Domain knowledge-assisted multi-objective evolutionary algorithm for channel selection in brain-computer interface systems

Liu, Tianyu; Ye, An

doi:10.3389/fnins.2023.1251968

Cited by 2 publications

(1 citation statement)

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“…Recently, there has been a rising trend in utilizing the correlation matrix of channels to address channel selection optimization problems. This is primarily because the correlation matrix can depict the interactions and cooperative activities among different brain regions (Liu and Ye, 2023 ). It has been demonstrated that due to the non-uniform connectivity patterns in the brain, the correlation matrix of EEG signals is typically sparse (Liu et al, 2019 ).…”

Section: Introductionmentioning

confidence: 99%

Two-stage sparse multi-objective evolutionary algorithm for channel selection optimization in BCIs

Liu,

Wu,

et al. 2024

Front. Hum. Neurosci.

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BackgroundChannel selection has become the pivotal issue affecting the widespread application of non-invasive brain-computer interface systems in the real world. However, constructing suitable multi-objective problem models alongside effective search strategies stands out as a critical factor that impacts the performance of multi-objective channel selection algorithms. This paper presents a two-stage sparse multi-objective evolutionary algorithm (TS-MOEA) to address channel selection problems in brain-computer interface systems.MethodsIn TS-MOEA, a two-stage framework, which consists of the early and late stages, is adopted to prevent the algorithm from stagnating. Furthermore, The two stages concentrate on different multi-objective problem models, thereby balancing convergence and population diversity in TS-MOEA. Inspired by the sparsity of the correlation matrix of channels, a sparse initialization operator, which uses a domain-knowledge-based score assignment strategy for decision variables, is introduced to generate the initial population. Moreover, a Score-based mutation operator is utilized to enhance the search efficiency of TS-MOEA.ResultsThe performance of TS-MOEA and five other state-of-the-art multi-objective algorithms has been evaluated using a 62-channel EEG-based brain-computer interface system for fatigue detection tasks, and the results demonstrated the effectiveness of TS-MOEA.ConclusionThe proposed two-stage framework can help TS-MOEA escape stagnation and facilitate a balance between diversity and convergence. Integrating the sparsity of the correlation matrix of channels and the problem-domain knowledge can effectively reduce the computational complexity of TS-MOEA while enhancing its optimization efficiency.

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Section: Introductionmentioning

confidence: 99%

Two-stage sparse multi-objective evolutionary algorithm for channel selection optimization in BCIs

Liu,

Wu,

et al. 2024

Front. Hum. Neurosci.

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View full text Add to dashboard Cite

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Enhancing infectious disease prediction model selection with multi-objective optimization: an empirical study

Xu,

Chan,

Haron

2024

PeerJ Computer Science

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As the pandemic continues to pose challenges to global public health, developing effective predictive models has become an urgent research topic. This study aims to explore the application of multi-objective optimization methods in selecting infectious disease prediction models and evaluate their impact on improving prediction accuracy, generalizability, and computational efficiency. In this study, the NSGA-II algorithm was used to compare models selected by multi-objective optimization with those selected by traditional single-objective optimization. The results indicate that decision tree (DT) and extreme gradient boosting regressor (XGBoost) models selected through multi-objective optimization methods outperform those selected by other methods in terms of accuracy, generalizability, and computational efficiency. Compared to the ridge regression model selected through single-objective optimization methods, the decision tree (DT) and XGBoost models demonstrate significantly lower root mean square error (RMSE) on real datasets. This finding highlights the potential advantages of multi-objective optimization in balancing multiple evaluation metrics. However, this study’s limitations suggest future research directions, including algorithm improvements, expanded evaluation metrics, and the use of more diverse datasets. The conclusions of this study emphasize the theoretical and practical significance of multi-objective optimization methods in public health decision support systems, indicating their wide-ranging potential applications in selecting predictive models.

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Domain knowledge-assisted multi-objective evolutionary algorithm for channel selection in brain-computer interface systems

Cited by 2 publications

References 68 publications

Two-stage sparse multi-objective evolutionary algorithm for channel selection optimization in BCIs

Two-stage sparse multi-objective evolutionary algorithm for channel selection optimization in BCIs

Enhancing infectious disease prediction model selection with multi-objective optimization: an empirical study

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