基于改进PSPNET网络语义分割模型的煤炭图像识别方法

J. Gao, Kaihua Cui
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引用次数: 0

摘要

为了实现煤矿的智能化和自动化,煤炭识别起着至关重要的作用。为了进一步提高智能煤炭识别的准确率和速度,本文提出了一种基于改进PSPNET网络的语义分割模型。(1)采用轻量级的MobilenetV2模块作为主干特征提取网络。(2)在金字塔池化模块(PPM)中引入卷积块注意模块(CBAM),增强了网络提取细节特征的能力,有效融合了空间信息和通道信息;(3)采用数据增强和图像特征增强方法克服样本分布差异,增强模型泛化能力,适应不同应用场景下煤岩识别任务。在自制的煤炭分割数据集上对该方法进行了测试,并与未改进的PSPNET、Hernet、U-net和DeeplabV3+模型在Miou均值、识别精度、边缘细节识别、模型大小和参数数量等方面进行了比较。实验结果表明,与其他模型相比,改进后的PSPNET网络不仅具有较低的计算复杂度和参数数量,而且具有更强的煤细节特征提取能力、更高的分割精度和更好的处理效率。最后,对改进后的PSPNET模型进行了训练,并在一个煤岩图像分割数据集上进行了图像特征增强测试。改进后的PSPNET网络精度、MIU和MPA分别达到65.04、73.15和74.27。可以看出,改进后的网络具有优越的特征提取能力和计算效率,可以实现煤表面图像的识别。验证了该方法在实际煤岩图像识别任务中的可行性和有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coal Image Recognition Method Based on Improved Semantic Segmentation Model of PSPNET Network
To implement the intelligence and automation of coal mines, coal recognition plays a crucial role. In order to further improve the accuracy and speed of intelligent coal recognition, this paper proposes a semantic segmentation model based on an improved PSPNET network. (1) The lightweight MobilenetV2 module is used as the backbone feature extraction network. Compared to traditional networks, it has fewer parameters while achieving higher recognition accuracy and speed.(2) The Convolutional Block Attention Module (CBAM) is introduced into the Pyramid Pooling Module (PPM) to enhance the network's ability to extract detailed features and effectively fuse spatial and channel information, thus improving the segmentation accuracy of the model.(3) Data augmentation and image feature enhancement methods are employed to overcome sample distribution differences, enhance model generalization, and adapt to coal-rock recognition tasks in different application scenarios. The proposed approach is tested on a self-made coal segmentation dataset and compared with the unimproved PSPNET, Hernet, U-net, and DeeplabV3+ models in terms of Mean Intersection over Union (Miou), recognition accuracy, edge detail recognition, model size, and parameter count. Experimental results demonstrate that compared to other models, the improved PSPNET network not only has lower computational complexity and parameter count but also exhibits stronger coal detail feature extraction capability, higher segmentation accuracy, and better processing efficiency.Finally, the improved PSPNET model was trained and tested on a coal rock image segmentation dataset with image feature enhancement.The accuracy, MIU and MPA of the improved PSPNET network reached 65.04, 73.15 and 74.27 respectively.It can be seen that the improved network has superior feature extraction ability and computational efficiency to achieve coal surface image recognition. This verifies the feasibility and effectiveness of the proposed method in the actual coal rock image recognition task.
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