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基于YOLO-ResNet地震爆破下药安全智能检测新方法

王勤耕罗仁泽胡善政胡峰邱俊杰敬龙江孙伟鹏

石油物探2026，Vol.65Issue(3)：403-412,10.

石油物探2026，Vol.65Issue(3)：403-412,10.DOI:10.12431/issn.1000-1441.2025.0167

基于YOLO-ResNet地震爆破下药安全智能检测新方法

A novel intelligent detection method for seismic explosive charging safety based on YOLO-ResNet

王勤耕 ¹罗仁泽 ²胡善政 ¹胡峰 ¹邱俊杰 ³敬龙江 ¹孙伟鹏¹

作者信息

1. 中国石油集团东方地球物理勘探有限责任公司西南物探分公司,四川成都 610213
2. 西南石油大学油气藏地质及开发工程全国重点实验室,四川成都 610540||西南石油大学电气信息学院,四川成都 610540
3. 西南石油大学电气信息学院,四川成都 610540
折叠

摘要

Abstract

Downhole charging is a critical procedure in seismic prospecting that utilizes explosive sources.Strict adherence to operation specifications is crucial to ensuring the safety of personnel and equipment.Currently,manual supervision is widely used for monitoring downhole charging operations.However,this approach suffers from inherent limitations such as discontinuous tracking,poor real-time response,and susceptibility to human error,making it difficult to eliminate potential safety hazards.Moreover,the application of existing deep learning methods to intelligent detection in this scenario is challenged by several factors:small target size,low video resolution,and high similarity of operation details.These give rise to difficulties in small object detection,fine-grained action recognition,and real-time performance.To address these issues,this study proposes a novel intelligent detection method for seismic explosive charging based on the YOLO-ResNet architecture.This method begins with decoding video segments of the charging operation.It uses a YOLOv5-based multi-task detection module to extract information on the spatial locations and working postures of both personnel and detonator boxes.This is followed by the integration of a ResNet101-based fine-grained discrimination module to identify key operation details.Particularly targeting critical safety procedures,such as locking the detonator box and personnel grounding to release static electricity,the detection system introduces an innovative action-duration judgment mechanism to enhance the accuracy and reliability of action recognition.Experimental results demonstrate that the proposed method achieves a detection accuracy of 90%for grounding operations and 86%for detonator box locking,while maintaining an inference speed of 45 frames per second.This performance strikes a balance between high accuracy and real-time detection capability.This method not only shows significant application potential in seismic explosive charging operations but also offers a new framework for the intelligent monitoring of complex industrial operations through video analysis.

关键词

地震采集/小目标检测/智能监测/深度学习

Key words

seismic acquisition/small object detection/intelligent monitoring/deep learning

分类

能源科技

引用本文复制引用

王勤耕,罗仁泽,胡善政,胡峰,邱俊杰,敬龙江,孙伟鹏..基于YOLO-ResNet地震爆破下药安全智能检测新方法[J].石油物探,2026,65(3):403-412,10.

石油物探

ISSN：1000-1441

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