Seismic Signal Adaptive Endpoint Detection Based on Human-Computer Interaction

IF 0.4 Q4 TELECOMMUNICATIONS
Yue Wang
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引用次数: 0

Abstract

: With the development of artificial intelligence technology, robot technology has become more mature, and human-computer interaction technology has become more widely used. China is a country with frequent earthquakes. The application of robot technology to seismic signal detection is of great significance to solve various problems in earthquake disasters. The research purpose of this paper is to study adaptive endpoint detection of seismic signals based on human-computer interaction technology. Based on the analysis of adaptive noise reduction of signal autocorrelation function, this paper references the concept of autocorrelation similarity distance, and proposes human-machine interaction technology Seismic signal adaptive endpoint detection, discusses the description of noise and noisy signals based on autocorrelation similarity distance, and summarizes the adaptive endpoint detection method of seismic signals based on human-computer interaction technology, and gives the specific implementation of the algorithm Compared with the experimental detection results obtained by this method and the time-domain waveform envelope and the method of manually detecting the time-table seismic signal endpoint detection, the research results in this paper show that the accuracy of this algorithm is as high as 96.11%, Under the condition of noise ratio, the end position of the seismic signal can still be detected more accurately by using this algorithm.
基于人机交互的地震信号自适应端点检测
随着人工智能技术的发展,机器人技术日趋成熟,人机交互技术得到更广泛的应用。中国是一个地震频发的国家。机器人技术在地震信号检测中的应用对解决地震灾害中的各种问题具有重要意义。本文的研究目的是研究基于人机交互技术的地震信号自适应端点检测。在分析信号自相关函数自适应降噪的基础上,引用自相关相似距离的概念,提出了人机交互技术地震信号自适应端点检测,讨论了基于自相关相似距离的噪声和噪声信号的描述,总结了基于人机交互技术的地震信号自适应端点检测方法。并给出了算法的具体实现,将该方法得到的实验检测结果与时域波形包络和人工检测时间表地震信号端点检测的方法进行比较,本文的研究结果表明,该算法的准确率高达96.11%,在噪声比条件下,使用该算法仍然可以更准确地检测到地震信号的端点位置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.40
自引率
16.70%
发文量
23
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