GMU:Wild Type/Jessica Hüttig: Difference between revisions

Latest revision as of 16:36, 15 September 2017

This is the »Wild Type« page of — Jessica Hüttig

PARAMETRIC LETTER

For the first homework I created the capital letter R in Processing and named my variables
by the guidelines of the Anatomy of Typeface. Code can be viewed on OpenProcessing.

TYPOGRAPHIC SYSTEM

Our task was to create a typographic system from scratch using the Fontastic library and export it as a TrueType-Font.
The characteristic of my font is inspired by the cross stitch and the zigzag stitch, therefore I named it Stitchfont.
I've used the X, /, \ to imitate a stitching pattern and converted my analogue sketch into code.
The lower-case letters are a bit thinner than the upper-case ones, but got the same shape.

TRANSFORM A FONT

For transforming the font we imported with the library Fontastic, we had to use Geomerative. I've decided to display the points of a letters
as strokes and triangles and dissort them on the y-axis. Finally we had to export the transformed font with Fontastic, but I didn't get it right.
Maybe I'll invest some more time soon, to fix this... Temporary code here.

ANIMATED LETTER

Simple H, animated with the Ani library, that turns into a house when you press the mouse and will be destroyed when you press the key 'd'.
Code can be viewed on OpenProcessing

EXAMPLES CREATED WITH DRAWBOT

We had a nice workshop, where we had been introduced in DrawBot and RoboFont.
Our task was, to explore DrawBot and create a few designs by arranging glyphs or typography in an interesting way.

WRITING SYSTEM

Yay, just another geometric alphabet, that I created in RoboFont.
The idea was, to rotate every letter 90 degrees clockwise and to simplify them into filled geometric forms, like triangles and squares.
If the letter has a Counter, I tried to show this with a gap inside the geometric form or between two geometric forms of one letter.
I actually created only upper-case letters, but for the Kafgenstein-example in Processing, I used the same forms for the lower-case ones.
Otherwise you would only see the first character of a noun. Missing punctuation characters are unfortunately displayed as unfilled rectangles.

Take a look at the pretty pictures. ;)

for better resolution: File:Kafgenstein geometric.pdf

3D ALPHABET

A few glyphs of my geometric alphabet turned into 3D!
I modeled some glyphs in Blender to type »WILD TYPE« and displayed them in Processing using the PeasyCam-library.
I modified the basic-code, because in some way it didn't worked well for me. Code can be viewed on OpenProcessing.

OCR FONTS

Our task was to create a Glyph-Recognition App, that recognizes our grid-based created glyphs and provides us with visual feedback.
I used Photoshop for creating my letters and the NyARToolkit, especially the PNG-Marker example as a basis for my code, changed it a bit
and added some ambient light. If the camera recognizes a glyph, it displays the related letter from my 3D alphabet as visual feedback.
Take a look at the code.

@@ Line 3: / Line 3: @@
 == PARAMETRIC LETTER ==
-For the first homework I created the capital letter R in Processing 3 <br> and named my variables by the [http://typedia.com/learn/only/anatomy-of-a-typeface/ Anatomy of Typeface]. <br>
+For the first homework I created the capital letter R in Processing and named my variables <br>
-Code can be viewed on [http://www.openprocessing.org/sketch/226645 OpenProcessing] <br>
+by the guidelines of the [http://typedia.com/learn/only/anatomy-of-a-typeface/ Anatomy of Typeface].
+Code can be viewed on [http://www.openprocessing.org/sketch/226645 OpenProcessing].
+[[Image:parametric-r.png|thumb|left|150px]]
+<br style="clear:both;">
+== TYPOGRAPHIC SYSTEM ==
+Our task was to create a typographic system from scratch using the Fontastic library and export it as a TrueType-Font. <br>
+The characteristic of my font is inspired by the [http://www.dmc-usa.com/Education/Technique-Overviews/Cross-Stitch/~/media/Media/Education/Technique%2031/Cross%20Stitch%20311/CF_PartialStitches_v3.ashx?h=305&w=400 cross stitch] and the [https://en.wikipedia.org/wiki/Zigzag_stitch zigzag stitch], therefore I named it ''Stitchfont''. <br> I've used the X, /, \ to imitate a stitching pattern and converted my [https://www.dropbox.com/s/bdo5w9jzle2o2c8/idee-stitched.png?dl=0 analogue sketch] into code. <br>
+The lower-case letters are a bit thinner than the upper-case ones, but got the same shape. <br>
+<br style="clear:both;">
+== TRANSFORM A FONT ==
+For transforming the font we imported with the library Fontastic, we had to use Geomerative. I've decided to display the points of a letters <br> as strokes and triangles and dissort them on the y-axis. Finally we had to export the transformed font with Fontastic, but I didn't get it right. <br> Maybe I'll invest some more time soon, to fix this... Temporary code [http://www.openprocessing.org/sketch/337897 here]. <br>
+[[Image:geomerative-first.png|thumb|left|370px]]
+[[Image:geomerative-second.png|thumb|left|370px]]
+<br style="clear:both;">
+[[Image:triangles-first.png|thumb|left|370px]]
+[[Image:triangles-secons.png|thumb|left|370px]]
+<br style="clear:both;">
 == ANIMATED LETTER ==
-Simple H, animated with the Ani library, that turns into a house, <br> when you press the mouse and will be destroyed when you press the key 'd'. <br>
+Simple H, animated with the Ani library, that turns into a house when you press the mouse
+and will be destroyed when you press the key 'd'. <br>
 Code can be viewed on [http://www.openprocessing.org/sketch/247518 OpenProcessing] <br>
@@ Line 19: / Line 43: @@
 == EXAMPLES CREATED WITH DRAWBOT ==
-[[Image:drawbot_1.png|thumb|left|150px]]
+We had a nice workshop, where we had been introduced in [http://www.drawbot.com DrawBot] and [http://doc.robofont.com RoboFont]. <br>
-[[Image:drawbot_2.png|thumb|left|150px]]
+Our task was, to explore DrawBot and create a few designs by arranging glyphs or typography in an interesting way.
-[[Image:drawbot_3.png|thumb|left|150px]]
-[[Image:drawbot_4.png|thumb|left|150px]]
+[[Image:drawbot_1.png|thumb|left|170px]]
+[[Image:drawbot_2.png|thumb|left|170px]]
+[[Image:drawbot_3.png|thumb|left|170px]]
+[[Image:drawbot_4.png|thumb|left|170px]]
 <br style="clear:both;">
@@ Line 43: / Line 70: @@
 for better resolution: [[File:kafgenstein_geometric.pdf|thumb|left|150px]]
 <br style="clear:both;">
@@ Line 49: / Line 75: @@
 A few glyphs of my geometric alphabet turned into 3D! <br>
-I modeled some glyphs in Blender to type »WILD TYPE« and displayed them in Processing by using the PeasyCam-library. <br>
+I modeled some glyphs in Blender to type »WILD TYPE« and displayed them in Processing using the PeasyCam-library. <br>
 I modified the basic-code, because in some way it didn't worked well for me. Code can be viewed on [http://www.openprocessing.org/sketch/300725 OpenProcessing].
@@ Line 61: / Line 87: @@
 [[Image:typo-glitch-new.png|thumb|left|200px]]
 [[Image:typoglitch-2.png|thumb|left|200px]]
+<br style="clear:both;">
+== OCR FONTS ==
+Our task was to create a Glyph-Recognition App, that recognizes our grid-based created glyphs and provides us with visual feedback. <br> I used Photoshop for creating my letters and the [http://nyatla.jp/nyartoolkit/wp/?page_id=166 NyARToolkit], especially the PNG-Marker example as a basis for my code, changed it a bit <br> and added some ambient light. If the camera recognizes a glyph, it displays the related letter from my 3D alphabet as visual feedback. <br> [http://www.openprocessing.org/sketch/303200 Take a look at the code].
+[[Image:wide.png|thumb|left|400px]]
+<br style="clear:both;">
+[[Image:letter-w.png|thumb|left|170px]]
+[[Image:letter-i.png|thumb|left|170px]]
+[[Image:letter-d.png|thumb|left|170px]]
+[[Image:letter-e.png|thumb|left|170px]]
+<br style="clear:both;">
+== [https://www.uni-weimar.de/medien/wiki/GMU:Wild_Type/Jessica_Hüttig/ParticleHarshType Click here to see my final project.] ==