Abstract

BackgroundMotor imagery can elicit brain oscillations in Rolandic mu rhythm and central beta rhythm, both originating in the sensorimotor cortex. In contrast with simple limb motor imagery, less work was reported about compound limb motor imagery which involves several parts of limbs. The goal of this study was to investigate the differences of the EEG patterns between simple limb motor imagery and compound limb motor imagery, and discuss the separability of multiple types of mental tasks.MethodsTen subjects participated in the experiment involving three tasks of simple limb motor imagery (left hand, right hand, feet), three tasks of compound limb motor imagery (both hands, left hand combined with right foot, right hand combined with left foot) and rest state. Event-related spectral perturbation (ERSP), power spectral entropy (PSE) and spatial distribution coefficient were adopted to analyze these seven EEG patterns. Then three algorithms of modified multi-class common spatial patterns (CSP) were used for feature extraction and classification was implemented by support vector machine (SVM).ResultsThe induced event-related desynchronization (ERD) affects more components within both alpha and beta bands resulting in more broad ERD bands at electrode positions C3, Cz and C4 during left/right hand combined with contralateral foot imagery, whose PSE values are significant higher than that of simple limb motor imagery. From the topographical distribution, simultaneous imagination of upper limb and contralateral lower limb certainly contributes to the activation of more areas on cerebral cortex. Classification result shows that multi-class stationary Tikhonov regularized CSP (Multi-sTRCSP) outperforms other two multi-class CSP methods, with the highest accuracy of 84% and mean accuracy of 70%.ConclusionsThe work implies that there exist the separable differences between simple limb motor imagery and compound limb motor imagery, which can be utilized to build a multimodal classification paradigm in motor imagery based brain-computer interface (BCI) systems.

Highlights

  • Motor imagery can elicit brain oscillations in Rolandic mu rhythm and central beta rhythm, both originating in the sensorimotor cortex

  • Seven kinds of mental tasks have been designed, involving three tasks of simple limb motor imagery, three tasks of compound limb motor imagery combining hand with hand/ foot and rest state

  • Compared with simple limb motor imagery, the event-related desynchronization (ERD) feature bands of compound limb motor imagery overlap with that of the former one but more broad as well, especially in alpha rhythm (8-11Hz) at electrode positions C3 and C4 during left hand combined with right foot imagery and right hand combined with left foot imagery

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Summary

Introduction

Motor imagery can elicit brain oscillations in Rolandic mu rhythm and central beta rhythm, both originating in the sensorimotor cortex. The goal of this study was to investigate the differences of the EEG patterns between simple limb motor imagery and compound limb motor imagery, and discuss the separability of multiple types of mental tasks. As early as 1996, the Graz BCI system was reported to discriminate between three simple limb motor imagery tasks (left hand, right hand, right foot), where band power estimations from three bipolar EEG channels were presented to a neuronal network-based classifier [8]. Motor imagery has already been applied as a brain switch in a hybrid BCI system by detecting the postimagery beta event-related synchronization (ERS) of foot movement imagination to turn on/off a four-step electrically driven hand orthosis with two flickering lights in order to reduce the false positive rate during resting period [10]

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