19.10.2018 - Week 1
| Result | Algorithm |
|---|---|
|
Homework / Introduction
Superimposed results of the Introductory Algorithm. By executing the algorithm, each participant of the class created a unique personal sign, based on their own name. |
|
|
Recreating Q1 Supermatistic by László Moholy-Nagy. |
|
Recreating AXL II by László Moholy-Nagy. |
26.10.2018 - Week 2
| Result | Algorithm |
|---|---|
|
Creating a 2D grid structure, using nested for loops in Processing. |
02.11.2018 - Week 3
| Result | Algorithm |
|---|---|
 |
Recreating "Schotter" by Georg Nees in class. |
|
Experimenting with Brownian Motion in class.
|
| Result | Algorithm |
 |
some more experiments on randomness. |
| |
Link to Algorithm |
| |
Link to Algorithm |
09.11.2018 - Week 4
| Result | Algorithm |
|---|---|
|
Experiments with the noise function in class. idea from the "Unknown Pleasures" Poster by Joy Division. |
22.11.2018 - Week 5
| Result | Algorithm |
|---|---|
|
|
Somehow lost some files. but they all are based on the same algorithm, with different settings in color, size, speed and number : Link to Algorithm |
30.11.2018 - Week 6
| Result | Algorithm |
|---|---|
|
|
we started to work with images. each pixel is referring to a line. the length of the lines and their number and distance is depending on the x coordinate of the mouse. |
|
|
I used a similar technique to create christmas postcards. The first one is a photo of trees in winter and only the darkest parts of the picture are shown. I printed the result with a pen plotter. |
|
|
The second one is a candle and only the brighter pixels are displayed. The pixels are simplified into two orthogonal lines. Their length is depending on their brightness. I don't know why, but this one could not be printed with the plotter. |
14.12.2018 - Week 7
| Result | Algorithm |
|---|---|
|
|
This is a result from the so called Pixel Sorting technique we did in class.
Original Picture is a portrait of Richard Avedon by Jacques-Henri Lartique, 1966. |
|
|
We also started to work within a 3d environment. we loaded images and made the height of their pixels depending on their brightness. As images, I took some results of earlier algorithms, |
HGP-Algorithms
| Result | Algorithm |
|---|---|
 |
My first algortithm was only about creating an intersting pattern, but it didn't really came out like I expected it. I forgot to write, that the lines should go from the left to the right edge of the paper. and I wrote a second algorithm underneath, but the HGP assumed them as one algorithm, which made it maybe a bit difficult to understand what to do. But it looks very intersting and abstract and I at least learned how difficult it is to give correct advises and to make another person realize an image that only exists in ones head. |
|
 In this algorithm we should include randomness. I wanted to create a rectengular spiral, by drawing 3 lines in a 90 degeree angle and one line in an angle choosen by the HGP. I reduced the area for the angles so that the algorithm would work, but i maybe should have reduced it more, so that there are more lines and a more interesting image. |
 |
Noise Notation
This algorithm was about collecting parameters and numbers out of our surrounding. I choose the topic noise, because I had a class about Urban Soundscapes in the last semester and I wanted to try a simple form of notation. The HGP shouldonly focus on the hearing in crowded places. I did not say whether to draw the waves on top of each other or under each other, thats why there are these 2 different forms in the result. I like it, that you can see the differences between the different places where the noise was notated and I had fun hearing about what some significant wave forms mean (like screaming kids on the ice rink) |
 
|
|
