Article
Refine
Year of publication
Document Type
- Article (247) (remove)
Language
- English (247) (remove)
Keywords
- avalanche (5)
- snow (3)
- Aeroelasticity (2)
- CFD (2)
- Drinfeld modules (2)
- Transcendence (2)
- UAV (2)
- t-modules (2)
- 1P hub loads (1)
- Aircraft sizing (1)
- Antarctic Glaciology (1)
- Automotive safety approach (1)
- Autonomy (1)
- Avalanche (1)
- Blade element method (1)
- CO2 emission reduction targets (1)
- Commercial Vehicle (1)
- Common Rail Injection System (1)
- Cost function (1)
- Crashworthiness (1)
- DLR-ESTEC GOSSAMER roadmap for solar sailing (1)
- Diesel Engine (1)
- Drag estimation (1)
- Driving cycle recognition (1)
- Dry-low-NOx (DLN) combustion (1)
- ECMS (1)
- Energy management strategies (1)
- European Transient Cycle (1)
- Extraterrestrial Glaciology (1)
- Finite element method (1)
- Flutter (1)
- Full-vehicle crash test (1)
- GOSSAMER-1 (1)
- Glaciological instruments and methods (1)
- High hydrogen combustion (1)
- Higher derivations (1)
- Human factors (1)
- Hydrogen combustion (1)
- Hydrogen gas turbine (1)
- Hyperdifferentials (1)
- Interstellar objects (1)
- Local path planning (1)
- Low-field NMR (1)
- Micromix combustion (1)
- Missions (1)
- Multi-objective optimization (1)
- Multirotor UAS (1)
- NMR exchange relaxometry (1)
- Obstacle avoidance (1)
- Parasitic drag (1)
- Path planning (1)
- Periods (1)
- Predictive battery discharge (1)
- Propeller (1)
- Propeller elasticity (1)
- Propeller whirl flutter (1)
- RAMMS (1)
- Selective Catalytic Reduction (1)
- Small spacecraft (1)
- Snow (1)
- Solar sail (1)
- Subclacial exploration (1)
- Subglacial lakes (1)
- Trajectories (1)
- Unsteady aerodynamics (1)
- Wind milling (1)
- Wind tunnel experiments (1)
- adaptive systems (1)
- artificial intelligence (1)
- assistance system (1)
- debris flow (1)
- eVTOL development (1)
- eVTOL safety (1)
- fuel cell vehicle (1)
- gamification (1)
- intelligent control (1)
- intelligent energy management (1)
- machine learning (1)
- manufacturing (1)
- optimization system (1)
Institute
- Fachbereich Luft- und Raumfahrttechnik (247) (remove)
Digital elevation models (DEMs), represent the three-dimensional terrain and are the basic input for numerical snow avalanche dynamics simulations. DEMs can be acquired using topographic maps or remote-sensing technologies, such as photogrammetry or lidar. Depending on the acquisition technique, different spatial resolutions and qualities are achieved. However, there is a lack of studies that investigate the sensitivity of snow avalanche simulation algorithms to the quality and resolution of DEMs. Here, we perform calculations using the numerical avalance dynamics model RAMMS, varying the quality and spatial resolution of the underlying DEMs, while holding the simulation parameters constant. We study both channelized and open-terrain avalanche tracks with variable roughness. To quantify the variance of these simulations, we use well-documented large-scale avalanche events from Davos, Switzerland (winter 2007/08), and from our large-scale avalanche test site, Valĺee de la Sionne (winter 2005/06). We find that the DEM resolution and quality is critical for modeled flow paths, run-out distances, deposits, velocities and impact pressures. Although a spatial resolution of ~25 m is sufficient for large-scale avalanche modeling, the DEM datasets must be checked carefully for anomalies and artifacts before using them for dynamics calculations.