利用ResNet-152 FPN改进基于调制变形ConvNets v2主干掩码评分的边界盒和实例分割精度

Pub Date : 2023-07-21 DOI:10.1142/s0219467824500542

Suresh Shanmugasundaram, Natarajan Palaniappan

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引用次数: 0

摘要

一项具有挑战性的任务是确保深度学习网络能够自己学习预测精度。ground truth和instance mask之间的交集-over- union (IoU)决定了mask的质量。分类评分与掩膜质量无相关性。我们的任务是研究这个问题，并了解预测的实例掩码的准确性。该网络通过比较预测的掩码和相应的实例特征来回归MaskIoU。掩码评分策略确定掩码评分与掩码质量之间的无序性，并对参数进行相应的调整。对物体几何变化的适应能力决定了可变形卷积网络的性能。利用增强的建模能力和更强的训练，重构的可变形卷积神经网络提高了对相关图像区域的聚焦能力。调制技术的引入拓宽了变形建模的范围，并在网络内全面集成了变形卷积，提高了建模能力。该网络借助DCNv2的特征模拟方案学习与基于区域的卷积神经网络(R-CNN)特征的分类能力及其对象焦点相似的特征。DCNv2的特征模拟方案指导网络训练，有效地控制这种增强的建模能力。所提出的掩码评分R-CNN网络的主干采用ResNet-152 FPN和DCNv2网络设计。基于DCNv2网络的掩码评分R-CNN网络也在ResNet-50和ResNet-101骨干网上进行了测试。使用该网络在COCO基准和cityscape数据集上实现了高精度的实例分割和目标检测。

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Improvement of Bounding Box and Instance Segmentation Accuracy Using ResNet-152 FPN with Modulated Deformable ConvNets v2 Backbone-based Mask Scoring R-CNN

A challenging task is to make sure that the deep learning network learns prediction accuracy by itself. Intersection-over-Union (IoU) amidst ground truth and instance mask determines mask quality. There is no relationship between classification score and mask quality. The mission is to investigate this problem and learn the predicted instance mask’s accuracy. The proposed network regresses the MaskIoU by comparing the predicted mask and the respective instance feature. The mask scoring strategy determines the disorder among mask score and mask quality, then adjusts the parameters accordingly. Adaptation ability to the object’s geometric variations decides deformable convolutional network’s performance. Using increased modeling power and stronger training, focusing ability on pertinent image regions is improved by a reformulated Deformable ConvNets. The introduction of modulation technique, which broadens the deformation modeling scope, and the integration of deformable convolution comprehensively within the network enhance the modeling power. The features which resemble region-based convolutional neural network (R-CNN) feature’s classification capability and its object focus are learned by the network with the help of feature mimicking scheme of DCNv2. Feature mimicking scheme of DCNv2 guides the network training to efficiently control this enhanced modeling capability. The backbone of the proposed Mask Scoring R-CNN network is designed with ResNet-152 FPN and DCNv2 network. The proposed Mask Scoring R-CNN network with DCNv2 network is also tested with other backbones ResNet-50 and ResNet-101. Instance segmentation and object detection on COCO benchmark and Cityscapes dataset are achieved with top accuracy and improved performance using the proposed network.

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