Participant 1

Initial description: Use the symetry axis of the pictures and void it

Final description: In every box that was green, reproduce the negative image of the text input


Attempt 1: Incorrect
Attempt 2: Incorrect
Attempt 3: Incorrect

Participant 2

Initial description: Expand the green objects by 3 and black out the diagonal

Final description: I am not really sure


Attempt 1: Incorrect
Attempt 2: Incorrect
Attempt 3: Incorrect

Participant 3

Initial description: After looking at the 3 example Inputs and the 3 example outputs, I concluded that the pattern being transformed was that of the inverse of the input.

Final description: After studying the inputs to outputs I realized it was inverse patterns. These inverse small patterns were creating the larger pattern on the outputs.


Attempt 1: Incorrect
Attempt 2: Correct

Participant 4

Initial description: unknown

Final description: unknown


Attempt 1: Incorrect
Attempt 2: Incorrect
Attempt 3: Incorrect

Participant 5

Initial description: Aligns with seperating the look of the peices.

Final description: Tried to match the example outputs with the 9x9 grid. Color would match similar to the other.


Attempt 1: Incorrect
Attempt 2: Incorrect
Attempt 3: Incorrect

Participant 6

Initial description: grids experimenting

Final description: Create a grid experiment


Attempt 1: Incorrect
Attempt 2: Incorrect
Attempt 3: Incorrect

Participant 7

Initial description: Create the green pattern in the corners with a black square being in each corner

Final description: Create a square with this green pattern


Attempt 1: Incorrect
Attempt 2: Incorrect
Attempt 3: Incorrect

Participant 8

Initial description: This one was a bit confusing, but from the way I understood it, it multiplied the output by three and broke up the colored squares in the process.

Final description: I thought the rule was to multiply the number of colored panel by the number of black and multiply all the panels as 3 x 3 = 9, which equals 9 x 9 = 81 blocks. So then I was supposed to break up each one colored block by the number of black blocks per one section of 3 x 3 cells to represent the previous input.


Attempt 1: Incorrect
Attempt 2: Incorrect
Attempt 3: Incorrect

Participant 9

Initial description: Use the 3x3 grid to determine which sections will be used in the 9x9 grid. Then in each of the sections used, invert the colors from the original test input.

Final description: Use the 3x3 grid to determine which sections will be used in the 9x9 grid. Then in each of the sections used, invert the colors from the original test input.


Attempt 1: Correct

Participant 10

Initial description: Reverse the input

Final description: I was trying to follow along with the demo inputs


Attempt 1: Incorrect
Attempt 2: Incorrect
Attempt 3: Incorrect

Participant 11

Initial description: The test input is made black and put in each square that has color.

Final description: Each block is made 3x3, the ones that were colored had the input image made black and put in each square.


Attempt 1: Incorrect
Attempt 2: Correct

Participant 12

Initial description: Take the original input and change the main color to black and the black spots to the main color of the input to create a new inverted 3x3 image. Increase the size of the output into a 9x9 grid, and visually split it into 9 separate 3x3 sections. Copy the inverted 3x3 image template and paste it into the 9x9 grid using the original 3x3 input as a guide of where to place the inverted 3x3 template

Final description: Take the original input and change the main color to black and the black spots to the main color of the input to create a new inverted 3x3 image. Increase the size of the output into a 9x9 grid, and visually split it into 9 separate 3x3 sections. Copy the inverted 3x3 image template and paste it into the 9x9 grid using the original 3x3 input as a guide of where to place the inverted 3x3 template


Attempt 1: Correct