FPMT：用于交通事故检测的增强型半监督模型

arXiv - CS - Machine Learning Pub Date : 2024-09-12 DOI:arxiv-2409.07839

Xinying Lu, Jianli Xiao

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引用次数: 0

摘要

对于交通事故检测而言，数据和标签的获取显然是资源密集型的，这使得半监督交通事故检测成为一项艰巨而又重要的挑战。因此，本文重点关注采用半监督学习方式的交通事故检测。它在 MixText 框架内提出了一个名为 FPMT 的半监督学习模型。数据增强模块引入生成对抗网络（Generative Adversarial Networks）来平衡和扩展数据集。在隐藏空间的混合过程中，它采用了概率伪混合机制来增强正则化和提高模型精度。在训练策略上，它首先对所有数据进行无监督训练，然后对标注数据的子集进行监督微调，最终完成半监督训练的目标。通过在四个真实数据集上的经验验证，我们的 FPMT 模型在各种指标上都表现出了卓越的性能。尤其值得注意的是，即使在标签率较低的情况下，它的性能也很稳定。

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FPMT: Enhanced Semi-Supervised Model for Traffic Incident Detection

For traffic incident detection, the acquisition of data and labels is notably resource-intensive, rendering semi-supervised traffic incident detection both a formidable and consequential challenge. Thus, this paper focuses on traffic incident detection with a semi-supervised learning way. It proposes a semi-supervised learning model named FPMT within the framework of MixText. The data augmentation module introduces Generative Adversarial Networks to balance and expand the dataset. During the mix-up process in the hidden space, it employs a probabilistic pseudo-mixing mechanism to enhance regularization and elevate model precision. In terms of training strategy, it initiates with unsupervised training on all data, followed by supervised fine-tuning on a subset of labeled data, and ultimately completing the goal of semi-supervised training. Through empirical validation on four authentic datasets, our FPMT model exhibits outstanding performance across various metrics. Particularly noteworthy is its robust performance even in scenarios with low label rates.

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arXiv - CS - Machine Learning

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