The Lusi drone: A multidisciplinary tool to access extreme environments.

Di Stefano, G., Romeo, G., Mazzini, A., Iarocci, A., Hadi, S. and Pelphrey, S. (2018) The Lusi drone: A multidisciplinary tool to access extreme environments. Marine and Petroleum Geology, 90 . pp. 26-37. DOI 10.1016/j.marpetgeo.2017.07.006.

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Abstract

Highlights

• A multipurpose drone has been designed and constructed to access and sample extreme environments.
• Gas, water, and mud sampling is coupled with temperature measurements, video records, photogrammetry, infra-red, and gas distribution mapping.
• Successful missions have been completed at the active Lusi eruption site.
• The drone is an excellent tool to study harsh or unreachable sites where conventional operations are too expensive, dangerous or impossible.

Abstract

Extreme and inaccessible environments are a new frontier that unmanned and remotely operated vehicles can today safely access and monitor. The Lusi mud eruption (NE Java Island, Indonesia) represents one of these harsh environments that are totally unreachable with traditional techniques. Here boiling mud is constantly spewed tens of meters in height and tall gas clouds surround the 100 m wide active crater. The crater is surrounded by a ∼600 m diameter circular zone of hot mud that prevents any approach to investigate and sample the eruption site. In order to access this active crater we designed and assembled a multipurpose drone.

The Lusi drone is equipped with numerous airborne devices suitable for use on board of other multicopters. During the missions, three cameras can complete 1) video survey, 2) high resolution photogrammetry of desired and preselected polygons, and 3) thermal photogrammetry surveys with infra-red camera to locate hot fluids seepage areas or faulted zones. Crater sampling and monitoring operations can be pre-planned with a flight software, and the pilot is required only for take-off and landing. A winch allows the deployment of gas, mud and water samplers and contact thermometers to be operated with no risk for the aircraft. During the winch operations (that can be performed automatically), the aircraft hovers at a safety height until the tasks controlled by the winch-embedded processor are completed. The drone is also equipped with GPS-connected CO2 and CH4 sensors. Gridded surveys using these devices allowed obtaining 2D maps of the concentration and distribution of various gasses over the area covered by the flight path.

The device is solid, stable even with significant wind, affordable, and easy to transport. The Lusi drone successfully operated during several expeditions at the ongoing active Lusi eruption site and proved to be an excellent tool to study other harsh or unreachable sites, where operations with more conventional methods are too expensive, dangerous or simply impossible.

Document Type: Article
Funder compliance: info:eu-repo/grantAgreement/EC/FP7/308126
Keywords: Lusi mud eruption, Drone-UAV, Multirotor, Remote sampling, Remote sensing, Indonesia
Refereed: Yes
Open Access Journal?: No
DOI etc.: 10.1016/j.marpetgeo.2017.07.006
ISSN: 0264-8172
Related URLs:
Projects: FLOWS, LUSI LAB
Date Deposited: 27 Apr 2018 07:47
Last Modified: 17 Jan 2019 13:32
URI: http://oceanrep.geomar.de/id/eprint/42854

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