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Dacă tot avem atâția ani de experiență în spate și încă mai știu o gramadă de persoane de RST, ce ar fi dacă am schimba direcția forumului către automatizări, tips & tricks, AI și monetizare, fără a intra vreodată în zona fraudei pe care am încercat mereu să o combatem? Am de 15 ani schițată metoda ideală de monetizare pentru RST, consider că încă este validă, și nu văd de ce nu am începe să facem bani și să îi ajutăm și pe alții să facă bani cu ajutorul nostru fără a încălca legislația. Admini și useri ce părere aveți? Îi dăm drumul la treabă? Ne dedicăm energia să facem o treabă serioasă care să aducă cu adevărat plus valoare, sau îi lăsăm pe toți diletanții de pe comunități ca BlackHatWorld să facă bani din mizerii, țepe și tutoriale care nu funcționează? Comunitatea RST a fost mereu corectă cu userii și nu a promovat țepe. De ce nu am face din treaba asta și din experiența noastră, a tuturor, un business din care să producem bani?

Design Simulation SimWise4D 9.5.0 Build 1494 Final | 991 MB Are you looking for an engineering tool that will resolve design problems, reduce failures and warranty costs, turn around designs faster, and work either with your existing Windows-based 3D CAD system or as a standalone application? SimWise 4D is for design and engineering professionals developing products involving assemblies of 3D parts. By simulating your assemblies in this unique virtual environment, you will produce more creative, robust designs and reduce cycle time. With SimWise 4D, you can simulate the rigid body dynamics of an assembly, "size" components, determine part interferences and collision response, identify stresses induced by motion, produce physics-based animations, and test your control systems. A Proven Simulation Tool SimWise 4D was born when DST acquired a license from MSC Software Corporation to the MSC.visualNastran 4D (vn4D) product. The software traces its roots to the Working Model 3D product developed by Knowledge Revolution, which was acquired by MSC in 1999, extended to include FEA capabilities, and renamed Working Model 4D. It has found tens of thousands of users among engineering professionals, students, and educators. http://u19822771.letitbit.net/download/23390.2d44d557ef24ffbd598c9751f70c/SimWise4D.v9.5.0.part1.rar.html http://u19822771.letitbit.net/download/14427.1644d80dfcca6ae828baa39f8ed3/SimWise4D.v9.5.0.part2.rar.html http://uploaded.net/file/0h5o80qm/SimWise4D.v9.5.0.part1.rar http://uploaded.net/file/5gg0u2pe/SimWise4D.v9.5.0.part2.rar http://rapidgator.net/file/89dabe92641e12b4a2621fd8bd0d9dce/SimWise4D.v9.5.0.part1.rar.html http://rapidgator.net/file/d8d62b21d76c8e75f534fbfd3d4fb4c4/SimWise4D.v9.5.0.part2.rar.html http://www.uploadable.ch/file/ckJafr6bZmgW/SimWise4D.v9.5.0.part1.rar http://www.uploadable.ch/file/jj7RnWJ4XGYs/SimWise4D.v9.5.0.part2.rar

This app allows you to simulate how any origami crease pattern will fold. It may look a little different from what you typically think of as "origami" - rather than folding paper in a set of sequential steps, this simulation attempts to fold every crease simultaneously. It does this by iteratively solving for small displacements in the geometry of an initially flat sheet due to forces exerted by creases. You can read more about it in our paper: Fast, Interactive Origami Simulation using GPU Computation by Amanda Ghassaei, Erik Demaine, and Neil Gershenfeld (7OSME) All simulation methods were written from scratch and are executed in parallel in several GPU fragment shaders for fast performance. The solver extends work from the following sources: Origami Folding: A Structural Engineering Approach by Mark Schenk and Simon D. Guest Freeform Variations of Origami by Tomohiro Tachi Built by Amanda Ghassaei as a final project for Geometric Folding Algorithms. Code available on Github. If you have interesting crease patterns that would make good demo files, please send them to me (Amanda) so I can add them to the Examples menu. My email address is on my website. Thanks! Instructions: Slide the Fold Percent slider to control the degree of folding of the pattern (100% is fully folded, 0% is unfolded, and -100% is fully folded with the opposite mountain/valley assignments). Drag to rotate the model, scroll to zoom. Import other patterns under the Examples menu. Upload your own crease patterns in SVG or FOLD formats, following these instructions. Export FOLD files or 3D models ( STL or OBJ ) of the folded state of your design ( File > Save Simulation as... ). Visualize the internal strain of the origami as it folds using the Strain Visualization in the left menu of the Advanced Options. If you are working from a computer connected to a VR headset and hand controllers, follow these instructions to use this app in an interactive virtual reality mode. External Libraries: All rendering and 3D interaction done with three.js path-data-polyfill helps with SVG path parsing FOLD is used as the internal data structure, methods from the FOLD API used for SVG parsing Arbitrary polygonal faces of imported geometry are triangulated using the Earcut Library Portability to multiple VR controllers by THREE.VRController.js VR GUI by dat.guiVR numeric.js for linear algebra operations FileSaver for client-side file saving GIF and WebM video export uses CCapture jQuery, Bootstrap, and the Flat UI theme used to build the regular GUI You can find additional information in our 7OSME paper and this website. Source: origamisimulator.org