11

I have recently set up a Raspberry Pi camera and am streaming the frames over RTSP. While it may not be completely necessary, here is the command I am using the broadcast the video:

raspivid -o - -t 0 -w 1280 -h 800 |cvlc -vvv stream:///dev/stdin --sout '#rtp{sdp=rtsp://:8554/output.h264}' :demux=h264

This streams the video perfectly.

What I would now like to do is parse this stream with Python and read each frame individually. I would like to do some motion detection for surveillance purposes.

I am completely lost on where to start on this task. Can anyone point me to a good tutorial? If this is not achievable via Python, what tools/languages can I use to accomplish this?

11

Bit of a hacky solution, but you can use the VLC python bindings (you can install it with pip install python-vlc) and play the stream:

import vlc
player=vlc.MediaPlayer('rtsp://:8554/output.h264')
player.play()

Then take a snapshot every second or so:

while 1:
    time.sleep(1)
    player.video_take_snapshot(0, '.snapshot.tmp.png', 0, 0)

And then you can use SimpleCV or something for processing (just load the image file '.snapshot.tmp.png' into your processing library).

  • how can I use the .snapshot.tmp.png file? – Shai M. Feb 4 '18 at 12:32
  • 1
    @ShaiM. The same way you'd use any other PNG file – Samadi Feb 4 '18 at 13:55
  • Can it be used with ubuntu server as well? – Shai M. Feb 4 '18 at 14:08
  • If you install the libraries, probably. Try it and see – Samadi Feb 4 '18 at 14:35
  • btw, can you see my question over here: stackoverflow.com/questions/48620863/… thanks – Shai M. Feb 5 '18 at 12:06
8

Using the same method listed by "depu" worked perfectly for me. I just replaced "video file" with "RTSP URL" of actual camera. Example below worked on AXIS IP Camera. (This was not working for a while in previous versions of OpenCV) Works on OpenCV 3.4.1 Windows 10)

import cv2
cap = cv2.VideoCapture("rtsp://root:pass@192.168.0.91:554/axis-media/media.amp")

while(cap.isOpened()):
    ret, frame = cap.read()
    cv2.imshow('frame', frame)
    if cv2.waitKey(20) & 0xFF == ord('q'):
        break
cap.release()
cv2.destroyAllWindows()
  • This almost worked for me. I had to append a resolution query parameter to the end of the URL, rtsp://user@pass@192.168.0.19/axis-media/media.amp?resolution=1280x720. I'm using OpenCV 4.1.2 on Ubuntu 18.04, and the camera is Axis M5525-E. – Josh Davis Nov 8 '19 at 18:12
4

use opencv

video=cv2.VideoCapture("rtsp url")

and then you can capture framse. read openCV documentation visit: https://docs.opencv.org/3.0-beta/doc/py_tutorials/py_gui/py_video_display/py_video_display.html

2

Depending on the stream type, you can probably take a look at this project for some ideas.

https://code.google.com/p/python-mjpeg-over-rtsp-client/

If you want to be mega-pro, you could use something like http://opencv.org/ (Python modules available I believe) for handling the motion detection.

0

Hi reading frames from video can be achieved using python and OpenCV . Below is the sample code. Works fine with python and opencv2 version.

import cv2
import os
#Below code will capture the video frames and will sve it a folder (in current working directory)

dirname = 'myfolder'
#video path
cap = cv2.VideoCapture("TestVideo.mp4")
count = 0
while(cap.isOpened()):
    ret, frame = cap.read()
    if not ret:
        break
    else:
        cv2.imshow('frame', frame)
        #The received "frame" will be saved. Or you can manipulate "frame" as per your needs.
        name = "rec_frame"+str(count)+".jpg"
        cv2.imwrite(os.path.join(dirname,name), frame)
        count += 1
    if cv2.waitKey(20) & 0xFF == ord('q'):
        break
cap.release()
cv2.destroyAllWindows()
  • 1
    alas the hard part (Read Frames from RTSP Stream) is not covered here – Zac Apr 10 '18 at 16:34
0

Here is yet one more option

It's much more complicated than the other answers. :-O

But this way, with just one connection to the camera, you could "fork" the same stream simultaneously to several multiprocesses, to the screen, recast it into multicast, write it to disk, etc.

.. of course, just in the case you would need something like that (otherwise you'd prefer the earlier answers)

Let's create two independent python programs:

(1) Server program (rtsp connection, decoding) server.py

(2) Client program (reads frames from shared memory) client.py

Server must be started before the client, i.e.

python3 server.py

And then in another terminal:

python3 client.py

Here is the code:

(1) server.py

import time
from valkka.core import *

# YUV => RGB interpolation to the small size is done each 1000 milliseconds and passed on to the shmem ringbuffer
image_interval=1000  
# define rgb image dimensions
width  =1920//4
height =1080//4
# posix shared memory: identification tag and size of the ring buffer
shmem_name    ="cam_example" 
shmem_buffers =10 

shmem_filter    =RGBShmemFrameFilter(shmem_name, shmem_buffers, width, height)
sws_filter      =SwScaleFrameFilter("sws_filter", width, height, shmem_filter)
interval_filter =TimeIntervalFrameFilter("interval_filter", image_interval, sws_filter)

avthread        =AVThread("avthread",interval_filter)
av_in_filter    =avthread.getFrameFilter()
livethread      =LiveThread("livethread")

ctx =LiveConnectionContext(LiveConnectionType_rtsp, "rtsp://user:password@192.168.x.x", 1, av_in_filter)

avthread.startCall()
livethread.startCall()

avthread.decodingOnCall()
livethread.registerStreamCall(ctx)
livethread.playStreamCall(ctx)

# all those threads are written in cpp and they are running in the
# background.  Sleep for 20 seconds - or do something else while
# the cpp threads are running and streaming video
time.sleep(20)

# stop threads
livethread.stopCall()
avthread.stopCall()

print("bye") 

(2) client.py

import cv2
from valkka.api2 import ShmemRGBClient

width  =1920//4
height =1080//4

# This identifies posix shared memory - must be same as in the server side
shmem_name    ="cam_example"
# Size of the shmem ringbuffer - must be same as in the server side
shmem_buffers =10              

client=ShmemRGBClient(
name          =shmem_name,
n_ringbuffer  =shmem_buffers,
width         =width,
height        =height,
mstimeout     =1000,        # client timeouts if nothing has been received in 1000 milliseconds
verbose       =False
) 

while True:
index, isize = client.pull()
if (index==None):
    print("timeout")
else:
    data =client.shmem_list[index][0:isize]
    img =data.reshape((height,width,3))
    img =cv2.GaussianBlur(img, (21, 21), 0)
    cv2.imshow("valkka_opencv_demo",img)
    cv2.waitKey(1)

If you got interested, check out some more in https://elsampsa.github.io/valkka-examples/

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