• journal_title：Geophysics
• Contributor：Sergi Ventosa ; Sylvain Le Roy ; Iréne Huard ; Antonio Pica ; Hérald Rabeson ; Patrice Ricarte ; Laurent Duval
• Publisher：Society of Exploration Geophysicists
• Date：2012-11-01
• Format：text/html
• Language：en
• Identifier：10.1190/geo2011-0318.1
• journal_abbrev：Geophysics
• issn：0016-8033
• volume：77
• issue：6
• firstpage：V183
• section：Signal Processing

Adaptive subtraction is a key element in predictive multiple-suppression methods. It minimizes misalignments and amplitude differences between modeled and actual multiples, and thus reduces multiple contamination in the data set after subtraction. Due to the high crosscorrelation between their waveforms, the main challenge resides in attenuating multiples without distorting primaries. As they overlap on a wide frequency range, we split this wide-band problem into a set of more tractable narrow-band filter designs, using a 1D complex wavelet frame. This decomposition enables a single-pass adaptive subtraction via complex, single-sample (unary) Wiener filters, consistently estimated on overlapping windows in a complex wavelet transformed domain. Each unary filter compensates for amplitude differences within its frequency support, and can correct small and large misalignment errors through phase and integer delay corrections. This approach greatly simplifies the matching filter estimation and, despite its simplicity, narrows the gap between 1D and standard adaptive 2D methods on field data.