![]() ![]() So now you have seen some of the basics of the Simplif圓D interface. But maybe I liked the other arrangement better, so I’ll just CTRL+Z to Undo, then CTRL+A to select all the models, then click W to translate and move them how I want. So I can click Center and Arrange, which will automatically arrange them on the build plate. You can also use CTRL+D to bring up that menu. We’ll need 7 more pawns for a total of 8. I just go to the Edit menu and click Duplicate. Now I’m also going need 8 pawns for chess set, and I don’t want to copy/paste 7 more times. You can, of course, also use the common shortcuts CTRL+C and CTRL+V. I can even save this query inside the pub-geom feature, and obviously this works way better than manually selecting tangentially-connected surfaces. It’s as easy as copying and pasting the model. Let’s say we are printing half of a chess set in one color. This can really come in handy when you’ve configured your model exactly how you want it, and want to print more of them in the same print job. So another option I use all the time is copy and paste, which can be used for models and processes. So in this case, you’d use Command+Z to undo. Note: if you’re on a Mac, you’ll use the Command key instead of the Control key. For example, if I want to undo all the changes I just made to this bishop model, I just go to Edit then Undo, or use the shortcut CTRL+Z. In fact, almost all of the frequently used tools in Simplif圓D have a keyboard shortcut.Īnd there’s actually a really nice one that I haven’t mentioned yet: the ability to Undo. These four tools also have keyboard shortcuts to make life a little easier: Q for normal selection, W for translate models, E for scale models, and R for rotate models. These come in handy for quickly scaling and arranging your parts on the build plate. Last is rotation, which lets you rotate your model about the Z axis. Next is scaling, which lets you change the size of your model. Next is model translation, which lets you move models on the X or Y axis. The first is just a normal pointer for clicking and selecting models. For today, I’m going to focus on the top four, which control model manipulation. On the right, you’ll see a toolbar with many icons. A process determines how the parts on your virtual build plate will be constructed. Quick Add Add to wishlist Compare Quick view Subscribe Our Newsletter Enter your email below to be the first to know about new collections and product launches. Includes: 2 pcs heater tube 2 pcs temperature sensor. As an example, I’ve imported these chess pieces. Cetus2 Extruder Heater Module 59.90 Unit price /per OTFS heater module for Cetus2, assembled. Click Import to add a new STL or OBJ file, or drag and drop the file. Here, in the middle is our virtual build plate, is a 3D rendering of your printer’s bed. Experimental results are presented toĭemonstrate the effectiveness of our proposed algorithms.Today, I’m going to give you a brief tour of the Simplif圓D interface. Using thisĭivide-and-conquer approach, the parameterization of surfaces with very high Surface by solving the Laplace equation for each subdomain. After getting all the updated boundaryĬonditions, we obtain the global parameterization of the multiply-connected Welding paths before and after the global welding to transform all theīoundaries to circles conformally. Iteration together with the geodesic algorithm to the boundary points and Welding algorithm to reconstruct the global mapping. Parameterizations of them respectively, and then apply a variant of the partial Several subdomains and compute the free-boundary conformal or quasi-conformal The main idea is to partition a multiply-connected surface into Quasi-conformal parameterization of multiply-connected surfaces onto a 2DĬircular domain using variants of the partial welding algorithm and the Koebe's Propose a novel parallelizable algorithm for computing the global conformal and Methods for multiply-connected surfaces are less explored. ![]() Simply-connected surfaces have been proposed, efficient parameterization Various conformal and quasi-conformal parameterization methods for Registration, segmentation, remeshing, and texture map compression. Imaging science, computer vision and computer graphics, such as surface Download a PDF of the paper titled Parallelizable global quasi-conformal parameterization of multiply-connected surfaces via partial welding, by Zhipeng Zhu and 2 other authors Download PDF Abstract: Conformal and quasi-conformal mappings have widespread applications in ![]()
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