Students' Classroom Behavior Detection System Incorporating Deformable DETR with Swin Transformer and Light-Weight Feature Pyramid Network

Zhifeng Wang, Jialong Yao, Chunyan Zeng, Longlong Li, Cheng Tan
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引用次数: 1

Abstract

Artificial intelligence (AI) and computer vision technologies have gained significant prominence in the field of education. These technologies enable the detection and analysis of students’ classroom behaviors, providing valuable insights for assessing individual concentration levels. However, the accuracy of target detection methods based on Convolutional Neural Networks (CNNs) can be compromised in classrooms with multiple targets and varying scales, as convolutional operations may result in the loss of location information. In contrast, transformers, which leverage attention mechanisms, have the capability to learn global features and mitigate the information loss caused by convolutional operations. In this paper, we propose a students’ classroom behavior detection system that combines deformable DETR with a Swin Transformer and light-weight Feature Pyramid Network (FPN). By employing a feature pyramid structure, the system can effectively process multi-scale feature maps extracted by the Swin Transformer, thereby improving the detection accuracy for targets of different sizes and scales. Moreover, the integration of the CARAFE lightweight operator into the FPN structure enhances the network’s detection accuracy. To validate the effectiveness of our approach, extensive experiments are conducted on a real dataset of students’ classroom behavior. The experimental results demonstrate a significant 6.1% improvement in detection accuracy compared to state-of-the-art methods. These findings highlight the superiority of our proposed network in accurately detecting and analyzing students’ classroom behaviors. Overall, this research contributes to the field of education by addressing the limitations of CNN-based target detection methods and leveraging the capabilities of transformers to improve accuracy. The proposed system showcases the benefits of integrating deformable DETR, Swin Transformer, and the lightweight FPN in the context of students’ classroom behavior detection. The experimental results provide compelling evidence of the system’s effectiveness and its potential to enhance classroom monitoring and assessment practices.
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基于Swin变压器和轻量化特征金字塔网络的可变形DETR学生课堂行为检测系统
人工智能(AI)和计算机视觉技术在教育领域获得了显著的突出。这些技术可以检测和分析学生的课堂行为,为评估个人注意力集中水平提供有价值的见解。然而,基于卷积神经网络(Convolutional Neural Networks, cnn)的目标检测方法在多目标和不同规模的教室中,由于卷积运算可能导致位置信息的丢失,其准确性会受到影响。相比之下,利用注意力机制的变压器具有学习全局特征和减轻卷积操作造成的信息丢失的能力。在本文中,我们提出了一个学生课堂行为检测系统,该系统结合了可变形DETR、Swin变压器和轻量级特征金字塔网络(FPN)。该系统采用特征金字塔结构,对Swin Transformer提取的多尺度特征图进行有效处理,从而提高了对不同尺寸和尺度目标的检测精度。此外,CARAFE轻量级算子集成到FPN结构中,提高了网络的检测精度。为了验证我们方法的有效性,我们在学生课堂行为的真实数据集上进行了大量的实验。实验结果表明,与最先进的方法相比,检测精度显著提高了6.1%。这些发现突出了我们所提出的网络在准确检测和分析学生课堂行为方面的优势。总的来说,这项研究通过解决基于cnn的目标检测方法的局限性和利用变压器的能力来提高准确性,为教育领域做出了贡献。该系统展示了在学生课堂行为检测中集成可变形DETR、Swin Transformer和轻量级FPN的好处。实验结果提供了令人信服的证据,证明该系统的有效性及其在加强课堂监测和评估实践方面的潜力。
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