Book contents
- Frontmatter
- Contents
- Preface
- Notation
- 1 THE TOMOGRAPHY PROBLEM
- 2 THE FORWARD PROBLEM: RANGE-INDEPENDENT
- 3 CURRENTS
- 4 THE FORWARD PROBLEM: RANGE-DEPENDENT
- 5 OBSERVATIONAL METHODS
- 6 THE INVERSE PROBLEM: DATA-ORIENTED
- 7 THE INVERSE PROBLEM: MODEL-ORIENTED
- 8 THE BASIN SCALE
- EPILOGUE. THE SCIENCE OF OCEAN ACOUSTIC TOMOGRAPHY
- APPENDIX
- References
- Index of Authors & Subjects
Preface
Published online by Cambridge University Press: 04 May 2010
- Frontmatter
- Contents
- Preface
- Notation
- 1 THE TOMOGRAPHY PROBLEM
- 2 THE FORWARD PROBLEM: RANGE-INDEPENDENT
- 3 CURRENTS
- 4 THE FORWARD PROBLEM: RANGE-DEPENDENT
- 5 OBSERVATIONAL METHODS
- 6 THE INVERSE PROBLEM: DATA-ORIENTED
- 7 THE INVERSE PROBLEM: MODEL-ORIENTED
- 8 THE BASIN SCALE
- EPILOGUE. THE SCIENCE OF OCEAN ACOUSTIC TOMOGRAPHY
- APPENDIX
- References
- Index of Authors & Subjects
Summary
Over drinks in the Cosmos Club in 1979, Athelstan Spilhaus, who had perfected the bathythermograph for measuring temperature profiles to predict the ranges at which submarines could be detected acoustically, held forth that it should be done the other way around: the measured sonar transmission should serve to determine the ocean temperature field. Unknown to Spilhaus, we were in Washington to persuade the Office of Naval Research and the National Science Foundation to fund an experiment to do just that.
In seismology, the inversion of travel times to map the interior of the Earth has been the time-honored procedure, since the Earth is not readily accessible to direct intrusive measurements. In medicine, intrusive methods are viewed with some reluctance (at least on the part of the patient), and this has led to the development of computed tomographic inverse methods using X-rays. In contrast, the oceans are accessible to direct intrusive measurements; the limits are set by the availability of costly platforms for adequate sampling. Unlike the seismological and medical applications, ocean time variability is an essential component, and the requirements for sampling in space and time are severe. With only a few research vessels plying the world's oceans, it is not surprising that the first century of oceanography had a strong climatological flavor.
It came as a great shock in the 1960s that the oceans, like the atmosphere, had an active weather at all depths. The storms within the sea are called eddies.
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- Ocean Acoustic Tomography , pp. xi - xiiPublisher: Cambridge University PressPrint publication year: 1995