This section does not cite any sources. Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed. May Learn how and when to remove this template message In ray casting the geometry which has been modeled is parsed pixel by pixel, line by line, from the point of view outward, as if casting rays out from the point of view.
Its industry-leading interactive 3D animation allows you to observe order-related operating deflection shapes from running machinery, resonant vibration and mode shapes from real structures, acoustic shapes, and engineering shapes directly from acquired data.
An ODS contains the overall dynamic response of a structure due to forced and resonant vibration. Time-based ODS animation sweeps a cursor through a set of time histories describing motions at multiple points and directions on a test article.
You can stop the animation, back it up, and play it forward to observe in slow-motion phenomena that may have taken place very quickly in real time. With frequency-based ODS animation, you simply move the cursor to a frequency of interest in your data, and the ODS for that frequency is displayed.
With this animation, you can observe resonant vibration as well as order-related and other types of forced vibration.
Modal analysis is used to characterize resonant vibration in mechanical structures. FRF-Based parameter estimation or curve fitting is used to estimate the modal parameters of a structure from a set of FRFs.
This curve fitter can be used to simultaneously extract parameters for multiple modes, especially in cases of high modal density.
It can also extract local modes where the resonant vibration is confined to a local region of the structure. Multi- Reference curve fitting is used to extract closely coupled modes and repeated roots two or more modes at the same frequency.
This option contains a Stability diagram for locating stable pole estimates, and three additional curve fitting methods:This "Cited by" count includes citations to the following articles in Scholar.
Feature-based texture synthesis and editing using voronoi diagrams.
Feature-based texture synthesis using Voronoi diagrams. P Dutré, M Sabha. Technical CW Reports, , Water, an international, peer-reviewed Open Access journal.
Analysis of a large shoreline database (from to ) and recompilation of information on type/age of shore protection structures along the Northern Tuscany, allowed a deep insight of the progressive armouring of this coastal sector.
are hard to achieve with photo editing software and are not trivial to implement as procedural textures.
Wu and Yu  improved patch-based texture synthesis using feature matching and patch deformation to reduce artifacts at patch boundaries. Their feature matching and texture deformation approach is similar to our warp computation.
Abstract. Generating computer animated flames is a difficult and computationally expensive problem.
Dynamic textures provide an effective means for extrapolating and synthesizing dynamic flames, but aggravates color distortion due to the high correlation of RGB components.
A novel method for dynamic flame texture synthesis using color temperature is proposed in this paper. MAIN CONFERENCE CVPR Awards. Best Paper Award "Taskonomy: Disentangling Task Transfer Learning" by Amir R.
Zamir, Alexander Sax, William Shen, . Textureshop: Texture Synthesis as a Photograph Editing Tool Hui Fang John C. Hart its pattern, extending the texture features across an image plane or thesurfaceofageometricmodel[Turk;WeiandLevoy]. image-based modeling, and texture synthesis is used to recover the.