectureComputer hardwareElectronic engineeringNeuroscienceElectroencephalographyDigital signal processingEngineeringMaximum bubble pressure methodProgramming languageOperating systemBiologySoftware engineeringBubbleParallel computingAdvanced Memory and Neural ComputingPhotoreceptor and optogenetics researchNeuroscience and Neural Engineering
A neuromorphic physiological signal processing system based on VO2 memristor for next-generation human-machine interface | Litcius