基于改进度量学习的煤矿井下行人重识别方法研究

Research on personnel re-recognition method in coal mine underground based on improved metric learning

  • 摘要: 传统基于度量学习的煤矿井下行人重识别方法中,由于度量学习忽略正负样本绝对距离,造成损失函数梯度消失或梯度弥散,导致井下人员位置信息识别精度不高。针对该问题,提出了一种基于改进度量学习的煤矿井下行人重识别方法。首先,采用基于手工设计特征的井下人员特征提取方法,对颜色空间、纹理空间等特征进行手动加工提炼,丰富特征维度。然后,采用欧氏距离对人员高维特征进行相似性计算。最后,提出一种改进的三重损失函数,通过在传统三重损失函数中加入自适应权重,增加有效样本的权重,解决了由于忽略正负样本绝对距离导致的梯度消失或梯度弥散问题。将传统识别方法与基于改进度量学习的煤矿井下行人重识别方法进行了累积匹配特征曲线验证、识别速率验证,结果表明:① 基于改进度量学习的煤矿井下行人重识别方法在相似样本个数为50左右时,样本匹配概率达100%。② 在2种不同标定大小图像的推理耗时上,基于改进度量学习的煤矿井下行人重识别方法较传统重识别方法分别减少了44,68 ms。③ 基于改进度量学习的煤矿井下行人重识别方法在舍弃行人头脚部分图像后表现更好,在相似样本个数为42左右时,样本匹配概率达100%。

     

    Abstract: In the traditional personnel re-recognition method in coal mine underground based on metric learning, because metric learning ignores the absolute distance between positive and negative samples, the gradient of the loss function disappears or disperses. This results in low recognition precision of underground personnel position information. In order to solve this problem, a personnel re-recognition method in coal mine underground based on improved metric learning is proposed. Firstly, a feature extraction method for underground personnel based on manual design features is adopted to manually process and extract features such as color space and texture space, enriching the feature dimensions. Secondly, Euclidean distance is used to calculate the similarity of high-dimensional features of personnel. Finally, an improved triple loss function is proposed. Adding adaptive weights to the traditional triple loss function increases the weight of effective samples. It solves the problem of gradient disappearance or dispersion caused by ignoring the absolute distance between positive and negative samples. The traditional recognition method is compared with the personnel re-recognition method in coal mine underground based on improved metric learning for cumulative matching feature curve verification and recognition rate verification. The results show the following points. ① The personnel re-recognition method in coal mine underground based on improved metric learning has a sample matching probability of 100% when the number of similar samples is around 50. ② The personnel re-recognition method in coal mine underground based on improved metric learning reduces the inference time of two different calibration size images by 44 ms and 68 ms, respectively, compared to traditional re-recognition methods. ③ The personnel re-recognition method in coal mine underground based on improved metric learning performs better after discarding the images of personnel heads and feet. It has a sample matching probability of 100% when the number of similar samples is around 42.

     

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