Juggling Simulator, vision research, 1 minute

Machine progress: https://imgur.com/a/2ugHkUZ

Total practice time: **1 minutes**

Location: Linux

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Juggling Simulator, 60 minutes

Actual vs. Ideal. Overlaying a computer generated juggling pattern onto the pattern being juggled: https://youtu.be/HvaNtRklvms

Total practice time: **60 minutes**

Location: Linux

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Juggling Simulator, 60 minutes

I developed a shower pattern in the juggling simulator I wrote: https://youtu.be/M0v33wIQSwc.

Total practice time: **60 minutes**

Location: Linux

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Juggling Simulator, 60 minutes

Animation created by the juggling simulator I wrote: https://youtu.be/yCAWA0LYjGg

import cv2

import numpy as np

import math

i = 0

h,w = 800, 800

scale = 300

colors = (0,0,255), (0,255,0), (255,0,0),(125,0,125), (0,125,125), (125,125,0), (125,125,125)

tracks = []

while True:

img = np.zeros((h,w,3),np.uint8)

phase = 0

for color in colors:

y = math.sin((i+phase)*2)*scale

x = math.cos(i+phase)*scale*.6

center = int(x)+w/2,int(y)+h/2

cv2.circle(img,center, 5, color, thickness=5)

phase+= math.pi/len(colors)*2

tracks.append(center)

for p in tracks[-800:]:

cv2.circle(img,p, 1, (129,192,192), thickness=1)

cv2.imshow('img', img)

cv2.waitKey(1)

i += .008

Juggling Simulator, 60 minutes

Developed a half-shower pattern in my juggling simulator: https://youtu.be/WIiaULqZ_70

Total practice time: **120 minutes**

Location: Linux

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