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jeffbass
563 Stars 106 Forks MIT License 178 Commits 13 Opened issues

Description

A set of Python classes that transport OpenCV images from one computer to another using PyZMQ messaging.

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imageZMQ: Transporting OpenCV images

Introduction

imageZMQ is a set of Python classes that transport OpenCV images from one computer to another using PyZMQ messaging. For example, here is a screen on a Mac computer showing simultaneous video streams from 8 Raspberry Pi cameras:

.. image:: docs/images/screenshottest.png

Using imageZMQ, this is possible with 11 lines of Python on each Raspberry Pi and with 8 lines of Python on the Mac.

First, run this code on the Mac (or other display computer):

.. code-block:: python :number-lines:

# run this program on the Mac to display image streams from multiple RPis
import cv2
import imagezmq
image_hub = imagezmq.ImageHub()
while True:  # show streamed images until Ctrl-C
    rpi_name, image = image_hub.recv_image()
    cv2.imshow(rpi_name, image) # 1 window for each RPi
    cv2.waitKey(1)
    image_hub.send_reply(b'OK')

Then, on each Raspberry Pi, run:

.. code-block:: python :number-lines:

# run this program on each RPi to send a labelled image stream
import socket
import time
from imutils.video import VideoStream
import imagezmq

sender = imagezmq.ImageSender(connect_to='tcp://jeff-macbook:5555')

rpi_name = socket.gethostname() # send RPi hostname with each image picam = VideoStream(usePiCamera=True).start() time.sleep(2.0) # allow camera sensor to warm up while True: # send images as stream until Ctrl-C image = picam.read() sender.send_image(rpi_name, image)

Wow! A video surveillance system with 8 (or more!) Raspberry Pi cameras in 19 lines of Python.

See

About the multiple RPi video streaming examples 
_ for more details about this example.

.. contents::

Why use imageZMQ?

imageZMQ is an easy to use image transport mechanism for a distributed image processing network. For example, a network of a dozen Raspberry Pis with cameras can send images to a more powerful central computer. The Raspberry Pis perform image capture and simple image processing like flipping, blurring and motion detection. Then the images are passed via imageZMQ to the central computer for more complex image processing like image tagging, text extraction, feature recognition, etc. An example of using imageZMQ can be found at

Using imageZMQ in distributed computer vision projects. 
_

Features

  • Sends OpenCV images from one computer to another using ZMQ.
  • Can send jpeg compressed OpenCV images, to lighten network loads.
  • Uses the powerful ZMQ messaging library through PyZMQ bindings.
  • Allows a choice of 2 different ZMQ messaging patterns (REQ/REP or PUB/SUB).
  • Enables the image hub to receive and process images from multiple image senders simultaneously.

Why ZMQ? Why not some other messaging protocol?

There are a number of high quality and well maintained messaging protocols for passing messages between computers. I looked at MQTT, RabbitMQ, AMQP and ROS as alternatives. I chose ZMQ and its Python PyZMQ bindings for several reasons:

  • ZMQ does not require a message broker. It is a peer to peer protocol that does not need to pass an image first to a message broker and then to the imagehub. This means fewer running processes and less “double handling” of images. OpenCV images are large compared to simple text messages, so the absence of a message broker is important.
  • ZMQ is very fast for passing OpenCV images. It enables high throughput between image senders and image hubs.
  • ZMQ and its PyZMQ bindings are easy to install.

imageZMQ has been transporting images from a dozen Raspberry Pi computers scattered around my farm to 2 linux image hub servers for over 2 years. The RPi's capture and send dozens to thousands of frames frames a day. imageZMQ has worked very reliably and is very fast. You can learn more about my "science experiment urban permaculture farm" project at

Yin Yang Ranch project overview. 
_

Messaging Patterns: REQ/REP versus PUB/SUB

ZMQ allows many different messaging patterns. Two are implemented in imageZMQ:

  • REQ/REP: Each RPi sends an image and waits for a REPLY from the central image hub. The RPi sends a new image only when the REPLY is received. In the REQ/REP messaging pattern, each image sender must await a REPLY before continuing. It is a "blocking" pattern for the sender.
  • PUB/SUB: Each RPi sends an image, but does not expect a REPLY from the central image hub. It can continue sending images without awaiting any acknowledgement from the image hub. The image hub provides no REPLY. It is a "non-blocking" pattern for the sender.

There are advantages and disadvantages for each pattern. For further details, see:

REQ/REP versus PUB/SUB Messaging Patterns 
_. REQ/REP is the default.

Dependencies and Installation

+--------------+--------+---------------+-----------+-------+ | |pyversions| | |pypi| | |releasedate| | |license| | |doi| | +--------------+--------+---------------+-----------+-------+

.. |pyversions| image:: /docs/images/python_versions.svg :target: https://pypi.org/project/imagezmq/

.. |pypi| image:: /docs/images/pypi_version.svg :target: https://pypi.org/project/imagezmq/

.. |releasedate| image:: /docs/images/release_date.svg :target: https://github.com/jeffbass/imagezmq/releases/tag/v1.1.1

.. |license| image:: /docs/images/license.svg :target: LICENSE.txt

.. |doi| image:: /docs/images/doi.svg :target: https://doi.org/10.5281/zenodo.3840855

imageZMQ has been tested with:

  • Python 3.5, 3.6, 3.7 and 3.8
  • PyZMQ 16.0, 17.1 and 19.0
  • Numpy 1.13, 1.16 and 1.18
  • OpenCV 3.3, 4.0 and 4.1
  • Raspbian Buster, Raspbian Stretch and Raspbian Jessie
  • picamera 1.13 (used to capture images for the tests)
  • imutils 0.4.6, 0.5.2 and 0.5.3 (used to capture images from PiCamera)

OpenCV is challenging to install. I recommend using the installation instructions at

PyImageSearch 
_. Adrian Rosebrock's PyImageSearch blog and books are great resources for learning about and installing OpenCV on Raspberry Pi's, Macs and Linux computers.
  • Raspbian Stretch: Install OpenCV 3 + Python on your Raspberry Pi
    
    _
  • macOS: Install OpenCV 3 and Python 3.5
    
    _
  • Ubuntu 16.04: How to install OpenCV
    
    _

Be sure to install OpenCV, including Numpy, into a Python Virtual Environment, as shown in the above tutorials. Be sure to install imageZMQ into the same virtual environment. For example, my virtual environment is named py3cv3.

Install imageZMQ using pip:

.. code-block:: bash

workon py3cv3  # use your virtual environment name
pip install imagezmq

imageZMQ has a directory of tests organized into sender and receiver pairs. You will get the "tests" directory containing all the test programs by cloning the GitHub repository:

.. code-block:: bash

git clone https://github.com/jeffbass/imagezmq.git

Once you have cloned the imagezmq directory to a directory on your local machine, you can run the tests per the instructions below. You can use imageZMQ in your own code by importing it (

import imagezmq
).

imageZMQ and all of the software dependencies must be installed on the display computer that will be receiving the images AND it must all be installed on every Raspberry Pi that will be sending images. If you will be using multiple Raspberry Pis to capture and send images it is best to install the software on a single Raspberry Pi and test it using the tests below. Once all the tests have run successfully, clone the SD card as needed to use the software on multiple Raspberry Pis.

Running the Tests

When running the tests, use multiple terminal windows on the computer that will be displaying the images (I used a Mac for these examples; in my descriptions I use the term "Mac" to refer to any Mac or Linux computer, including a Raspbery Pi). One terminal window is used to launch the programs that run on the Mac to receive the images. Another terminal window on the Mac is used to ssh into the Raspberry Pi and run the image sending program. If sending from multiple Raspberry Pis, ssh to each Raspberry Pi in a new terminal window. imageZMQ and its dependencies must be installed on the Mac and on each Raspberry Pi that will be sending images.

There are 3 tests. Each of the tests uses 2 programs in matched pairs. One program sends images and the other program displays images. Because of the REQ/REP pattern that is being used, it is important that the receiving program be started before the sending program.

imageZMQ is in early development as part of a larger system. There are currently separate methods for sending and receiving images vs. jpg compressed images. Further development will refactor these into single methods for sending and receiving. ::

Test 1: Simple generated images sent and displayed on Mac

The first test runs both the sending program and the receiving program on the Mac. This confirms that all the software is installed correctly and that

cv2.imshow()
works on the Mac. No Raspberry Pi or camera is involved. The sending program generates test images and sends them to the receiving program. First, in one terminal window, activate your virtual environment, then change to the tests directory and run the receiving program, which will receive and display images::
workon py3cv3  # use your virtual environment name
cd imagezmq/tests
python test_1_receive_images.py

Then, in a second terminal window on the same display computer (Mac), change to the tests directory and run the sending program, which will generate and send images::

workon py3cv3  # use your virtual environment name
cd imagezmq/tests
python test_1_send_images.py

After a few seconds, a

cv2.imshow()
window should open and display a green square on a black background. There will be a yellow number in the green square that will increase (1, 2, ...) once per second until you stop both programs by pressing Ctrl-C. It is normal to get a cascade of error messages when stopping the program with Ctrl-C. This simple test program has no try / except error trapping.

Test 2: Sending stream of OpenCV images from RPi(s) to Mac

The second test runs the sending program on a Raspberry Pi, capturing images from the PiCamera at up to 32 frames a second and sending them via imageZMQ to the Mac. The receiving program on the Mac displays a continuous video stream of the images captured by the Raspberry Pi. First, in one terminal window, activate your virtual environment, change to the tests directory and run the receiving program which will display the images::

workon py3cv3  # use your virtual environment name
cd imagezmq/tests
python test_2_receive_images.py

Then, in a second terminal window on the Mac, ssh into the Raspberry Pi that will be sending images. Activate your Python virtual environment, change to the tests directory and edit the test2send_images.py program to specify the tcp address of your display computer. There are 2 lines in the program that show different ways of specifying the tcp address: by hostname or by tcp numeric address. Pick one method, change the tcp address to that of your display computer and comment out the method you are not using. Finally, run the program, which will capture and send images::

workon py3cv3  # use your virtual environment name
cd imagezmq/tests
python test_2_send_images.py

In about 5 seconds, a

cv2.imshow()
window will appear on the Mac and display the video stream being sent by the Raspberry Pi. You can repeat this step in additional terminal windows, to ssh into additional Raspberry Pi computers and start additional video streams. The receiving program can receive and display images from multiple Raspberry Pis, with each Raspberry Pi's image stream showing in a separate window. For this to work, each Raspberry Pi must have a unique hostname because the images are sorted into different
cv2.imshow()
windows based on the hostname. The
cv2.imshow()
windows for multiple Raspberry Pi streams will be stacked on top of each other until you drag them and arrange them on your desktop. The example picture at the start of this documentation shows 8 simultaneous video streams for 8 Raspberry Pi computers with different hostnames. Each program must be stopped by pressing Ctrl-C in its terminal window. It is normal to get a cascade of error messages when stopping these programs with Ctrl-C. This simple test program has no try / except error trapping.

Test 3: Sending stream of jpgs from RPi(s) to Mac

The third test runs a different pair of sending / receiving programs. The program on the Raspberry Pi captures images from the PiCamera at up to 32 frames a second and compresses them to jpeg form before sending them via imageZMQ to the Mac. The receiving program on the Mac converts the jpg compressed frames back to OpenCV images and displays them as a continuous video stream. This jpeg compression can greatly reduce the network load of sending many images from multiple sources.

The programs that send and receive the images using jpg compression are run in the same way as the above pair of programs that send uncompressed images. Use the instructions above as a guide. The programs for Test 3 are::

test_3_receive_jpg.py  # run on the Mac to receive & decompress images
test_3_send_jpg.py     # ron on each Raspberry Pi to compress & send images

As with the previous Test 2 program pair, you will need to edit the "connect_to" address in the sending program to the tcp address of your Mac (or other display computer). You will also need to remember to start the receive program on the Mac before you start the sending program on the Raspberry Pi. As before, each program must be stopped by pressing Ctrl-C in its terminal window. It is normal to get a cascade of error messages when stopping these programs with Ctrl-C. This simple test program has no try / except error trapping. Be sure to activate your virtual environment as you did for Test 2 (see above) before running these tests.

Test 4: Using PUB/SUB to send simple generated images and display them on Mac

The fourth test is a repeat of Test 1, but uses the PUB/SUB messaging pattern instead of the REQ/REP messaging pattern. It shows the differences in running PUB/SUB versus REQ/REP in the simplest possible test program.

Test 4 runs both the sending program and the receiving program on the Mac. No Raspberry Pi or camera is involved. This test shows the start / stop flexibility of the PUB/SUB pattern. All 3 of the above REQ/REP tests require that the receiving program be started first, then the sending program. And they require that the sending program be restarted if the receiving program is restarted. This is standard behavior for the REQ/REP messaging pattern. But this test shows that either PUB/SUB program can be started first and that message sending will resume if either program is restarted. That is a feature of the PUB/SUB messaging pattern. See other documentation listed below for further differences, advantages and disadvantages of the REQ/REP versus PUB/SUB messaging patterns.

The sending program generates test images and sends them to the receiving program. First, in one terminal window, activate your virtual environment, then change to the tests directory and run the receiving program, which will receive and display images::

workon py3cv3  # use your virtual environment name
cd imagezmq/tests
python test_4_pub.py

Then, in a second terminal window on the same display computer (Mac), change to the tests directory and run the sending program, which will generate and send images::

workon py3cv3  # use your virtual environment name
cd imagezmq/tests
python test_4_sub.py

After a few seconds, a

cv2.imshow()
window should open and display a green square on a black background. There will be a yellow number in the green square that will increase (1, 2, ...) once per second. Now you can stop either program and restart it and see that the sending of numbers continues and picks up where it left off (though some transmitted images may have been skipped during restart). It is normal to get a cascade of error messages when starting and stopping the program with Ctrl-C. These simple test program have no try / except error trapping, since their only purpose is this simple demonstration.

Timing tests: Complete imageZMQ usage examples

The test programs above are short and simple. They test that the software and dependencies are installed correctly and that images transfer successfully between a Raspberry Pi computer and a display computer such as a Mac. The tests directory contains 2 more send / receive program pairs that provide a more complete example of imageZMQ usage. Each of these programs includes try / except blocks that enable ending the programs by typing Ctrl-C without starting a cascade of error messages. They also perform frames per second (FPS) timing tests that measure the speeds of image transfer using the compressed versus the non-compressed transfer methods. They also show how to capture the hub response in the sending program, which wasn't needed in the simple tests.

One pair of programs transmits and receives OpenCV images and measures FPS::

timing_receive_images.py  # run on Mac to display images
timing_send_images.py     # run on Raspberry Pi to send images

Another pair of programs transmits and receives jpg compressed images and measures FPS::

timing_send_jpg_buf.py     # run on Raspberry Pi to send images
timing_receive_jpg_buf.py  # run on Mac to display images

As with the other test program pairs, you will need to edit the "connect_to" address in the sending program to the tcp address of your Mac (or other display computer). You will also need to remember to start the receive program on the Mac before you start the sending program on the Raspberry Pi. With these programs, the try / except blocks will end the programs cleanly with no errors when you press Ctrl-C. Be sure to activate your virtual environment before running these tests.

Additional Documentation and Examples

  • API and Two Simple Example Programs 
    _
  • More details about the multiple RPi video streaming example 
    _
  • REQ/REP versus PUB/SUB Messaging Patterns 
    _
  • Examples showing different techniques for using imageZMQ 
    _
  • Using imageZMQ in distributed computer vision projects 
    _
  • FAQ: Frequently Asked Questions 
    _
  • How imageZMQ is used in my own projects connecting multiple Raspberry Pi imagenodes to an imagehub:

    • My Yin Yang Ranch project to manage a small urban permaculture farm:
      Yin Yang Ranch project overview 
      _
    • imagenode: Capture and Send Images and Sensor Data 
      _
    • imagehub: Receive and Store Images and Event Logs 
      _

I gave a talk about imageZMQ and its use in my Yin Yang Ranch project at PyCon 2020: Jeff Bass - Yin Yang Ranch: Building a Distributed Computer Vision Pipeline using Python, OpenCV and ZMQ

PyCon 2020 Talk Video about the project  
_

PyCon 2020 Talk Presentation slides  
_

Contributing

imageZMQ is still in active development. I welcome open issues and pull requests, but because the programs are still evolving, it is best to open an issue for some discussion before submitting pull requests. We can exchange ideas about your potential pull request and open a development branch where you can develop your code and get feedback and testing help from myself and others. imageZMQ is used in my own long running projects and the projects of others, so backwards compatibility with the existing API is important.

Contributors

Thanks for all contributions big and small. Some significant ones:

+------------------------+-----------------+----------------------------------------------------------+ | Contribution | Name | GitHub | +------------------------+-----------------+----------------------------------------------------------+ | Initial code & docs | Jeff Bass |

@jeffbass 
_ | +------------------------+-----------------+----------------------------------------------------------+ | Added PUB / SUB option | Maksym |
@bigdaddymax 
_ | +------------------------+-----------------+----------------------------------------------------------+ | HTTP Streaming example | Maksym |
@bigdaddymax 
_ | +------------------------+-----------------+----------------------------------------------------------+ | Fast PUB / SUB example | Philipp Schmidt |
@philipp-schmidt 
_ | +------------------------+-----------------+----------------------------------------------------------+

Helpful Forks of imageZMQ

Some users have come up with Forks of imageZMQ that I think will be helpful to others, either by using their code or reading their changed code. If you have developed a fork of imageZMQ that demonstrates a concept that would be helpful to others, please open an issue describing your fork so we can have a discussion first rather than opening a pull request. Thanks!

+----------------------------+------------+----------------------------------------------------------------------+ | Helpful Fork | Name | GitHub repository of fork | +----------------------------+------------+----------------------------------------------------------------------+ | Add timeouts to image | Pat Ryan |

@youngsoul 
_ See CHANGES.md | | sender to fix restarts or | | | | non-response of ImageHub | | | +----------------------------+------------+----------------------------------------------------------------------+

Acknowledgements and Thank Yous

  • ZeroMQ is a great messaging library with great documentation at
    ZeroMQ.org 
    _.
  • PyZMQ serialization examples provided a starting point for imageZMQ. See the
    PyZMQ documentation 
    _.
  • OpenCV and its Python bindings provide great scaffolding for computer vision projects large or small:
    OpenCV.org 
    _.
  • PyImageSearch.com is the best resource for installing OpenCV and its Python bindings. Adrian Rosebrock provides many practical OpenCV techniques with tutorials, code examples, blogs and books at
    PyImageSearch.com 
    _. Installing OpenCV on my Raspberry Pi computers, Macs and Linux boxes went from frustrating to easy thanks to his tutorials. I also learned a LOT about computer vision methods and techniques by taking his PyImageSearch Gurus course. Highly recommended.
  • imutils is a collection of Python classes and methods that allows computer vision programs using OpenCV to be cleaner and more compact. It has a very helpful threaded image reader for Raspberry PiCamera modules or webcams. It allowed me to shorten my camera reading programs on the Raspberry Pi by half:
    imutils on GitHub 
    _. imutils is an open source project authored by Adrian Rosebrock.

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