Efficient Spiking Neural Network for Cross-Subject Lower Limb Joint Angle Estimation from Surface Electromyography

To extend the SAFE-Net architecture to handle more complex and variable human movement patterns, several strategies can be implemented: Data Collection: Gather a diverse range of data encompassing various movement patterns, including irregular and spontaneous movements, to train the model on a wider spectrum of activities. Feature Engineering: Incorporate additional features or sensors to capture more nuanced information about the movements, such as inertial sensors, pressure sensors, or additional muscle groups for sEMG data collection. Model Adaptation: Modify the architecture to include more layers or modules that can capture the intricacies of complex movements, such as hierarchical attention mechanisms or recurrent neural networks for temporal dependencies. Transfer Learning: Utilize transfer learning techniques to adapt the model trained on cyclic motions to new movement patterns, leveraging the knowledge gained from the initial training on simpler activities. Data Augmentation: Augment the existing dataset with variations in speed, direction, intensity, and other parameters to simulate a broader range of movement patterns and enhance the model's generalization capabilities. By implementing these strategies, SAFE-Net can be enhanced to effectively handle a wider array of human movement patterns beyond the cyclic motions studied in the current work.