Related papers: Enhancing Robustness of Asynchronous EEG-Based Movement Prediction using Classifier Ensembles

Enhancing Robustness of Asynchronous EEG-Based Movement Prediction using Classifier Ensembles

URL: http://arxiv.org/abs/2601.04286v1
Date: Wed, 07 Jan 2026 14:23:55 GMT
Title: Enhancing Robustness of Asynchronous EEG-Based Movement Prediction using Classifier Ensembles
Authors: Niklas Kueper, Kartik Chari, Elsa Andrea Kirchner,
Abstract summary: Stroke is one of the leading causes of disabilities.<n>It is required to detect the patient's intention to move to trigger the assistance of a robotic device.
Score: 2.2940141855172036
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Objective: Stroke is one of the leading causes of disabilities. One promising approach is to extend the rehabilitation with self-initiated robot-assisted movement therapy. To enable this, it is required to detect the patient's intention to move to trigger the assistance of a robotic device. This intention to move can be detected from human surface electroencephalography (EEG) signals; however, it is particularly challenging to decode when classifications are performed online and asynchronously. In this work, the effectiveness of classifier ensembles and a sliding-window postprocessing technique was investigated to enhance the robustness of such asynchronous classification. Approach: To investigate the effectiveness of classifier ensembles and a sliding-window postprocessing, two EEG datasets with 14 healthy subjects who performed self-initiated arm movements were analyzed. Offline and pseudo-online evaluations were conducted to compare ensemble combinations of the support vector machine (SVM), multilayer perceptron (MLP), and EEGNet classification models. Results: The results of the pseudo-online evaluation show that the two model ensembles significantly outperformed the best single model for the optimal number of postprocessing windows. In particular, for single models, an increased number of postprocessing windows significantly improved classification performances. Interestingly, we found no significant improvements between performances of the best single model and classifier ensembles in the offline evaluation. Significance: We demonstrated that classifier ensembles and appropriate postprocessing methods effectively enhance the asynchronous detection of movement intentions from EEG signals. In particular, the classifier ensemble approach yields greater improvements in online classification than in offline classification, and reduces false detections, i.e., early false positives.

Related papers

AHDMIL: Asymmetric Hierarchical Distillation Multi-Instance Learning for Fast and Accurate Whole-Slide Image Classification [51.525891360380285]
AHDMIL is an Asymmetric Hierarchical Distillation Multi-Instance Learning framework.<n>It eliminates irrelevant patches through a two-step training process.<n>It consistently outperforms previous state-of-the-art methods in both classification performance and inference speed.
arXiv Detail & Related papers (2025-08-07T07:47:16Z)
Clustering-Guided Multi-Layer Contrastive Representation Learning for Citrus Disease Classification [17.627760587507737]
Citrus is one of the most economically important fruit crops globally.<n> Accurate disease detection and classification serve as critical prerequisites for implementing targeted control measures.<n>Recent advancements in artificial intelligence, particularly deep learning-based computer vision algorithms, have substantially decreased time and labor requirements.
arXiv Detail & Related papers (2025-07-15T10:22:52Z)
An Efficient and Flexible Deep Learning Method for Signal Delineation via Keypoints Estimation [4.2807943283312095]
We present Keypoint Estimation for Electrocardiogram Delineation (KEED), a novel DL model designed for keypoint estimation. KEED organically offers an output aligned with clinical expectations. Remarkably, KEED significantly outperforms despite being optimized with an extremely limited annotated data.
arXiv Detail & Related papers (2024-07-24T08:13:10Z)
HARDC : A novel ECG-based heartbeat classification method to detect arrhythmia using hierarchical attention based dual structured RNN with dilated CNN [3.8791511769387625]
We have developed a novel hybrid hierarchical attention-based bidirectional recurrent neural network with dilated CNN (HARDC) method for arrhythmia classification. The proposed HARDC fully exploits the dilated CNN and bidirectional recurrent neural network unit (BiGRU-BiLSTM) architecture to generate fusion features. Our results indicate that an automated and highly computed method to classify multiple types of arrhythmia signals holds considerable promise.
arXiv Detail & Related papers (2023-03-06T13:26:29Z)
Improving Music Performance Assessment with Contrastive Learning [78.8942067357231]
This study investigates contrastive learning as a potential method to improve existing MPA systems. We introduce a weighted contrastive loss suitable for regression tasks applied to a convolutional neural network. Our results show that contrastive-based methods are able to match and exceed SoTA performance for MPA regression tasks.
arXiv Detail & Related papers (2021-08-03T19:24:25Z)
Visualizing Classifier Adjacency Relations: A Case Study in Speaker Verification and Voice Anti-Spoofing [72.4445825335561]
We propose a simple method to derive 2D representation from detection scores produced by an arbitrary set of binary classifiers. Based upon rank correlations, our method facilitates a visual comparison of classifiers with arbitrary scores. While the approach is fully versatile and can be applied to any detection task, we demonstrate the method using scores produced by automatic speaker verification and voice anti-spoofing systems.
arXiv Detail & Related papers (2021-06-11T13:03:33Z)
No Fear of Heterogeneity: Classifier Calibration for Federated Learning with Non-IID Data [78.69828864672978]
A central challenge in training classification models in the real-world federated system is learning with non-IID data. We propose a novel and simple algorithm called Virtual Representations (CCVR), which adjusts the classifier using virtual representations sampled from an approximated ssian mixture model. Experimental results demonstrate that CCVR state-of-the-art performance on popular federated learning benchmarks including CIFAR-10, CIFAR-100, and CINIC-10.
arXiv Detail & Related papers (2021-06-09T12:02:29Z)
Adversarial Feature Augmentation and Normalization for Visual Recognition [109.6834687220478]
Recent advances in computer vision take advantage of adversarial data augmentation to ameliorate the generalization ability of classification models. Here, we present an effective and efficient alternative that advocates adversarial augmentation on intermediate feature embeddings. We validate the proposed approach across diverse visual recognition tasks with representative backbone networks.
arXiv Detail & Related papers (2021-03-22T20:36:34Z)
Domain Adaptive Robotic Gesture Recognition with Unsupervised Kinematic-Visual Data Alignment [60.31418655784291]
We propose a novel unsupervised domain adaptation framework which can simultaneously transfer multi-modality knowledge, i.e., both kinematic and visual data, from simulator to real robot. It remedies the domain gap with enhanced transferable features by using temporal cues in videos, and inherent correlations in multi-modal towards recognizing gesture. Results show that our approach recovers the performance with great improvement gains, up to 12.91% in ACC and 20.16% in F1score without using any annotations in real robot.
arXiv Detail & Related papers (2021-03-06T09:10:03Z)
Multi-Lead ECG Classification via an Information-Based Attention Convolutional Neural Network [1.1720399305661802]
One-dimensional convolutional neural networks (CNN) have proven to be effective in pervasive classification tasks. We implement the Residual connection and design a structure which can learn the weights from the information contained in different channels in the input feature map. An indicator named mean square deviation is introduced to monitor the performance of a particular model segment in the classification task.
arXiv Detail & Related papers (2020-03-25T02:28:04Z)
Effect of Analysis Window and Feature Selection on Classification of Hand Movements Using EMG Signal [0.20999222360659603]
Recently, research on myoelectric control based on pattern recognition (PR) shows promising results with the aid of machine learning classifiers. By offering multiple class movements and intuitive control, this method has the potential to power an amputated subject to perform everyday life movements. We show that effective data preprocessing and optimum feature selection helps to improve the classification accuracy of hand movements.
arXiv Detail & Related papers (2020-02-02T19:03:23Z)

This list is automatically generated from the titles and abstracts of the papers in this site.