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面向煤矿井下复杂光照环境的安全装备小目标检测模型OA

Small object detection model for safety equipment under complex lighting conditions in underground coal mines

中文摘要英文摘要

现有针对安全帽、自救器及矿灯等小目标检测方法在煤矿井下弱光与逆光并存条件下,存在对小目标检测适应性不足、训练阶段样本匹配不稳定等问题.在YOLOv11n框架基础上提出了一种面向煤矿井下复杂光照环境的小目标检测模型LSD-YOLO.在颈部网络引入光照感知空间-通道自适应调制(LASCAM)模块,对弱光与逆光场景下的特征响应进行通道仿射补偿与空间显著性调制;设计了频率感知小目标金字塔模块(FSPM),通过多尺度频率分解与高频调制强化小目标的细节表达;设计了一种弱光小目标友好损失函数(LSD-Loss),以增强对有效样本的学习信号,并引入尺度自适应任务对齐分配(SATAD)策略,使正样本匹配过程随目标尺度自适应调整,从而提升训练稳定性与小目标样本利用效率.实验结果表明:LSD-YOLO在检测精度上表现优异,mAP@0.5达到91.6%,优于所有对比模型;与基线模型YOLOv11n相比,LSD-YOLO的准确率、召回率和mAP@0.5分别提升了0.9%,1.2%和3.7%,有效提升了复杂井下场景下的目标检测性能;在模型复杂度方面,LSD-YOLO的参数量为4.1×106个,浮点运算量为8.7 GFLOPs,远低于RT-DETR-R18和YOLOv11s,推理速度达到104.1帧/s,能够满足实时检测要求;LSD-YOLO的mAP@0.5较RT-DETR-R18和YOLOv11s分别提高0.1%和0.2%,表明其在检测精度与模型复杂度之间取得了较好的平衡.

Existing small object detection methods for safety helmets,self-rescuers,and mining lamps show insufficient adaptability to small targets and unstable sample matching during training under underground coal mine conditions where low light and backlight coexist.Based on the YOLOv11n framework,a small object detection model for complex lighting conditions in underground coal mines,named LSD-YOLO,was proposed.In the neck network,a Lighting-Aware Spatial and Channel Adaptive Modulation(LASCAM)module was introduced to perform channel-wise affine compensation and spatial saliency modulation for feature responses under low-light and backlight scenarios.A Frequency-Aware Small-Object Pyramid Module(FSPM)was designed to enhance the detail representation of small objects through multi-scale frequency decomposition and high-frequency modulation.A Low-Light and Small-Object Detection Friendly Loss(LSD-Loss)was designed to enhance the learning signal of valid samples,and a Scale-Adaptive Task-Aligned Distribution(SATAD)strategy was introduced so that the positive sample matching process was adaptively adjusted according to object scale,thereby improving training stability and the utilization efficiency of small object samples.The results showed that LSD-YOLO achieved excellent detection performance,with mAP@0.5 reaching 91.6%,outperforming all comparison models.Compared with the baseline model YOLOv11n,the precision,recall,and mAP@0.5 of LSD-YOLO increased by 0.9%,1.2%,and 3.7%,respectively,effectively improving detection performance in complex underground scenarios.In terms of model complexity,LSD-YOLO had 4.1×106 parameters and 8.7 GFLOPs,which were much lower than those of RT-DETR-R18 and YOLOv11s,and the inference speed reached 104.1 frames/s,which met real-time detection requirements.The mAP@0.5 of LSD-YOLO was improved by 0.1%and 0.2%compared with RT-DETR-R18 and YOLOv11s,respectively,indicating a good balance between detection accuracy and model complexity.

沈凌志;李权;王鹏;季亮;吴航海;王琪

中煤科工集团常州研究院有限公司,江苏常州 213015||天地(常州)自动化股份有限公司,江苏常州 213015陕西陕煤黄陵矿业有限公司,陕西延安 727307中煤科工集团常州研究院有限公司,江苏常州 213015||天地(常州)自动化股份有限公司,江苏常州 213015中煤科工集团常州研究院有限公司,江苏常州 213015||天地(常州)自动化股份有限公司,江苏常州 213015中煤科工集团常州研究院有限公司,江苏常州 213015||天地(常州)自动化股份有限公司,江苏常州 213015中煤科工集团常州研究院有限公司,江苏常州 213015||天地(常州)自动化股份有限公司,江苏常州 213015

矿业与冶金

安全装备小目标检测YOLOv11n光照感知空间-通道自适应调制频率感知小目标金字塔弱光小目标友好损失函数尺度自适应任务对齐分配策略

safety equipmentsmall object detectionYOLOv11nLighting-aware spatial and channel adaptive modulationFrequency-aware small-object pyramidLow-light and small-object detection friendly lossScale-adaptive task-aligned distribution strategy

《工矿自动化》 2026 (4)

68-77,10

国家重点研发计划项目(2023YFC3009102-4)天地科技股份有限公司全重实验室项目(2025-TD-QZ004)天地(常州)自动化股份有限公司科研项目(2025TY2002).

10.13272/j.issn.1671-251x.2026030044

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