Assignment 3

For my project 3 paneling exercise and rendering, I got my inspiration from a block of Ramen noodles, and examined how a single repetitive shape (the noodle) created varied shapes and sizes in voids. I created a paneling grid of a wavy shape that I then repeated to create the textured 3D panel. After deleting multiple panels, I was interested in seeing the different shadows that would be casted from these repetitive shapes, and looking at how the voids and shadows would come out differently. I was happy with the result of the pieces of sunlight that shine into the space, because although they do show some resemblance to each other, they are still, to some extent, irregular and varied from each other. I studied these voids in the vertical band on the left side of my board, in which I took a picture of Ramen, put it into Illustrator, and took the contour lines of the voids. I applied them to the side of the board as a subtle reference to the shapes of the voids found in a block of Ramen.

March 12 In-Class Activity

For the in class activity on March 12, we learned ways in which to fix renderings on Photoshop, as well as create daylighting in Rhino models using V-Ray applications. First we created a cube which had one side with a mesh pattern, and deleted fragments of the mesh pattern in order to create space for daylight to come through once we applied that visual effect. I struggled to keep up with the different effects we had to apply, but the end result is above. Learning how to create the effects on Photoshop was most interesting to me, because it was very new. I felt that the different V-Ray applications we used on our sample models are variations of what we have been doing throughout the semester (although they are much more complicated), but the Photoshop segment of the lecture really showed drastic changes and exemplified just how much more you can add to a rendering with simple tools. 

From top to bottom, I started by creating three curvilinear enclosed surfaces. I used the given commands in order to create the gridded outline seen in pictures 2-5. I then experimented with creating surface patterns that are pre-determined in Rhino, but I found their geometries to be somewhat boring (picture 6-9). I then began to create my own shapes and turn them into grids, and then applying them to the surfaces of these curvilinear shapes. I mainly changed the spacings between the points on the grid in order to see what the different outcomes were. Some of them turned out to be very interesting and create successful patterns, other created fragmented patterns, breaking the fluidity there was to the curves. Additionally, I noticed that the shapes I created in the 2D grids got warped when I made them into 2D surfaces and applied them to the curves. When I moved onto the 3D surfaces, I noticed that the shapes I created were less modified. However, one of the aspects I wish I had figured out how to control was the wall thickness when the 3D surface was created. I thought the patterns were much more difficult to understand and read in the 3D patterns than in the 2D patterns, however the 3D objects look more interesting and seem like they could be seen as some kind of day to day life object.

After fixing my cube and gluing parts together, the model became much more legible and easier to understand. Because I did not use glue to assemble the model initially, many of the heavier pieces began to fall and slope, and some of the pieces which had been damaged from assembling and disassembling so many times got warped and began to slide around within the slits. However, I am much happier with the stable cube because every layer is now visible and much more interesting. 

While completing the final cube project, I encountered various problems with creating the model. The structure was much more unstable than I anticipated and I had to end up changing the design slightly in order to add more supports. This involved going between Rhino, AutoCAD, and the laser cutting program in order to create the final product I was aiming for. Another problem I encountered was the warping of the chip board from the multiple times I had to assemble the model, which also caused me to have to go back and cut out more pieces. What I enjoyed most about this project was creating the board. I felt that I really got to apply what I have been learning over the past few weeks in class using Photoshop and Illustrator to create the diagrams and layout for my spread. I used different effects and tools to create a blended look between the V-Ray file and the Illustrator file, and explored different tools on these programs.