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| Mechanism and effect analysis of vibroseis vehicle suppressing urban noise |
Hua HUANG1( ), Zhong-Sheng LI1,2(), Ge-Hui ZHENG1,3, Da-lin WU4, Zhong-Sheng WANG1,2, Zi-Heng YUAN1,5 |
1. School of Geology Engineering and Geomatics,Chang'an University,Xi'an 710054,China
2. Key Laboratory of Western China's Mineral Resources and Geological Engineering,Ministry of Education,Xi'an 710054,China
3. Sichuan Metallurgical Geological Exploration Institute,Chengdu 050031,China
4. Shaanxi Coal Geophysical Prospecting and Surveying Co.,Ltd,Xi'an 710005,China
5. China Petroleum Logging Co.,Ltd,Xi'an 710077,China |
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Abstract In order to analyze the effect of suppressing background noise of the vibroseis vehicle,the authors,based on the working principle and cross-correlation theory of the vibroseis,simulated calculation of the reflected signal generated by the geological model by adding random Gaussian white noise and actual road traffic interference noise.The results show that the vibroseis can suppress random noise equivalent to 27~81 times the reflected signal strength or 5~27 times of actual road traffic interference noise from single excitation to 8 repeated excitations.The engineering seismic exploration example shows that,in the context of strong urban traffic interference,the vibroseis can be used as the excitation source,and both the exploration accuracy and the exploration depth can meet the engineering needs.
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Received: 09 September 2019
Published: 28 August 2020
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Corresponding Authors:
Zhong-Sheng LI
E-mail: 2629755769@qq.com;lizhsh@chd.edu.cn
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Schematic diagram of the seismic exploration principle of vibroseis
a、b、c—reflected waves of three different subsurface interfaces respectively;d—mixture wave signal of the figure a~figure c;e—reflected waveform after cross-correlation between the mixed wave signal and the vary-frequency sweep signal
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| 地层界面 | 双层反射时间/s | 反射系数 | | 第一层界面 | 0.5 | 0.6 | | 第二层界面 | 1.1 | -0.4 | | 第三层界面 | 1.5 | 0.3 |
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Geological model
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Analysis of random noise effect of single excitation of vary-frequency scanning signal
a—reflected wave signal;b—Gaussian noise signal with an average amplitude value of 10;c、d、e—cross-correlation between reflected and scanned signals with different random noise intensities(average amplitude values of 5、10 and 15 respectively)
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Analysis of the effect of repeated excitation times on random noise suppression
a~f—cross-correlation effect of repeated excitation times of 1、2、4、8、16 and 32
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The survey line on the main road of the city with heavy traffic
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The real noise record
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Analysis of single excitation cross-correlation effect in real environment
a—30 channels (131#~160#) city noise record;b)~d—cross-correlation between reflected and scanned signals at different noise intensities (average amplitude values of 1、2 and 3, respectively)
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Analysis of the effect of repeated excitation times on real noise suppression
a~e—cross-correlation effect of repeated excitation times of 1、2、4、8 and 16
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An original field record by vibroseis (12 times repeated excitation)
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The actual stacked profile(partial)
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Geological drilling profile (F3)
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