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import numpy as np
from EV3Robot import *
robot = Robot()
robot.connect_motor( 'left' )
robot.connect_motor( 'right' )
robot.connect_sensor( 'color' )
#syn0, syn1=train()
#syn0 = [[-0.05111396, -0.65152816],
#[-0.60031302, -0.42462132],
#[-0.61138226, -0.94931736],
#[-0.54869344, -1.05984886],
#[ 0.01826786, 0.24129794],
#[ 0.14427619, -0.29771331],
#[-0.74305135, 0.076575 ],
#[-0.08188871, -0.31810276],
#[-0.26736444, 0.20061916],
#[-1.58011504, -1.44969247],
#[-0.47182455, 2.43261639],
#[ 2.17045716, -1.52101072]],
#syn1 = [[ -3.47021005, -61.89030242, 12.78322924],
#[ -2.8108547, 22.64381972, -65.90059129]]
syn0 = [[-0.22387899, 0.0272135 ],
[-0.53776054, -0.36374634],
[-0.61603734, -0.48518088],
[-0.57052126, -0.56987098],
[ 0.2442093, 0.23051107],
[-0.17470505, 0.42684878],
[-0.53413718, 0.49524244],
[-0.49455046, 0.49381262],
[-0.17848447, 0.17378944],
[-0.84917023, -1.20753232],
[ 2.3610183, 0.48650416],
[-1.5081981, 1.38669447]]
syn1 = [[ -1.50414787, 17.11258305, -19.87962655],
[ -1.63558919, -16.87799893, 3.60433587]]
print("get train data",syn0)
print(syn1)
def nonlin(x, deriv=False):
if (deriv == True):
return x * (1 - x)
return 1 / (1 + np.exp(-x))
def calculate_output(syn0, syn1, l0):
l1 = nonlin(np.dot(l0, syn0))
l2 = nonlin(np.dot(l1, syn1))
return l2
def run1(speed):
previous = []
while(1):
#check the state
state_1 = get_state()
#action taken according to maximum value of q table in color column
if(previous==[]):
action=1
#get action from
# action = np.argmax(q,axis=0)[state_1]
else:
vector=toBinary(previous)
current=[0,0,0]
current[int(state_1)]=1
input=np.append(vector, current)
l2 = calculate_output(syn0, syn1, [input])
action=np.argmax(l2)
# do the action
do_action(action, speed)
state_2=get_state()
previous=[state_1, state_2, action]
def toBinary(set):
vector = np.zeros((9,), dtype=np.int)
vector[int(set[0])] = vector[int(set[1]) + 3] = vector[int(set[2]) + 6] = 1;
return vector
def bgw(isee, follow_color=50, grey_zone=25):
if isee < follow_color - grey_zone: # BLACK
return 0
elif isee > follow_color + grey_zone: # WHITE
return 1
else: # move forward if in the grey zone
return 2
def get_state():
isee = robot.color_sensor_measure('reflected_light_intensity')
color = bgw(isee)
return color
def do_action(action, speed):
if action == 0:
robot.move(0,speed) #left
elif action == 1:
robot.move(speed, 0) #right
elif action == 2:
robot.move(speed, speed) #forward
run1(40)
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