Subsurface Structure Analysis Using Computational Interpretation and Learning: A Visual Signal Processing Perspective

Ghassan Alregib; Mohamed Deriche; Zhiling Long; Haibin Di; Zhen Wang; Yazeed Alaudah; Muhammad Amir Shafiq; Motaz Alfarraj

doi:10.1109/MSP.2017.2785979

Subsurface Structure Analysis Using Computational Interpretation and Learning: A Visual Signal Processing Perspective

Ghassan Alregib
, Mohamed Deriche
, Zhiling Long
, Haibin Di
, Zhen Wang
, Yazeed Alaudah
, Muhammad Amir Shafiq
, Motaz Alfarraj

Center for Energy and Geo Processing
King Fahd University of Petroleum and Minerals

Research output: Contribution to journal › Article › peer-review

82 Scopus citations

Abstract

Understanding Earth's subsurface structures has been and continues to be an essential component of various applications such as environmental monitoring, carbon sequestration, and oil and gas exploration. By viewing the seismic volumes that are generated through the processing of recorded seismic traces, researchers were able to learn from applying advanced image processing and computer vision algorithms to effectively analyze and understand Earth's subsurface structures. In this article, we first summarize the recent advances in this direction that relied heavily on the fields of image processing and computer vision. Second, we discuss the challenges in seismic interpretation and provide insights and some directions to address such challenges using emerging machine-learning algorithms.

Original language	English
Pages (from-to)	82-98
Number of pages	17
Journal	IEEE Signal Processing Magazine
Volume	35
Issue number	2
DOIs	https://doi.org/10.1109/MSP.2017.2785979
State	Published - Mar 2018
Externally published	Yes

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title = "Subsurface Structure Analysis Using Computational Interpretation and Learning: A Visual Signal Processing Perspective",

abstract = "Understanding Earth's subsurface structures has been and continues to be an essential component of various applications such as environmental monitoring, carbon sequestration, and oil and gas exploration. By viewing the seismic volumes that are generated through the processing of recorded seismic traces, researchers were able to learn from applying advanced image processing and computer vision algorithms to effectively analyze and understand Earth's subsurface structures. In this article, we first summarize the recent advances in this direction that relied heavily on the fields of image processing and computer vision. Second, we discuss the challenges in seismic interpretation and provide insights and some directions to address such challenges using emerging machine-learning algorithms.",

author = "Ghassan Alregib and Mohamed Deriche and Zhiling Long and Haibin Di and Zhen Wang and Yazeed Alaudah and Shafiq, \{Muhammad Amir\} and Motaz Alfarraj",

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AU - Alregib, Ghassan

AU - Deriche, Mohamed

AU - Long, Zhiling

AU - Di, Haibin

AU - Wang, Zhen

AU - Alaudah, Yazeed

AU - Shafiq, Muhammad Amir

AU - Alfarraj, Motaz

PY - 2018/3

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AB - Understanding Earth's subsurface structures has been and continues to be an essential component of various applications such as environmental monitoring, carbon sequestration, and oil and gas exploration. By viewing the seismic volumes that are generated through the processing of recorded seismic traces, researchers were able to learn from applying advanced image processing and computer vision algorithms to effectively analyze and understand Earth's subsurface structures. In this article, we first summarize the recent advances in this direction that relied heavily on the fields of image processing and computer vision. Second, we discuss the challenges in seismic interpretation and provide insights and some directions to address such challenges using emerging machine-learning algorithms.

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IS - 2

ER -

Subsurface Structure Analysis Using Computational Interpretation and Learning: A Visual Signal Processing Perspective

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