Back to Results
First PageMeta Content
Planetary science / LIDAR / Remote sensing / Geographic information system / Photogrammetry / Laser scanning / Digital elevation model / Octree / Topography / Cartography / Geography / Earth


OBLIQUE HELICOPTER-BASED LASER SCANNING FOR DIGITAL TERRAIN MODELLING AND VISUALISATION OF GEOLOGICAL OUTCROPS S. J. Buckley1, * , J. Vallet2, A. Braathen3, W. Wheeler1 1 Centre for Integrated Petroleum Research, Univer
Add to Reading List

Document Date: 2008-06-08 07:59:08

Open Document

File Size: 1,29 MB

Share Result on Facebook

City

Epalinges / Istanbul / Bergen / Dresden / Beijing / Amsterdam / Spitsbergen / Longyearbyen / London / OBLIQUE HELICOPTER / /

Company

Brodsky / StatoilHydro ASA / /

Country

Germany / Switzerland / Norway / Turkey / Netherlands / Svalbard and Jan Mayen / /

/

Facility

University of Bergen / University of Calgary / University Centre / /

IndustryTerm

inertial systems / optimum data collection solution / mesh processing / poor satellite geometry / airborne survey systems / lidar technology / travel time / texture mapping algorithm / pre-processing stage / specialised viewing software / terrestrial scanning lidar technology / /

NaturalFeature

Barents Sea / /

Organization

Norwegian Research Council / Wordiekammen mission / University Centre on Svalbard / University of Calgary / Geological Society / Logistics Department / University of Bergen / Centre for Integrated Petroleum Research / /

Person

Schroeder / /

Position

mp / geologist / Corresponding author / /

Product

CH-1066 Epalinges / /

PublishedMedium

ACM Transactions on Graphics / Computer Graphics / /

RadioStation

5.1 Raw / /

Region

Arctic Circle / /

Technology

texture mapping algorithm / LASER / Remote Sensing / terrestrial scanning lidar technology / paging system / GPS / ground penetrating radar / paging / simulation / 64-bit processor / digital camera / /

URL

http /

SocialTag