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Are we properly using our brains in seismic interpretation?

Are we properly using our brains in seismic interpretation?
Are we properly using our brains in seismic interpretation?
Behind the workstation screen is an extraordinary array of technology to which, quite correctly, we devote considerable attention. But we devote far less to the extraordinary technology in front of the screen—the human brain. Our business performance relies fundamentally on human interpretation of increasingly complex images, yet image interpretation by the human visual processing system is an incredibly complex—and imperfect—task. Seismic interpretation relies on the human view of sophisticated and complex images; we need to improve our human interpretation as much as we seek to improve the images themselves. Knowledge of the way the human visual system works can enhance the way we use our best technology (see also Donnelly, Welland, Cave and Menneer, in press). The results of recent experiments by the authors, designed to address some of the specific issues of seismic data display and interpretation, provide the basis for effectively applying this knowledge.
1070-485X
142-144
Welland, Michael
d55c124d-1f88-441b-81c1-2a662e8d4570
Donnelly, Nick
05c83b6b-ee8d-4c9d-85dc-c5dcd6b5427b
Menneer, Tammy
d684eaf6-1494-4004-9973-cb8ccc628efa
Welland, Michael
d55c124d-1f88-441b-81c1-2a662e8d4570
Donnelly, Nick
05c83b6b-ee8d-4c9d-85dc-c5dcd6b5427b
Menneer, Tammy
d684eaf6-1494-4004-9973-cb8ccc628efa

Welland, Michael, Donnelly, Nick and Menneer, Tammy (2006) Are we properly using our brains in seismic interpretation? The Leading Edge, 25 (2), 142-144. (doi:10.1190/1.2172303).

Record type: Article

Abstract

Behind the workstation screen is an extraordinary array of technology to which, quite correctly, we devote considerable attention. But we devote far less to the extraordinary technology in front of the screen—the human brain. Our business performance relies fundamentally on human interpretation of increasingly complex images, yet image interpretation by the human visual processing system is an incredibly complex—and imperfect—task. Seismic interpretation relies on the human view of sophisticated and complex images; we need to improve our human interpretation as much as we seek to improve the images themselves. Knowledge of the way the human visual system works can enhance the way we use our best technology (see also Donnelly, Welland, Cave and Menneer, in press). The results of recent experiments by the authors, designed to address some of the specific issues of seismic data display and interpretation, provide the basis for effectively applying this knowledge.

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Published date: February 2006

Identifiers

Local EPrints ID: 40205
URI: http://eprints.soton.ac.uk/id/eprint/40205
DOI: doi:10.1190/1.2172303
ISSN: 1070-485X
PURE UUID: 3a542235-d08d-4dc2-b767-68e5846dc0f7

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Date deposited: 04 Jul 2006
Last modified: 15 Mar 2024 08:17

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Contributors

Author: Michael Welland
Author: Nick Donnelly
Author: Tammy Menneer

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