Date post: | 31-Dec-2015 |
Category: |
Documents |
Upload: | leigh-duffy |
View: | 34 times |
Download: | 1 times |
An automatic wave equation migration velocity analysis by
differential semblance optimization
The Rice Inversion Project
Theory
• Nonlinear Local Optimization
– Objective function
– Gradient of the objective function
• Remark: – Objective function requires to be smooth .
– Differential semblance objective function is smooth.
Objective function
I : offset domain image
c : velocity
h : offset parameter
P : differential semblance operator
|| ||: L2 norm
M : set of smooth velocity functions
Gradient calculation
derivative cross correlate*
cross correlate reference field
cross correlate
R0S0
image
DS* DR*
gradient
down down
up up
S*z R*
z
Downward continuation and upward continuationDefinitions:
SZ RZ
Gradient smoothing using spline evaluation
Vimage I
gimage
migration
differential migration*
spline
spline*
Vmodel
gmodel
M : set of smooth velocity functions
Optimization
• Objective function evaluation
• Gradient calculation
BFGS algorithm for nonlinear iteration
• Update search direction
loop
cout Iout
Initial iterate:
Image (v0 = 1.8km/sec)
Image space: 401 by 80
Model space: 4 by 4
Offset image Angle image
Offset image Angle image
Initial iterate:
Image (v0=1.8km/sec)
Image space: 921 by 60
Model space: 6 by 6
Shot gathers far away from the low velocity lense
Shot gathers near the low velocity lense
Seismogram