搜索结果: 1-11 共查到“固体地球物理学 terrain”相关记录11条 . 查询时间(0.11 秒)
VLF-EM and VES: an application to groundwater exploration in a Precambrian basement terrain SW Nigeria
Electromagnetic (VLF-EM) Hard rock environment Groundwater development Layer resistivity Bed thickness mappingss mapping
2015/8/17
In a hard rock environment with surface or near surface expression of outcrops, the use of VES only becomes difficult due to its associated problems and limitations. However, the use of VLF-EM becomes...
The first ultra-high resolution Digital Terrain Model of the shallow-water sector around Lipari Island (Aeolian Islands, Italy)
resolution Digital Terrain shallow-water sector
2015/8/17
Very high resolution bathymetric map obtained through multibeam echosounders
data are crucial to generate accurate Digital Terrain Models
from which the morphological setting of active volcanic area...
The first ultra-high resolution Digital Terrain Model of the shallow-water sector around Lipari Island (Aeolian Islands, Italy)
Lipari Multibeam bathymetry Seafloor geomorphology Aeolian Islands Geohazard
2015/8/14
Very high resolution bathymetric map obtained through multibeam echo-sounders data are crucial to generate accurate Digital Terrain Models from which the morphological setting of active volcanic areas...
INTEGRATION OF TERRAIN MODELS AND BUILT-UP STRUCTURES USING CADTYPE EULER OPERATORS
Triangular Irregular Network (TIN) models, Euler Operators
2015/3/9
Until recently terrain models were developed in a GIS, and built-up structures were modelled using a CAD system. Extending the
current “2.5D” TIN model by incorporating CAD functions is a necessary ...
Sedimentological characteristics of ice-wedge polygon terrain in Adventdalen (Svalbard) – environmental and climatic implications for the late Holocene
Ice wedge periglacial landscape svalbard river terraces radioactive carbon s
2015/1/6
Ice wedges are widespread periglacial features in the landscape of Adventdalen, Svalbard. The networks of ice wedges have created areas with well-developed polygonal terrains in the lowest fluvial ter...
Digital terrain model reconstruction and preliminary scientific exploration planning of the Chang'E 3
Digital terrain Model Chang’e-3 Yutu panoramic camera
2014/7/23
At 13:11 (GMT) December 14, 2013 Chang’e 3 (CE-3) successfully landed at 19.51° W, 44.12° N northwestern Mare Imbrium on the Moon, making it China's first planetary mission to land on a celestial body...
Automatic Match between Delimitation Line and Real Terrain Based on Least-Cost Path Analysis
Automation Model Delimitation Match Module Builder Least-Cost Path Analysis
2014/4/21
Nowadays, during the international negotiation on separating dispute areas, manual adjusting is lonely applied to the match between delimitation line and real terrain, which not only consumes much tim...
Flux-gradient relationship for turbulent dispersion over complex terrain
Flux-gradient relationship turbulent dispersion complex terrain
2009/11/16
The transfer of a passive tracer in inhomogeneous turbulent flow is investigated. Starting from Lumley's constitutive equation, we derived an expression for the ratio between the effective eddy diffus...
Photo-Textured Digital Terrain Models as a Basis for Regional and Local Planning
Regional Planning DTM Ortho-rectification
2015/3/9
Many cities in the second and third world experience currently strong urbanization and are expanding fast. These
development dynamics are so strong, that the traditional maps as a basis for planning...
VISUALIZING TERRAIN MODELS FROM CONTOURS – PLAUSIBLE RIDGE, VALLEY AND SLOPE ESTIMATION
Terrain Modelling Contours Interpolation
2015/3/9
Applications such as modelling and animation of water runoff are becoming more and more important, and demand better surface
orientation information than is available from traditional interpolation ...
A Robust Coarse-to-fine Least-squares Stereo Matching for Automatic Terrain 3-D Reconstruction
Robust Coarse-to-fine Least-squares Stereo Matching Automatic Terrain 3-D Reconstruction
2014/4/15
A Robust Coarse-to-fine Least-squares Stereo Matching for Automatic Terrain 3-D Reconstruction。