Offset dependent spreading loss correction

• Accurate algorithms are used to correct for losses in an offset dependent manner.
• Less precise prior corrections are backed off and replaced.
• Corrections for angular (offset) variation of receiver array sensitivity are made if significant.

Amplitude analysis

• Windowed trace amplitude variations are displayed as color-coded plots of CDP or Shot location v offset. Windowed trace amplitudes are decomposed into surface consistent components and used to:
  a) correct for systematic acquisition effects.
  b) monitor effects of processing on amplitude change with offset
• Horizon amplitudes are displayed either as color-coded horizon slices showing CDP location v offset or as line plots above gather displays

Angle/offset stacks

• Irreversible scaling operations and offset dependent processes present in the normal processing (imaging) sequence are eliminated to produce “true amplitude post-PSTM gathers”
• True amplitude gathers limited by angle or offset are three term NMO corrected, checked for flatness, re-picked if necessary and stacked to produce angle or offset limited fold normalized stacks
• Incidence angle ? for each sample is estimated on the assumption of hyperbolic moveout and no reflector dip
• Derived difference stacks (FAR-NEAR) or (FAR-NEAR)*NEAR are generated to highlight the location of data having unusual AVO behavior.

AVO attribute stacks

• Sample amplitudes A(?) of 3 term NMO corrected true amplitude gathers are analyzed and fitted to “Shuey’s” approximation to the Zoeppritz equations A(? )= A+B SIN2(? ) (accurate to about 30º)
• Statistically unreliable points and non-linear fits are rejected.
• Attribute A, also known as the Intercept “Stack” represents vertical incidence P wave reflectivity convolved with the average seismic wavelet
• Attribute B, also known as the Gradient “Stack” represents change of P reflectivity with SIN2(? ) convolved with the same wavelet. For normal decay of reflectivity with offset A and B have opposite polarity and A*B is negative

AVO hydrocarbon indicators

Attributes A and B can be combined to produce:

• (A* B)  
  This can be strong and positive for top and base of gas filled low impedance sandstones (Type 3 AVO anomaly)
• (A-B/)
  This can be non-zero where hydrocarbon present B is scaled to B/ so as to equal A on average
• (A+B)
  This can be anomalous at top of reflector above gas. Also known as “Poisson ratio Reflectivity”
• FLUID FACTOR
  A combination of A and B based on the local Vp/Vs ratio. Can be non-zero for gas filled reservoir.

AVO cross plots

Plots of A/B can be made and anomalous regions on these plots posted back onto section of A or B to identify their origin.