2010
DOI: 10.1016/j.jterra.2010.01.002
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Interpolation methods for high-fidelity three-dimensional terrain surfaces

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Cited by 24 publications
(16 citation statements)
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“…As a result, PSD of road roughness while steering should also satisfy its statistical features. Based on the work presented in [14], a triangular mesh method is used for analysis.…”
Section: Steering Working Conditionmentioning
confidence: 99%
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“…As a result, PSD of road roughness while steering should also satisfy its statistical features. Based on the work presented in [14], a triangular mesh method is used for analysis.…”
Section: Steering Working Conditionmentioning
confidence: 99%
“…When radius R and sampling interval ∆l are known, coordinates of sampling point E can be located in the plane of triangle ACD. Then, road roughness at point E can be obtained by computing road roughness at points A, B, D. Following the procedure discussed above, road roughness of other points can be obtained as discussed in [14] and can be validated. Movement trace of the vehicle is typically not straight under various steering conditions.…”
Section: Steering Working Conditionmentioning
confidence: 99%
“…These point clouds require interpolation or subsampling to obtain a final point cloud which averages over all point cloud surfaces. Detwieler and Ferris [30] conducted a study on interpolation methods for three-dimensional terrain surfaces. They concluded that the Inverse Distance to a Power method was the recommended method when fine resolution is required to describe localized roughness and that Kriging is ideal for identifying global trends of the surface.…”
Section: Interpolationmentioning
confidence: 99%
“…In the context of off-road vehicle simulations, terrain models fall into three categories of increasing complexity: rigid terrain where the main focus is an accurate surface profile [6][7][8][9], use of empirical relationships to find pressure and sinkage directly under the tire [10][11][12], or finite/discrete element approaches [13][14][15][16]. Any off-road vehicle dynamics simulation where the soil deforms considerably requires a terrain model that accurately reflects the deformation and response of the soil to all possible inputs of the tire in order to correctly simulate the response of the vehicle [17].…”
Section: Figure 2 Tire Geometry Used To Determine Collision Points Wmentioning
confidence: 99%