# Differences

This shows you the differences between two versions of the page.

sep:courses:bob_slides [2008/12/10 19:08]
claudio
sep:courses:bob_slides [2015/05/27 02:06] (current)
Line 3: Line 3:
Here you find the presentation slides of classes taught by Bob Clapp during the Fall of 2008. Here you find the presentation slides of classes taught by Bob Clapp during the Fall of 2008.
Most of them are on subjects covered in the textbook but with lots of different diagrams to Most of them are on subjects covered in the textbook but with lots of different diagrams to
- help understanding. Two additional presentations introduce the subjects of angle-gathers and + help understanding. Two additional presentations introduce subjects covered in 3D-Seismic Imaging
-3D-seismics. +taught by Prof.Biondo Biondi, during the Spring quarter.
||| **Presentation Slides** ||||| ||| **Presentation Slides** |||||
^ **Chapter **   ^ **Description ** ^ **Download ** ^ ^ **Chapter **   ^ **Description ** ^ **Download ** ^
-| **1 ** | You'll be introduced to different acquisition geometries exemplified by some data and stacking charts. Moreover, you'll learn the three dimensions of a 2D dataset and have a detailed description of the program synmarine. | {{sep:courses:labs210:bob:bei-chapter1.pdf|chapter1.pdf}}| +| **1 ** | You'll be introduced to different **acquisition geometries** exemplified by some data and stacking charts. Moreover, you'll learn the three dimensions of a 2D dataset and have a detailed description of the program synmarine. | {{sep:courses:labs210:bob:bei-chapter1.pdf|chapter1.pdf}}|
-| **2 ** | Forward and adjoint operators are the concept of pushing and pulling are explained using as example the task of writing a program that downward shifts traces.| {{sep:courses:labs210:bob:bei-chapter2.pdf|chapter2.pdf}}| +| **2 ** | **Forward and adjoint** operators and the concept of pushing and pulling are explained, using as example the task of writing a program that downward shifts traces.| {{sep:courses:labs210:bob:bei-chapter2.pdf|chapter2.pdf}}|
-| **4 ** | You'll be introduced to different acquisition geometries exemplified by some data and stacking charts. Moreover, you'll learn the three dimensions of a 2D dataset and have a detailed description of the program synmarine. | {{sep:courses:labs210:bob:bei-chapter4.pdf|chapter4.pdf}}| +| **3 ** | **Waves in Strata** | {{sep:courses:labs210:bob:bei-chapter3.pdf|chapter3.pdf}}|
-| **5 ** | You'll be introduced to different acquisition geometries exemplified by some data and stacking charts. Moreover, you'll learn the three dimensions of a 2D dataset and have a detailed description of the program synmarine. | {{sep:courses:labs210:bob:bei-chapter5.pdf|chapter5.pdf}}| +| **4 ** | **Normal moveout and stacking** operators are explained. | {{sep:courses:labs210:bob:bei-chapter4.pdf|chapter4.pdf}}|
-| **7 ** | You'll be introduced to different acquisition geometries exemplified by some data and stacking charts. Moreover, you'll learn the three dimensions of a 2D dataset and have a detailed description of the program synmarine. | {{sep:courses:labs210:bob:bei-chapter7.pdf|chapter7.pdf}}| +| **5 ** | The basic geometry of migrating a dipping reflector is presented. | {{sep:courses:labs210:bob:bei-chapter5.pdf|chapter5.pdf}}|
-| **9 ** | You'll be introduced to different acquisition geometries exemplified by some data and stacking charts. Moreover, you'll learn the three dimensions of a 2D dataset and have a detailed description of the program synmarine. | {{sep:courses:labs210:bob:bei-chapter9.pdf|chapter9.pdf}}|+| **6 ** | **Waves and Fourier Sum** | {{sep:courses:labs210:bob:bei-chapter6.pdf|chapter6.pdf}}|
+| **7 ** | **Downward continuation of wavefields** is explained and migration of seismic data by downward continuation is introduced with the support of the exploding reflector concept. | {{sep:courses:labs210:bob:bei-chapter7.pdf|chapter7.pdf}}|
+| **9 ** | Quick introduction to **finite-difference migration**. | {{sep:courses:labs210:bob:bei-chapter9.pdf|chapter9.pdf}}|
||| **Subjects not covered in the book** ||||| ||| **Subjects not covered in the book** |||||
^ **Description ** ^ **Download ** ^ ^ **Description ** ^ **Download ** ^
-| You'll be introduced to different acquisition geometries exemplified by some data and stacking charts. Moreover, you'll learn the three dimensions of a 2D dataset and have a detailed description of the program synmarine. | {{sep:courses:labs210:bob:bei-chapter1.pdf|chapter1.pdf}}| +| Here you'll find different subjects ranging from the differences between 2D and 3D seismic to time X depth imaging and Kirchhoff X wave-equation migration. | {{sep:courses:labs210:bob:bei-2dvs3d.pdf|2dvs3d.pdf}}|
-| You'll be introduced to different acquisition geometries exemplified by some data and stacking charts. Moreover, you'll learn the three dimensions of a 2D dataset and have a detailed description of the program synmarine. | {{sep:courses:labs210:bob:bei-chapter2.pdf|chapter2.pdf}}|+| If you are interested on the results of migrating with an **inaccurate velocity model**, take a look at the examples using Marmousi data. | {{sep:courses:labs210:bob:bei-angle-pspi.pdf|pspi.pdf}}|
+| Reverse Time Migration | {{sep:courses:labs210:bob:bei-rtm.pdf|rtm.pdf}}|
+| Introduction to multiples attenuation | {{sep:courses:labs210:bob:multiplelecture.pdf|multiple.pdf}} |
+| Here are two papers explaining the computation of **angle-domain common image gathers** [[http://sep.stanford.edu/public/docs/sep100/marie1.pdf|(ADCIGs)]] and prestack migration using **DSR equation plus split-step correction** [[http://scitation.aip.org/getpdf/servlet/GetPDFServlet?filetype=pdf&id=GPYSA7000061000005001412000001&idtype=cvips&prog=normal|(DSR plus split-step)]]. |  |
/web/html/data/attic/sep/courses/bob_slides.1228936080.txt.gz · Last modified: 2015/05/26 22:40 (external edit)