Journal ArticleDOI
Establishment of a coastal landslide observatory at Aldbrough, East Riding of Yorkshire, UK
Peter Hobbs,Lee Jones,M. Kirkham,S. Holyoake,Catherine Pennington,Claire Dashwood,Vanessa J. Banks,Helen Reeves +7 more
TLDR
The British Geological Survey (BGS) field-based "Coastal Landslide Observatory" as mentioned in this paper was designed for the study of coastal cliff recession on the east coast of England at Aldbrough, East Riding of Yorkshire.Abstract:
The paper describes the establishment of the British Geological Survey (BGS)’s field-based ‘Coastal Landslide Observatory’, designed for the study of coastal ‘soft cliff’ recession on the east coast of England at Aldbrough, East Riding of Yorkshire. The cliffed site is part of the 50 km long Holderness coast which is one of the most rapidly eroding coastlines in Europe. The site features a 16–17 m high sea-cliff formed by Late Devensian (18–13 ka) glacial deposits dominated by tills. The aim of the research is to investigate the role of landslides and their pre-conditioning factors, including geology, geotechnics and topography, in cliff recession with a view to developing coastal landslide forecasting capability. Two research approaches are encompassed in the observatory: firstly, terrestrial LiDAR surveying, from 2001 to present, to create digital elevation models of the cliff and, secondly, installation of instrumented boreholes from 2012. The design, methods, conceptual ground model, implementation of the observatory and geotechnical laboratory test results are described in this article. The interpretation of results and the final ground model are presented in a related article in this volume.read more
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Journal ArticleDOI
The use of unmanned aerial vehicles (UAVs) for engineering geology applications
Daniele Giordan,Marc S. Adams,Irene Aicardi,Maria Alicandro,Paolo Allasia,Marco Baldo,Pierluigi De Berardinis,Donatella Dominici,Danilo Godone,Peter Hobbs,Veronika Lechner,Tomasz Niedzielski,Marco Piras,Marianna Rotilio,Riccardo Salvini,Valerio Segor,Bernadette Sotier,Fabrizio Troilo +17 more
TL;DR: This paper represents the result of the IAEG C35 Commission “Monitoring methods and approaches in engineering geology applications” workgroup aimed to describe a general overview of unmanned aerial vehicles (UAVs) and their potentiality in several engineering geological applications.
Journal ArticleDOI
A technological framework for data-driven IoT systems: application on landslide monitoring
Sivanarayani M. Karunarathne,Matthew Dray,Lyudmil Popov,Matthew Butler,Catherine Pennington,Constantinos Marios Angelopoulos +5 more
TL;DR: This work qualitatively improves upon existing methods of landslide monitoring and showcases how data-driven IoT systems can pave new pathways for interdisciplinary research as well as generate positive impact on modern societies.
Journal ArticleDOI
Coastal landslide monitoring at Aldbrough, East Riding of Yorkshire, UK
TL;DR: In this article, the authors describe results to date of a continuing monitoring study of coastal ‘soft cliff’ recession at the British Geological Survey9s (BGS9s) Coastal Landslide Observatory (CLO) on the east coast of England at Aldbrough, East Riding of Yorkshire.
Journal ArticleDOI
The Application of Terrestrial LiDAR for Geohazard Mapping, Monitoring and Modelling in the British Geological Survey
Lee Jones,Peter Hobbs +1 more
TL;DR: The British Geological Survey (BGS) geomatics capabilities have been utilized in a variety of scientific studies such as the monitoring of actively growing volcanic lava domes and rapidly retreating glaciers; coastal erosion and platform evolution; inland and coastal landslide modelling; mapping of geological structures and fault boundaries; rock stability and subsidence feature analysis, and geo-conservation as discussed by the authors.
A robust surface matching technique for integrated monitoring of coastal geohazards | NOVA. The University of Newcastle's Digital Repository
TL;DR: In this paper, the authors present an integrated approach, with the development of weighted surface matching software enabling reliable dataset fusion and multi-temporal change detection, even where significant surface differences exist.
References
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Manual of soil laboratory testing
TL;DR: Manual of soil laboratory testing as discussed by the authors, Manual of soil lab testing, MANET, manual of laboratory testing, manual manual of soil testing, manual of lab testing, مرکز فناوری اطلاعات, اسلاز رسانی, ک
Journal ArticleDOI
Terrestrial laser scanning in geology: data acquisition, processing and accuracy considerations
TL;DR: In this article, the workflow for using lidar data, from the choice of field area and survey planning, to acquiring and processing data and, finally, extracting geologically useful data.
Journal ArticleDOI
Terrestrial laser scanning for monitoring the process of hard rock coastal cliff erosion
TL;DR: In this article, the authors presented a new approach to detailed cliff process monitoring using terrestrial laser scanning (TLS) which directly monitors changes on coastal cliff faces, allowing the quantification of failures ranging in scale from the detachment of blocks of a few centimetres in dimension through to large rock, debris or soil.
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Advances in Hillslope Processes
Malcolm G. Anderson,Susan Brooks +1 more
TL;DR: In this article, the authors present a review of the latest advances in hillslope research, including hydrological, solute, soil, gully and slope stability processes together with processes in tropical, semi arid and periglacial environments.
Living with coastal erosion in Europe: Sediment and Space for Sustainability
S. Lombardo,A. Salman,P. Doody +2 more
TL;DR: In this paper, the authors present a report "Living with coastal erosion in Europe: Sediment and Space for Sustainability" under the framework of the EUROSION project.