Time-dependent amplitude and phase information of stacked seismic data are processed independently using complex trace analysis in order to facilitate interpretation by improving resolution and decreasing random noise. We represent seismic traces using their envelopes and instantaneous phases obtained by the Hilbert transform. The proposed method reduces the amplitudes of the low-frequency components of the envelope, while preserving the phase information. Several tests are performed in order to investigate the behavior of the present method for resolution improvement and noise suppression. Applications on both I D and 2D synthetic data show that the method is capable of reducing the amplitudes and temporal widths of the side lobes of the i...
Seismic lines from different vintages frequently mis-tie where they intersect. The mis-ties may stem...
Evaluating the quality of seismic data based on the amplitude spectrum alone can be misleading, espe...
In this thesis, we present a novel artifact removal algorithm based on a seismic acquisition artifac...
Time-dependent amplitude and phase information of stacked seismic data are processed independently u...
The conventional seismic trace can be viewed as the real component of a complex trace which can be u...
A common theme in this thesis is the use of complex signal attributes to facilitate the processing, ...
We introduce and discuss a new filter for seismic signal enhancement through incoherent noise attenu...
In any area where near-surface earth structure causes one or more small time delays in seismic energ...
A seismic event can be characterized by three sets of attributes: (1) Wavelet attributes identify th...
In a seismic trace the location of a reflector is indicated by a reflection wavelet which consists o...
We have developed a method to decompose seismic records into atomic events, each defined by a smooth...
The prevention recognition and correction of wavelet instability is critical to exploration success ...
We present a new tool for efficient incoherent noise reduction for array data employing complex trac...
The paper proposes phase-frequency algorithms with equilibrium and non-equilibrium processing based ...
A trained analyst can frequently provide a rapid assessment of a seismic record and provide identifi...
Seismic lines from different vintages frequently mis-tie where they intersect. The mis-ties may stem...
Evaluating the quality of seismic data based on the amplitude spectrum alone can be misleading, espe...
In this thesis, we present a novel artifact removal algorithm based on a seismic acquisition artifac...
Time-dependent amplitude and phase information of stacked seismic data are processed independently u...
The conventional seismic trace can be viewed as the real component of a complex trace which can be u...
A common theme in this thesis is the use of complex signal attributes to facilitate the processing, ...
We introduce and discuss a new filter for seismic signal enhancement through incoherent noise attenu...
In any area where near-surface earth structure causes one or more small time delays in seismic energ...
A seismic event can be characterized by three sets of attributes: (1) Wavelet attributes identify th...
In a seismic trace the location of a reflector is indicated by a reflection wavelet which consists o...
We have developed a method to decompose seismic records into atomic events, each defined by a smooth...
The prevention recognition and correction of wavelet instability is critical to exploration success ...
We present a new tool for efficient incoherent noise reduction for array data employing complex trac...
The paper proposes phase-frequency algorithms with equilibrium and non-equilibrium processing based ...
A trained analyst can frequently provide a rapid assessment of a seismic record and provide identifi...
Seismic lines from different vintages frequently mis-tie where they intersect. The mis-ties may stem...
Evaluating the quality of seismic data based on the amplitude spectrum alone can be misleading, espe...
In this thesis, we present a novel artifact removal algorithm based on a seismic acquisition artifac...