seismic processing 中文意思是什麼

seismic processing 解釋
震波圖分析
  • seismic : adj 地震(性)的;由地震引起的;易生地震的。 a seismic area 震域;震區。 the seismic centre [focu...
  1. Processing methods and application of wide - azimuth angle seismic data in fangjiatai area

    范家臺地區寬方位角地震資料處理方法與應用
  2. A research on mountain seismic data processing methods

    山地地震資料處理方法研究
  3. This is the manipulation or processing of the received seismic data.

    這就是對所接收的地震資料進行加工或處理。
  4. The frontal structure of longmenshan in the west of sichuan is very complex, showing intense structure deformation in overthrust belt, high structure amplitude, steep stratigraphic dip, developed fault blocks, complex seismic wave field, frequent change of lateral velocity, and poor image of post - stack time migration processing

    摘要川西龍門山前緣構造非常復雜,逆掩推覆構造帶構造形變強烈,構造幅度大,地層傾角陡,斷塊發育,地震波場復雜,速度橫向變化大,常規疊后時間偏移處理成像效果較差。
  5. 3d seismic data processing methods for data from tbm area and their effects

    塔巴廟地區三維地震資料處理方法與效果
  6. Processing method of seismic data of the south yellow sea basin

    南黃海盆地地震資料處理方法初探
  7. Since 1980s, non - seismic geophysical instrumentation has achieved great progress in its acquisition accuracy, gathering styles and diversification of parameters, which provides new approaches for petroleum exploration in the newly developed area of western china and southern marine carbonate area, and also makes higher demands on data processing and inter pretation

    摘要20世紀80年代以來,非地震地球物理勘探儀器有了長足的進步,採集精度的提高,採集手段與參數的多樣化,為我國西部新區和南方海相碳酸鹽巖地區的油氣勘探提供了新的方法和途徑,同時對數據處理與解釋也提出了更高的要求。
  8. With practical engineering examples, this paper deals with the collection of surface wave signal along with seismic refraction exploration, the utilization of surface wave components to make analysis during data processing, the thickness division of overburden bed, strongly - weathered bed, intermediately - weathered bed and weakly - weathered bed in combination with the refraction data, and mutual reflection and interpretation of the burial condition of the bedrock surface

    筆者結合工程實例,介紹了在地震折射勘探中同時採集面波信號,在資料處理時利用面波組份進行分析,配合折射資料對測區覆蓋層、強風化層、中風化層及弱風化層厚度進行劃分,同時相互映證解釋基巖面的埋藏情況。
  9. Seismic processing method of 3d converted wave

    三維轉換波地震資料處理方法
  10. The 3d anti 3c seismic processing flow established is used in processing of the real seismic data, achieving high quality velocity ratio spectrum and good non - hyperbolic nmo correction and stacking of 3d converted wave

    應用所建立的三維三分量地震資料處理流程,對某實際地震資料進行了處理,得到了較高質量的三維轉換波速度比譜,轉換波非雙曲動校正和疊加取得了較好效果。
  11. For processing of 3d and 3c seismic data, the reflected p - waves can be processed with the conventional methods, while the reflected converted waves can not be processed with the conventional p - wave processing methods, because their travel paths are asymmetrical, their common midpoint gathers are no longer common reflection point gathers, and their time - distance equation is non hyperbolic

    在三維三分量地震勘探資料處理中,對于反射縱波資料可以採用常規方法進行處理;而對于反射轉換波資料,由於其傳播路徑的非對稱性,轉換波共中心道集不再是共反射點道集,轉換波時距方程也不是雙曲方程,因此不能採用常規縱波處理方法來處理轉換波資料。
  12. The crosswell seismic data processing mainly consists of two aspects : one is crosswell tomography imaging processing, and another is crosswell back wave stacking imaging processing

    井間地震資料數據處理主要包括兩個方面:井間層析成像處理和井間反射波疊加成像處理兩大部分。
  13. By means of processing of testing data, we got high frequency tomography velocity imaging and very high frequency stacking imaging of reflects. we use crosswell tomography imaging and reflect imaging compares with sound wave, density logging and lithology analysis to complete the interpretation of crosswell seismic data result

    具體內容包括原始資料編輯和井口排列規格化、初至拾取、估算速度模型、 vsp - cdp成像、 p波二維層析成像和p - p波反射剖面疊加等,論文中給出了詳細的處理流程。
  14. Based on the simple describle of the basic principle of anti - disturbance high - resolution shallow seismic exploration, all the sources, the properties of digital seismic instruments, the receive method and conditions, the observation system, and the data processing and interpretation of the urban active fault detecting are discussed emphasizedly

    在簡述抗干擾高解析度淺層地震勘探基本原理的基礎上,重點論述了城市活斷層的抗干擾高解析度淺層地震勘探的震源激發、數字地震儀性能、接收方式與接收條件、觀測系統以及數據處理與資料解釋等。
  15. The disturbing wave analyses and seismic data processing for mountain topography in yingxiongling area, qaidam basin

    英雄嶺山地地震干擾波分析與處理
  16. According to these accomplishments, several techniques are expounded emphatically in this paper, including 3d refraction statics, coherent noise suppression by prestack wave field separating ( prestack fx noise attenuation ), 3d prestack multiple domain random noise attenuation, multiples attenuation, nmo of unsymmetrical hyperbola, dynamic replacement of wave equation, surface - inconsistent residual static, super bin stacking, poststack depth migration and prestack depth migration. all the techniques have been applied in seismic processing of 2d, 3d and wide - line profiling and obtained good results

    本文根據項目組研究成果,重點閘述了三維折射波靜校正技術,疊前波場分離相干噪音壓制方法(疊前fx去噪) ,疊前三維多域隨機噪音衰減技術,多次波衰減技術,非對稱雙曲線動校正技術,波動方程動態替換技術,非地表一致性的剩餘時差靜校正技術,超面元迭加處理技術,疊后深度偏移處理,疊前深度偏移處理等。
  17. Experimental result and practice shows it is possible using seismic information forecasting subtle trap. integrated using geology % log, drilling data, specia ! seismic processing technique -, interpretation technique, including high precision horizon calibration technique, 3d seismic visualizing interpretation, seismic coherence analyze, attribute analyze, logging - constrained inversion, time frequency analyze, ann forecasting technique, subtle trap object is identified and interpreted. finally, advantage object of subtle trap in this area is determined

    綜合地質、測井和鉆井資料,依靠先進的地震特殊處理和解釋新技術,包括高精度的層位標定技術、三維可視化解釋技術、地震相干技術、屬性分析技術、測井約束反演技術、時頻分析技術、多參數油藏檢測技術和神經網路預測等技術,對隱蔽油氣藏目標進行識別、解釋和成藏研究,最後指出工區內隱蔽油氣藏的有利目標。
  18. Based on the simple understanding of normal seismic processing, this paper has carried out deep research on the problems of deep prospecting in seismic data processing, such as s / n ( signal to noise ratio ), velocity analysis and residual nmo of unsymmetrical hyperbola, stacking and imaging of complex rays and migration arc. until now tens of accomplishments have been achieved

    在簡單了解地震資料常規處理的基礎上,本文針對當前深層資料的問題,緊緊圍繞著深層地震數據處理技術研究需要解決的重點問題,即信噪比問題、非對稱雙曲線的速度分析與剩餘動校正時差問題、復雜射線的迭加及偏移成像問題和偏移畫弧問題等,進行了深入的研究工作,目前已完成十多個成果。
  19. Seismic processing of 2d seismic data in ardong block in tarim basin

    塔里木盆地阿東區塊二維地震資料處理技術探討
  20. Prestack noise attenuation application to high resolution seismic processing

    疊前噪音衰減技術在高解析度處理中的應用
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