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Thomas Brittain
Thomas Brittain

Posted on • Originally published at ladvien.com

Install Tensorflow and OpenCV on Raspberry Pi

This post shows how to setup a Raspberry Pi 3B+ for operating a Tensorflow CNN model using a Pi Camera Module v2.0.

Raspberry Pi Setup

I will be focusing on the Raspberry Pi 3B+, but don't worry if you are using a different Pi. Just let me know in the comments below and I'll try to get instructions for your particular Pi added.

Step #1: Download Raspbian Buster with desktop and recommended software

download-raspbian

Step #2: Write the image to a 8gb (or greater) SD card. I use Etcher.

write-raspbian-sd-card

Step #3: Once the image is finished, and before you plug the card into the Pi, open the SD card and create a file called ssh. No extension and nothing inside. This will enable ssh on boot.

enable-ssh-with-boot-file

Step #4: Plug the card in to the Pi.
Step #5: Plug a LAN cable into the Pi
Step #6: Attach your PiCam.

Note, there are two plugs the PiCamera will mate with. To save frustration:

pi-cam-connector

Step #7: Turn the Pi on.
Step #8: Find the ip of your Pi and ssh into it with the following.

ssh pi@your_pi_ip
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The password will be raspberry

The easiest way to find your Pi's ip is to login into your router. Usually, you can login into your router by opening a webbrowser on your PC and typing 192.168.1.1. This is the "home" address. You should then be prompted to login to the router. On your router's web interface there should be a section for "attached devices." You can find your Pi's ip there. If many are listed, you can turn off your Pi and see which ip goes away. That was probably the Pi's ip.

Step #9: Once on the Pi, run the following

sudo raspi-config
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This should open a old school GUI.

Enable the following under Interfacing Options

Camera
VNC
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The camera will allow us to use the PiCamera and VNC will allow us to open a a remote desktop environment, which should make it easier to adjust the PiCamera.

(Optional) When working with a remote desktop environment, too high of a resolution can cause responsiveness issues with the VNC client (RealVNC). To prevent this, the Raspbian setup automatically adjusts the Pi resolution to the lowest. Unfortunately, I find this troublesome when trying to do computer vision stuff from the Pi. The following will allow you to adjust the resolution--just keep in mind, if it's too high there could be trouble. Oh, one note here, this is the main reason I'm using a LAN connection to my Pi, as it allows greater throughput than WiFi.

Update! Apparently, if you raise your Pi's resolution too high, then you will not be able to start your PiCam from Python. This is due to the PicCam buffering frames in the GPU memory of the Pi. Of course, you could increase the GPU's memory through raspi-config (it defaults to 128, max is 256). Of course, then you've less RAM to put in your Tensorflow model.

My opinion, raise the Pi's screen resolution just high enough to make it easy for debugging the Pi cam. And when you get ready to "productionize" your Pi, drop the resolution to the lowest.

Ok, if you still want to, here's how to raise the Pi's resolution.

Still in raspi-config open Advanced Options. Navigate to Resolution and change it to what you'd like. (I'm going with the highest).
vnc-resolution-on-pi

Once you've finished setting these options, exit. At the end it will ask if you want to reboot, say "Yes."

Step #10: Download and install RealVNC Viewer.

Step #11: Open RealVNC and set the ip to your Pi. Don't include your user name, like we did when ssh'ing, because RealVNC is about to ask us for it. Once you've typed in the ip hit "Enter" or "Return."

Step #12: RealVNC will warn you about singing into your Pi, as it's not a credentialed source. No worries. Hit continue.

Note, if you're on a Mac, it's going to ask you to give RealVNC access to keys or something. (Shesh, Mac, thank you for the security, but, well, shesh.)

enable-keys-vnc-mac

Step #13: Enter your credentials.

username: pi
password: raspberry
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vnc-to-raspberry-pi

Step #14: This should open your Pi's desktop environment. It will ask you a few setup questions, go ahead and take care of it. Note, if you change your password, you will need to update RealVNC (if you had it "Remember My Password").

Tensorflow Setup

Here's where it gets real.

Open terminal, either in the VNC Pi desktop, or through ssh. Then enter the following commands.

pip3 install pip3 install https://github.com/lhelontra/tensorflow-on-arm/releases/download/v1.14.0-buster/tensorflow-1.14.0-cp37-none-linux_armv7l.whl
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The above installs a Tensorflow 1.14 for Python 3.7.x on the Raspberry Pi 3b+ from ihelontra's private Tensorflow ARM builds. I've found this better, as Google seems to break the installs often.

If you want another combination of Tensorflow, Python, and Pi, you can see ihelontra's other whl files:

OpenCV Setup

Tensorflow will allow us to open a model, however, we will need to feed the model image data captured from the PiCamerae. The easiest way to do this, at least I've found so far, is using OpenCV.

Of course, it can be tricky to setup. The trickiest part? If you Google how to set it up on Raspberry Pi you will get tons of misinformation. In all due fairness, it once was good information--as you had to build OpenCV for the Pi, which took a lot of work. But, now days, you can install it using the build in Linux tools.

Ok, back at the Pi's command prompt:

# Install OpenCV
sudo apt-get install python3-opencv
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At of time writing, the above command will install OpenCV 3.2. Of course, the newest version is 4.0, but we don't need that. Trust me, unless you've a reason to be using OpenCV 4.0 or greater, I'd stick with the Linux repos. Building OpenCV can be a time consuming pain.

There's one other handy package which will make our work easier: imutils.

Let's install it.

pip3 intall imutils
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Using Tensorflow to Classify Images on an RPi.

Now the payoff.

I've prepared a Python script which loads a test model, initializes the Pi camera, captures a stream of images, each image is classified by the Tensorflow model, and the prediction is printed at the top left of the screen. Of course, you can switch out the entire thing be loading a different model and corresponding json file containg the class labels (I've described this in an earlier article.)

Let's download the script and test our build:

cd ~
git clone https://github.com/Ladvien/rpi_tf_and_opencv
cd rpi_tf_and_opencv
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Ok! Moment of truth. Let's execute the script.

python3 eval_rpi.py
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If all goes well, it will take a minute or two to initialize and you should see something similar to the following:

tensorflow-predictions-rpi

Troubleshooting

If you are using a different PiCamera module than the v2.0 you will most likely need to adjust the resolution settings at the top of the script:

view_width               = 3280
view_height              = 2464
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If you clone the repo in a different directory besides the /pi/home directory, then you will need to change the model path at the top of the file:

model_save_dir           = '/home/pi/rpi_tf_and_opencv/'
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Any other issues, feel free to ask questions in the comments. I'd rather troubleshoot a specific issue rather than try to cover every use case.

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