Dynamics and navigation of autonomous underwater vehicles for submarine gravity surveying

Author:

Kinsey James C.1,Tivey Maurice A.2,Yoerger Dana R.1

Affiliation:

1. Woods Hole Oceanographic Institution, Department of Applied Ocean Physics and Engineering, Woods Hole, Massachusetts, USA..

2. Woods Hole Oceanographic Institution, Department of Geology and Geophysics, Woods Hole, Massachusetts, USA..

Abstract

We investigated the effect of autonomous underwater vehicle (AUV) dynamics and navigation on underway submarine gravimetry. Our research was motivated by the need to obtain spatially dense marine gravity measurements close to the source of subkilometer-scale geologic features in the shallow oceanic crust. Such measurements have been previously obtained, for instance, with piloted submarines and towed sleds; however, the high cost and, in the case of on-bottom measurements, poor spatial sampling preclude routine acquisition of these measurements. Continuous underway gravity surveys with AUVs is a compelling cost-effective option, but this method requires separating the AUV accelerations from the measured gravity. We show that AUVs with a large distance between the center of buoyancy and the center of gravity have lower vertical accelerations than torpedo-shaped AUVs and consequentially are better suited for underway gravity surveys. Furthermore state estimators, which combine sensor measurements and models of the vehicle’s motion, provide superior estimates of the vehicle’s vertical accelerations than methods used in previous underway submarine gravity surveys. We simulated the use of these navigation methods in detecting dike swarms at the East Pacific Rise. Analysis showed that we can shorten filters used in reducing gravity data and consequentially provide improved measurements of the free-water anomaly with a minimal detectable spatial wavelength approximately 65% lower than previously reported results.

Publisher

Society of Exploration Geophysicists

Subject

Geochemistry and Petrology,Geophysics

Reference57 articles.

1. Bell-Aerospace, 1978, Marine gravity measuring system BGM 3: Technical report, Bell Aerospace Textron.

2. Ageev, M. D., 1994, AUV — A precise platform for underwater gravity measurement: Proceedings of IEEE/MTS Oceans Conference, 126–129.

3. Allen, B., R. Stokey, N. Forrester, R. Goldsborough, M. Purcell, and C. von Alt, 1997, Remus: A small, low cost AUV; System description, field trials and performance results: Proceedings of IEEE/MTS Oceans Conference, 994–1000.

4. Crustal structure of the Mid-Atlantic Ridge south of the Kane Fracture Zone from seafloor and sea surface gravity data

5. The density structure associated with oceanic crustal rifting at the Hess Deep: a seafloor and sea-surface gravity study

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