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2022-235 Vehicle parking system
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2022-235
2022-235 Vehicle parking system
Commits
e4821c01
Commit
e4821c01
authored
Nov 10, 2022
by
@Thilakasiri_M.D.T.S
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component_4/__pycache__/human_action_detector.cpython-38.pyc
component_4/__pycache__/human_action_detector.cpython-38.pyc
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component_4/human_action_detector.py
component_4/human_action_detector.py
+125
-0
component_4/sample_data/test1.jpeg
component_4/sample_data/test1.jpeg
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-0
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component_4/__pycache__/human_action_detector.cpython-38.pyc
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e4821c01
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component_4/human_action_detector.py
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e4821c01
import
cv2
import
mediapipe
as
mp
import
numpy
as
np
import
os
import
random
mp_drawing
=
mp
.
solutions
.
drawing_utils
mp_pose
=
mp
.
solutions
.
pose
mp_drawing
=
mp
.
solutions
.
drawing_utils
mp_holistic
=
mp
.
solutions
.
holistic
mp_pose
=
mp
.
solutions
.
pose
mp_drawing
.
DrawingSpec
(
color
=
(
0
,
0
,
255
),
thickness
=
2
,
circle_radius
=
2
)
def
calculate_angle
(
a
,
b
,
c
):
a
=
np
.
array
(
a
)
# First
b
=
np
.
array
(
b
)
# Mid
c
=
np
.
array
(
c
)
# End
radians
=
np
.
arctan2
(
c
[
1
]
-
b
[
1
],
c
[
0
]
-
b
[
0
])
-
np
.
arctan2
(
a
[
1
]
-
b
[
1
],
a
[
0
]
-
b
[
0
])
angle
=
np
.
abs
(
radians
*
180.0
/
np
.
pi
)
if
angle
>
180.0
:
angle
=
360
-
angle
return
angle
def
get_human_thred
():
cap
=
cv2
.
VideoCapture
(
0
)
## Setup mediapipe instance
with
mp_pose
.
Pose
(
min_detection_confidence
=
0.5
,
min_tracking_confidence
=
0.5
)
as
pose
:
while
cap
.
isOpened
():
ret
,
frame
=
cap
.
read
()
# Recolor image to RGB
image
=
cv2
.
cvtColor
(
frame
,
cv2
.
COLOR_BGR2RGB
)
image
.
flags
.
writeable
=
False
# Make detection
results
=
pose
.
process
(
image
)
# Recolor back to BGR
image
.
flags
.
writeable
=
True
image
=
cv2
.
cvtColor
(
image
,
cv2
.
COLOR_RGB2BGR
)
# Extract landmarks
try
:
landmarks
=
results
.
pose_landmarks
.
landmark
# Get coordinates
shoulder
=
[
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_SHOULDER
.
value
]
.
x
,
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_SHOULDER
.
value
]
.
y
]
elbow
=
[
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_ELBOW
.
value
]
.
x
,
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_ELBOW
.
value
]
.
y
]
wrist
=
[
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_WRIST
.
value
]
.
x
,
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_WRIST
.
value
]
.
y
]
# Calculate angle
angle
=
calculate_angle
(
shoulder
,
elbow
,
wrist
)
# Visualize angle
cv2
.
putText
(
image
,
str
(
angle
),
tuple
(
np
.
multiply
(
elbow
,
[
640
,
480
])
.
astype
(
int
)),
cv2
.
FONT_HERSHEY_SIMPLEX
,
0.5
,
(
255
,
255
,
255
),
2
,
cv2
.
LINE_AA
)
except
:
pass
# Render detections
mp_drawing
.
draw_landmarks
(
image
,
results
.
pose_landmarks
,
mp_pose
.
POSE_CONNECTIONS
,
mp_drawing
.
DrawingSpec
(
color
=
(
245
,
117
,
66
),
thickness
=
2
,
circle_radius
=
2
),
mp_drawing
.
DrawingSpec
(
color
=
(
245
,
66
,
230
),
thickness
=
2
,
circle_radius
=
2
)
)
cv2
.
imshow
(
'Mediapipe Feed'
,
image
)
if
cv2
.
waitKey
(
10
)
&
0xFF
==
ord
(
'q'
):
break
cap
.
release
()
cv2
.
destroyAllWindows
()
def
get_human_thred_temp
():
with
mp_pose
.
Pose
(
min_detection_confidence
=
0.5
,
min_tracking_confidence
=
0.5
)
as
pose
:
sample_imgs
=
os
.
listdir
(
'component_4/sample_data'
)
frame
=
cv2
.
imread
(
'component_4/sample_data/'
+
str
(
random
.
choice
(
sample_imgs
)))
# Recolor image to RGB
image
=
cv2
.
cvtColor
(
frame
,
cv2
.
COLOR_BGR2RGB
)
image
.
flags
.
writeable
=
False
# Make detection
results
=
pose
.
process
(
image
)
# Recolor back to BGR
image
.
flags
.
writeable
=
True
image
=
cv2
.
cvtColor
(
image
,
cv2
.
COLOR_RGB2BGR
)
# Extract landmarks
try
:
landmarks
=
results
.
pose_landmarks
.
landmark
# Get coordinates
shoulder
=
[
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_SHOULDER
.
value
]
.
x
,
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_SHOULDER
.
value
]
.
y
]
elbow
=
[
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_ELBOW
.
value
]
.
x
,
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_ELBOW
.
value
]
.
y
]
wrist
=
[
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_WRIST
.
value
]
.
x
,
landmarks
[
mp_pose
.
PoseLandmark
.
LEFT_WRIST
.
value
]
.
y
]
# Calculate angle
angle
=
calculate_angle
(
shoulder
,
elbow
,
wrist
)
if
angle
>
60
:
return
True
else
:
return
False
except
:
return
False
component_4/sample_data/test1.jpeg
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e4821c01
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