there is a simple way for detecting hand using skin tone. perhaps this could help... you can see the results on this youtube video. caveat: the background shouldn't contain skin colored things like wood.
here is the code:
''' Detect human skin tone and draw a boundary around it.
Useful for gesture recognition and motion tracking.
Inspired by: http://stackoverflow.com/a/14756351/1463143
Date: 08 June 2013
# Required moduls
# Constants for finding range of skin color in YCrCb
min_YCrCb = numpy.array([0,133,77],numpy.uint8)
max_YCrCb = numpy.array([255,173,127],numpy.uint8)
# Create a window to display the camera feed
# Get pointer to video frames from primary device
videoFrame = cv2.VideoCapture(0)
# Process the video frames
keyPressed = -1 # -1 indicates no key pressed
while(keyPressed < 0): # any key pressed has a value >= 0
# Grab video frame, decode it and return next video frame
readSucsess, sourceImage = videoFrame.read()
# Convert image to YCrCb
imageYCrCb = cv2.cvtColor(sourceImage,cv2.COLOR_BGR2YCR_CB)
# Find region with skin tone in YCrCb image
skinRegion = cv2.inRange(imageYCrCb,min_YCrCb,max_YCrCb)
# Do contour detection on skin region
contours, hierarchy = cv2.findContours(skinRegion, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE)
# Draw the contour on the source image
for i, c in enumerate(contours):
area = cv2.contourArea(c)
if area > 1000:
cv2.drawContours(sourceImage, contours, i, (0, 255, 0), 3)
# Display the source image
# Check for user input to close program
keyPressed = cv2.waitKey(1) # wait 1 milisecond in each iteration of while loop
# Close window and camera after exiting the while loop
the cv2.findContour is quite useful, you can find the centroid of a "blob" by using cv2.moments after u find the contours. have a look at the opencv documentation on shape descriptors.
i havent yet figured out how to make the skeletons that lie in the middle of the contour but i was thinking of "eroding" the contours till it is a single line. in image processing the process is called "skeletonization" or "morphological skeleton". here is some basic info on skeletonization.
here is a link that implements skeletonization in opencv and c++
here is a link for skeletonization in opencv and python
hope that helps :)
--- EDIT ----
i would highly recommend that you go through these papers by Deva Ramanan (scroll down after visiting the linked page): http://www.ics.uci.edu/~dramanan/
- C. Desai, D. Ramanan. "Detecting Actions, Poses, and Objects with
Relational Phraselets" European Conference on Computer Vision
(ECCV), Florence, Italy, Oct. 2012.
- D. Park, D. Ramanan. "N-Best Maximal Decoders for Part Models" International Conference
on Computer Vision (ICCV) Barcelona, Spain, November 2011.
- D. Ramanan. "Learning to Parse Images of Articulated Objects" Neural Info. Proc.
Systems (NIPS), Vancouver, Canada, Dec 2006.