光学精密工程
光學精密工程
광학정밀공정
OPTICS AND PRECISION ENGINEERING
2009年
10期
2569-2575
,共7页
孙锋%王忠仁%陈祖斌%樊丹丹
孫鋒%王忠仁%陳祖斌%樊丹丹
손봉%왕충인%진조빈%번단단
可控震源%三元伪随机序列%编码%相关噪声
可控震源%三元偽隨機序列%編碼%相關譟聲
가공진원%삼원위수궤서렬%편마%상관조성
seismic vibrator%ternary pseudo-random sequence%code%correlation noise
为满足地震信号分辨率和信噪比的要求,针对地震勘探用可控震源的特点,对伪随机编码扫描方式进行了研究.讨论了二元伪随机扫描工作方式的特点,并提出了三元伪随机扫描工作方式.研究了伪随机码的原理,给出了伪随机码的生成方法,利用得到的伪随机码设计了实际应用的伪随机码序列.将所研制的三元伪随机编码扫描信号发生器嵌入到电磁驱动可控震源上,并进行了实际测试,测试结果显示调制频率对最终的相关结果有很大影响.对得到的自相关函数的分析表明,采用三元伪随机编码扫描方式得到的信噪比比采用二元伪随机编码扫描方式提高了9%,得到了适用于地震勘探的伪随机编码扫描信号.
為滿足地震信號分辨率和信譟比的要求,針對地震勘探用可控震源的特點,對偽隨機編碼掃描方式進行瞭研究.討論瞭二元偽隨機掃描工作方式的特點,併提齣瞭三元偽隨機掃描工作方式.研究瞭偽隨機碼的原理,給齣瞭偽隨機碼的生成方法,利用得到的偽隨機碼設計瞭實際應用的偽隨機碼序列.將所研製的三元偽隨機編碼掃描信號髮生器嵌入到電磁驅動可控震源上,併進行瞭實際測試,測試結果顯示調製頻率對最終的相關結果有很大影響.對得到的自相關函數的分析錶明,採用三元偽隨機編碼掃描方式得到的信譟比比採用二元偽隨機編碼掃描方式提高瞭9%,得到瞭適用于地震勘探的偽隨機編碼掃描信號.
위만족지진신호분변솔화신조비적요구,침대지진감탐용가공진원적특점,대위수궤편마소묘방식진행료연구.토론료이원위수궤소묘공작방식적특점,병제출료삼원위수궤소묘공작방식.연구료위수궤마적원리,급출료위수궤마적생성방법,이용득도적위수궤마설계료실제응용적위수궤마서렬.장소연제적삼원위수궤편마소묘신호발생기감입도전자구동가공진원상,병진행료실제측시,측시결과현시조제빈솔대최종적상관결과유흔대영향.대득도적자상관함수적분석표명,채용삼원위수궤편마소묘방식득도적신조비비채용이원위수궤편마소묘방식제고료9%,득도료괄용우지진감탐적위수궤편마소묘신호.
To improve the resolution and Signal to Noise Ratio(SNR) of seismic signals,the sweeping mode of pseudo-random code of a seismic vibrator was investigated.The sweeping mode of binary pseudo-random code was discussed,then a new sweeping mode for ternary pseudo-random code was presented.The principle of the pseudo-random code was researched and how to generate the pseudorandom code was given.Based on the obtained pseudo-random code,a pseudo-random code sequence was designed for practical applications.Furthermore,a signal generator of ternary sweeping for the pseudo-random code was embedded into the vibrator,and tested results show that modulation frequency has significant effects on the final self-correlation results.Analysis results on self-correlation function indicate that the SNR obtained from the sweeping mode of ternary pseudo-random code has been improved by 9% as compared with that of the sweeping mode of binary pseudo-random code,which means that obtained sweeping signals are suitable for the seismic exploration.
