The application of airborne remote sensing to the detection of solution features in limestone

1987 ◽  
Vol 4 (1) ◽  
pp. 125-131 ◽  
Author(s):  
C. N. Edmonds ◽  
T. J. M. Kennie ◽  
M. S. Rosenbaum
Keyword(s):  
Remote Sensing ◽  
Thermal Infrared ◽  
Building Construction ◽  
Background Information ◽  
Crucial Importance ◽  
Airborne Remote Sensing ◽  
Engineering Project ◽  
Southern England ◽  
Remote Sensing Techniques ◽  
Geotechnical Problems

AbstractAirborne remote sensing techniques have been developed for the detection of collapse and subsidence features in chalk and other limestone rocks. The detection of such features in the early stages of an engineering project is of crucial importance if serious geotechnical problems to building construction and public safety are to be avoided. Particular attention is paid to the potential of airborne multispectral scanner (MSS) and thermal infrared (IR) data as a means of detection. Background information is also provided concerning a project to obtain multitemporal thermal IR data over two test sites on the Cretaceous Chalk outcrop of southern England.

Remote Sensing Techniques in Civil Engineering Surveys

1986 ◽  
Vol 2 (1) ◽  
pp. 119-124
Author(s):  
E. M. Amos ◽  
D. Blakeway ◽  
C. D. Warren
Keyword(s):  
Remote Sensing ◽  
Satellite Imagery ◽  
Aerial Photography ◽  
Civil Engineering ◽  
Thermal Infrared ◽  
Infrared Photography ◽  
Black And White ◽  
Remote Sensing Techniques ◽  
Landsat Satellite ◽  
False Colour

AbstractThis paper outlines selected remote sensing techniques and their application to civil engineering surveys.In BS 5930, emphasis has been placed on the interpretation of black and white aerial photography to provide information. However, other techniques such as true colour and false colour infrared photography, thermal infrared, radar and landsat satellite imagery may be useful in appropriate applications.

scholarly journals Airborne remote sensing in East Greenland

1980 ◽  
Vol 100 ◽  
pp. 101-105
Author(s):  
T Thyrsted
Keyword(s):  
Remote Sensing ◽  
Mineral Exploration ◽  
New Method ◽  
Airborne Remote Sensing ◽  
East Greenland ◽  
Different Types ◽  
Remote Sensing Techniques

In the spring of 1979 a remote sensing project in East Greenland was commenced, introducing this new method of investigation to Greenland. The aim of the project is to investigate the possibility of using airborne remote sensing in connection with mineral exploration. In the region chosen for investigation (Inset, fig. 35) several mineralisations of different types and ages occur, and the purpose is to find out which remote sensing techniques and data processings are appropriate for detection and reproduction on images ofthese known mineralisations. The region is geologically well known and it is well exposed, vegetation and secondary cover being very limited.

The application of airborne remote sensing during an On-Site Inspection

2020 ◽  
Author(s):  
Aled Rowlands ◽  
Peter Labak ◽  
Massimo Chiappini ◽  
Luis Gaya-Pique ◽  
John Buckle ◽  
...  
Keyword(s):  
Remote Sensing ◽  
Data Processing ◽  
Optical Imaging ◽  
Relevant Information ◽  
Remotely Sensed Data ◽  
Airborne Remote Sensing ◽  
Relative Likelihood ◽  
Infrared Measurements ◽  
On Site Inspection ◽  
Remote Sensing Techniques

<p>The application of airborne remote sensing techniques permitted by the Comprehensive Nuclear‑Test‑Ban Treaty (magnetic and gamma survey as well as optical imaging including infrared measurements) is done through the prism of inspection team functionality – a logic which applies equally to air and ground-based techniques. Work undertaken over recent years through modelling and practical testing has aimed to better understand the ability of airborne remote sensing techniques to detect relevant observables under different conditions. This has led to the compilation of a concept of operations document that provides guidance on the application of inspection activities during an On-Site Inspection. As well as highlighting the relative merits of each technique, the document also addresses the relative likelihood a particular airborne technique will return relevant information and will avoid the commitment of resources to missions with little likelihood of success.</p><p>The paper also addresses the approaches which have been taken to streamline the acquisition of airborne remotely sensed data through bespoke installations, the identification of optimal data processing routines to facilitate the production of reports and the fusion of airborne data products with other data gathered during an inspection.</p>

An investigation of the geological and geomorphological features of Fowlers Gap using thermal infrared, radar and airborne geophysical remote sensing techniques.

2000 ◽  
Vol 22 (1) ◽  
pp. 105 ◽  
Author(s):  
RD Hewson ◽  
GR Taylor
Keyword(s):  
Remote Sensing ◽  
Surface Roughness ◽  
Thermal Infrared ◽  
Spectral Unmixing ◽  
Thermal Infrared Remote Sensing ◽  
Land System ◽  
Infrared Remote Sensing ◽  
Land Systems ◽  
Remote Sensing Techniques ◽  
Geomorphological Features

This study summarises the application of several remote sensing techniques to investigate various components of a land surface in the semi-arid environment of Fowlers Gap. These remote sensing techniques included NASA's Thermal Infrared Multispectral Scanner (TIMS) and CSIRO's Mid-Infrared Airborne CO, Laser Spectrometer (MIRACO,LAS), NASA's AIRSAR radar and geophysical airborne radiometrics. Linear spectral unmixing of extracted emissivities from the TIMS data produced four endmembers: quartz, clay minerals, dry vegetation (cellulose) in fine soils, and green vegetation/moisture. MIRAC0,LAS data identified spectral signatures similar to the spectra of endmembers derived from TIMS data. The sensitivity of both thermal infrared remote sensing techniques to the quartzklay contents and textures of the soils and sediments was confirmed by detailed laboratory spectral measurements. Surface roughness information from AIRSAR's band C radar backscatter assisted the discrimination of alluvial and colluvial quartz and clay-rich deposits from the outcropping geological units. In particular the C band AIRSAR radar discriminated the coarse grained sandstone and quartzite scree within the colluvial pediments, from the finer grained quartz-rich 'radar smooth' alluvium in the scalds. Airborne radiometrics were also found useful for further discriminating potassium and thorium- bearing phyllosilicate/clay minerals, within shales and ghyllites, from the kaolinite and montmorillonite- rich alluvium. This study found that TIMS data could identify some of the geomorphological features at Fowlers Gap, such as colluvial pediments, depositional scalds and gilgai landforms, that characterise some of the land systems in the Lowlands and Plains relief class of the Fowlers Gap land system classification. Thermal infrared remote sensing techniques also proved capable of discriminating areas of cellulose-rich dry vegetation and fine grained soils within the Plains relief class. The sensitivity of AIRSAR radar for topographic relief and surface roughness suggests that it is useful for distinguishing land systems in the Ranges relief class. Radiometrics appeared useful for land system definition when outcropping argillaceous units and alluvium assisted their classification. Key words: remote sensing, Fowlers Gap, thermal infrared, land system, spectral unmixing

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