LEADER 03005oam  2200301z- 450 
001 9911006966103321
005 20180925092634.0
010   $a1-56080-350-9
010   $a1-5231-1611-0
035   $a(CKB)4100000006674032
035   $a(EXLCZ)994100000006674032
100   $a20190311c2017uuuu  -u-         -
101 0 $aeng
200 10$aHigh-resolution seismic exploration /$fQing-Zhong Li ; Wei Liu, managing editor ; Jeff Mestayer and Timothy Baker, volume editors ; Hua-Wei Zhou, translation team leader
210   $cSEG (Society of Exploration Geophysicists)
311   $a1-56080-349-5 
327   $aIntroduction -- Basic concepts of resolution and signal-to-noise ratio -- Subsurface attenuation of high-frequency signals and the empirical Vp-Q relation -- Recording range of seismometers for high-frequency signals -- The characteristics of high-frequency noise and methods to reduce it in field acquisition -- Static corrections and normal moveout -- The importance of proper deconvolution -- Dip-moveout correction, migration and trace interpolation -- Ways to improve signal-to-noise ratio -- Interpretation of high-resolution seismic profiles -- Challenges and improvements in impedance -- Additional seismic invrsion methods -- Processing principles and reference flow for high-resolution seismic data -- Future perspectives -- Progress and prospects of high-resolution sesimic exploration in the new century -- Summary cards.
330   $aCapitalizing on knowledge learned over decades and combining underlying theory with practical cases, this book presents a systematic analysis of the issues involved in high-resolution seismic exploration. Translated from the original Chinese edition published in 1993 by Petroleum Industry Press and now updated to reflect contemporary developments, the book is adept at clarifying the objectives and approaches toward better precision in seismic prospecting. It provides innovative views on fundamental concepts including: perspective resolution and perspective S/N; the empirical relationship between compressional velocity (Vp) and absorption coefficient (Q); constructing basin absorption models; understanding sand layer tracking; improving dynamic and static corrections of near-surface effects as well as deconvolution; achieving maximum effective bandwidth of seismic data; and regressive seismic impedance inversion. It is an excellent reference for those involved in seismic prospecting research, data processing, and geologic interpretation, and it is recommended for geoscientists and engineers as well as professors and graduate students.--$cSource other than Library of Congress.
606   $aSeismic prospecting
606   $aSeismic prospecting$2fast$3(OCoLC)fst01111259
615  0$aSeismic prospecting.
615  7$aSeismic prospecting.
676   $a622/.1592
700   $aLi$b Qing-Zhong$01823595
906   $aBOOK
912   $a9911006966103321
996   $aHigh-resolution seismic exploration$94390335
997   $aUNINA