The HAILO 8 M.2 AI Accelerator promises to give 30 FPS object detection on the Raspberry Pi 5. In this video lesson I show how to install and get the accelerator hat operating. This installation works for the Bookworm operating system. I have not tested it on Trixie. Open a terminal on the Raspberry Pi 5, on the

# As Shown in the Video, Switch Your Pi 5 to X11 by running raspi-config 

sudo raspi-config

# Select Advanced Options, select A7, Wayland, and select X11 and <OK>
# Now update and Upgrade system with:

sudo apt update && sudo apt full-upgrade

# Now Update the eeprom

sudo rpi-eeprom-update
#Now use raspi-config to set bootloader
sudo raspi-config
#Go to advanced options, set bootloader verstion to 'latest'
#exit raspiconfig, reboot if asked.

#Update the eeprom:
sudo rpi-eeprom-update -a
sudo reboot now

#Install Hailo
sudo apt install hailo-all
sudo reboot now

#See if tools were installed with:
gst-inspect-1.0 hailotools
#Should show the tools are there

#Get the HAILO examples
cd ~
git clone https://github.com/hailo-ai/hailo-rpi5-examples.git

#Install Examples
cd ~/hailo-rpi5-examples
./install.sh

#Now to activate the virtual environment,(Do this every time you want
#to run

cd ~/hailo-rpi5-examples
source setup_env.sh

#Now run sample programs

cd ~/hailo-rpi5-examples/basic_pipelines

python detection.py --input rpi --show-fps #For RPI Camera
python detection.py --input usb --show-fps #For USB Camera
python pose_estimation.py --input rpi --show-fps #RPI Camera
python pose_estimation.py --input usb --show-fps #USB Camera

# As Shown in the Video, Switch Your Pi 5 to X11 by running raspi-config

sudo raspi-config

# Select Advanced Options, select A7, Wayland, and select X11 and <OK>

# Now update and Upgrade system with:

sudo apt update && sudo apt full-upgrade

# Now Update the eeprom

sudo rpi-eeprom-update

#Now use raspi-config to set bootloader

sudo raspi-config

#Go to advanced options, set bootloader verstion to 'latest'

#exit raspiconfig, reboot if asked.

#Update the eeprom:

sudo rpi-eeprom-update -a

sudo reboot now

#Install Hailo

sudo apt install hailo-all

sudo reboot now

#See if tools were installed with:

gst-inspect-1.0 hailotools

#Should show the tools are there

#Get the HAILO examples

cd ~

git clone https://github.com/hailo-ai/hailo-rpi5-examples.git

#Install Examples

cd ~/hailo-rpi5-examples

./install.sh

#Now to activate the virtual environment,(Do this every time you want

#to run

cd ~/hailo-rpi5-examples

source setup_env.sh

#Now run sample programs

cd ~/hailo-rpi5-examples/basic_pipelines

python detection.py --input rpi --show-fps #For RPI Camera

python detection.py --input usb --show-fps #For USB Camera

python pose_estimation.py --input rpi --show-fps #RPI Camera

python pose_estimation.py --input usb --show-fps #USB Camera

AI On the Edge

AI on the Edge LESSON 3: Learn Python Essentials In One Session

March 29, 2026 admin

This new class, AI on the Edge, will use Python as the primary programming language. If you are not familiar with python, this video lesson will teach the essentials in one go. Go through the video, and follow the examples. Practice the things in the video, and then do the homework. If you can learn these basics, you should be able to follow along with the balance of the class.

Uncategorized

AI on the Edge LESSON 2: Raspberry Pi Operating System for Artificial Intelligence

March 29, 2026 admin

The major challenge we face in this AI on the Edge class is getting a Raspberry Pi 5 configures where you have all the AI Models, Libraries, Modules and Methods installed, and where they all play nicely together. Often, when you add a new model, the old model becomes broken. This is because when you install something new, it often times updates the dependencies. That means it updates a library already on your system. For example, lets say you have numpy 14, working with YOLO 11. Now you install mediapipe, and it updates numpy 14 to numpy 15. This then ‘Breaks’ your YOLO, as it wanted a different version of numpy. Likely you will get frustrated and quit before you get the dependency problems solved. In order to get around this, you can use a special education version of the Bookworm OS, which has all the needed libraries installed already and working nicely with each other. The video above shows you how to install this OS. Once you do, no not update it, do not upgrade it, do not touch it. Use it to develop your programs and projects for this class. If you want to do something else with your pi, have a separate SD card.

AI On the Edge

AI on the Edge LESSON 1: Introduction and Class Overview

March 29, 2026 admin

Welcome to our all new AI on the Edge class! I will need you to buckle up, get your hardware together, and get ready to teach AI who is boss! We will be using a Pi 5, and the Fusion AI Lab kit. I will show links to the hardware below. In today’s lesson I describe the Class Introduction, and will show you some demos of the types of projects we will be doing. You will either Drive AI or your will be Destroyed by AI. Don’t be one of the ones who will be eaten by it

The Future will Belong to Those Who Can Drive AI

Guys, get your gear, and make sure you end up on the right side of the Dystopian future that awaits the world.

I have provided Amazon links, so you can order everything in the same place

You Will need a Raspberry Pi 5
Order Pi 5

You will need a heat sink and fan
Order Heat Sink and Fan

You Will Need the Fusion AI Lab Kit
Order Fusion AI Lab Kit

You Will Need a 25 Watt Power Supply
Order Power Supply

You Will Need a Micro HDMI Cable
Order Micro HDMI Cable

You Will Need a Keyboard and Mouse
Order Wireless Keyboard and Mouse

OK, get Geared Up with the equipment above, and then next week’s lesson will show you how to configure your pi 5 for this class.

OpenCV, Python, Raspberry Pi

Object Detection Using YOLO and RTSP Camera on Raspberry Pi 5

January 2, 2026 admin

OK guys, you spoke, and I listened. You all are asking for a lesson on how to do object detection on a Pi 5 using YOLO and an IP Camera. Well, you are about to get what you asked for. We will make this work, or we will DIE TRYING. Never fear, once you watch the video you will both understand and be able to do it on your own. First, I am assuming you watched our previous lesson where I showed you how to do the basic install and setup of YOLO. If not, never fear, I have the commands below. NOTE: This tutorial is geared towards bookworm OS. I strongly suggest you start with a fresh bookworm SC card, as there are many dependencies, and it is most likely to work if you start exactly where I am starting . . . with a fresh OS. Thes these are the commands I shared last week to get YOLO up and working: (just open a terminal, and paste these commands one at a time)

# 1. Configure X11 (manual steps required)
sudo raspi-config
# → Go to Advanced Options → X11 → Enable X11
# → Finish and reboot when prompted

# 5. Update system and install OpenCV
sudo apt update
sudo apt full-upgrade -y
sudo apt install python3-opencv -y

# Verify OpenCV
python3 -c "import cv2; print('OpenCV version:', cv2.__version__)"
# Expected output: something like "OpenCV version: 4.6.0" or higher

# Create and activate virtual environment for YOLO11 (Ultralytics)
python3 -m venv --system-site-packages YOLO
source YOLO/bin/activate

# You are now inside the (YOLO) virtual environment
# Install Ultralytics YOLO11 inside it
pip install "numpy<2.0" ultralytics

# Now create a Pi friendly YOLO11 model
yolo export model=yolo11n.pt format=ncnn

# Optional: Verify YOLO installation
python -c "from ultralytics import YOLO; print('Ultralytics YOLO ready')"

# When finished working with YOLO, you can deactivate with:
# deactivate

#Now open Thonny, and you need to point thonny to the virtual environment you 
#just created. Open tools- options, select 'interpreter' tab, then click they Python
#executable, selecting ... and navigate from home directory, 
#to YOLO, to bin, and then select python

# 1. Configure X11 (manual steps required)

sudo raspi-config

# → Go to Advanced Options → X11 → Enable X11

# → Finish and reboot when prompted

# 5. Update system and install OpenCV

sudo apt update

sudo apt full-upgrade -y

sudo apt install python3-opencv -y

# Verify OpenCV

python3 -c "import cv2; print('OpenCV version:', cv2.__version__)"

# Expected output: something like "OpenCV version: 4.6.0" or higher

# Create and activate virtual environment for YOLO11 (Ultralytics)

python3 -m venv --system-site-packages YOLO

source YOLO/bin/activate

# You are now inside the (YOLO) virtual environment

# Install Ultralytics YOLO11 inside it

pip install "numpy<2.0" ultralytics

# Now create a Pi friendly YOLO11 model

yolo export model=yolo11n.pt format=ncnn

# Optional: Verify YOLO installation

python -c "from ultralytics import YOLO; print('Ultralytics YOLO ready')"

# When finished working with YOLO, you can deactivate with:

# deactivate

#Now open Thonny, and you need to point thonny to the virtual environment you

#just created. Open tools- options, select 'interpreter' tab, then click they Python

#executable, selecting ... and navigate from home directory,

#to YOLO, to bin, and then select python

Now, I will explain this code, and will help you configure it for your cameras, but you will need to open up thonny, and paste in the following code as a start. IMPORTANT, as mentioned above, you need to set interpreter in thonny to the virtual environment set up in the process above. If this is not familiar to you, go back and watch last weeks lesson (click previous at the bottom of this post). Without further adue, here is the code we will work with today:

import cv2
from ultralytics import YOLO
#import secret
import threading
import time

W=1280
H=720
#Now, as eplained in the video, edit the line below where 
#you put your wifi user name in place of user, and your 
#wifi password in place of password, and you put in your 
#IP address
RTSP_URL = "rtsp://user:password@192.168.88.44:554/cam/realmonitor?channel=1&subtype=0"
#RTSP_URL = secret.RTSP_URL1
#I have put my wifi credentials in a secret file so no
#one sees my credentials. You will just use the RTSP_URL line above. 
# Load the exported NCNN model (replace with your model path)
model = YOLO("/home/pjm/yolo11n_ncnn_model/", task="detect")
lock = threading.Lock()
running = True
def frameGrabber(url):
    global ipFrame, running
    cap = cv2.VideoCapture(url, cv2.CAP_FFMPEG)
    cap.set(cv2.CAP_PROP_BUFFERSIZE, 1)
    cap.set(cv2.CAP_PROP_POS_FRAMES, 0)  # Reset frame position
    while running:
        ret, frame = cap.read()
        if ret:
            with lock:
                #frame = cv2.resize(frame, (W, H))
                ipFrame = frame.copy()
    cap.release()
    print("Thread Terminated")
thread = threading.Thread(target=frameGrabber, args=(RTSP_URL,), daemon=True)
thread.start()
tStart=time.time()
time.sleep(2)
fps=0
cnt=0
# Set resolution for faster processing (optional, adjust based on your needs)
while True:
    deltaT=time.time()-tStart
    fps= fps*.9 + .1/deltaT
    tStart=time.time()
    with lock:
        ipFrameShow=ipFrame.copy()
    results = model(ipFrameShow, conf=0.25, verbose=False)[0]  # conf: confidence threshold; adjust as needed

    # Annotate the frame with detections (boxes, labels, scores)
    annotatedFrame = results.plot()
    annotatedFrame=cv2.resize(annotatedFrame, (W,H))
    cv2.putText(annotatedFrame, "FPS: "+str(round(fps,1)), (int(W*.01), int(H*.075)), 
            cv2.FONT_HERSHEY_SIMPLEX, H*.002, (0, 0, 255), 3)
    cv2.imshow("IP Camera", annotatedFrame)
    #cv2.moveWindow("IP Camera",100,100)
    if cv2.waitKey(1)==ord('q'):
        break
running=False
thread.join()  # Wait for thread to fully exit
time.sleep(1)
cv2.destroyAllWindows()
import gc
gc.collect()  # Force garbage collection to reclaim memory/connections
#Make Extra sure all processes are killed
import os
os._exit(0)
print("Program Terminated")

import cv2

from ultralytics import YOLO

#import secret

import threading

import time

W=1280

H=720

#Now, as eplained in the video, edit the line below where

#you put your wifi user name in place of user, and your

#wifi password in place of password, and you put in your

#IP address

RTSP_URL = "rtsp://user:password@192.168.88.44:554/cam/realmonitor?channel=1&subtype=0"

#RTSP_URL = secret.RTSP_URL1

#I have put my wifi credentials in a secret file so no

#one sees my credentials. You will just use the RTSP_URL line above.

# Load the exported NCNN model (replace with your model path)

model = YOLO("/home/pjm/yolo11n_ncnn_model/", task="detect")

lock = threading.Lock()

running = True

def frameGrabber(url):

global ipFrame, running

cap = cv2.VideoCapture(url, cv2.CAP_FFMPEG)

cap.set(cv2.CAP_PROP_BUFFERSIZE, 1)

cap.set(cv2.CAP_PROP_POS_FRAMES, 0) # Reset frame position

while running:

ret, frame = cap.read()

if ret:

with lock:

#frame = cv2.resize(frame, (W, H))

ipFrame = frame.copy()

cap.release()

print("Thread Terminated")

thread = threading.Thread(target=frameGrabber, args=(RTSP_URL,), daemon=True)

thread.start()

tStart=time.time()

time.sleep(2)

fps=0

cnt=0

# Set resolution for faster processing (optional, adjust based on your needs)

while True:

deltaT=time.time()-tStart

fps= fps*.9 + .1/deltaT

tStart=time.time()

with lock:

ipFrameShow=ipFrame.copy()

results = model(ipFrameShow, conf=0.25, verbose=False)[0] # conf: confidence threshold; adjust as needed

# Annotate the frame with detections (boxes, labels, scores)

annotatedFrame = results.plot()

annotatedFrame=cv2.resize(annotatedFrame, (W,H))

cv2.putText(annotatedFrame, "FPS: "+str(round(fps,1)), (int(W*.01), int(H*.075)),

cv2.FONT_HERSHEY_SIMPLEX, H*.002, (0, 0, 255), 3)

cv2.imshow("IP Camera", annotatedFrame)

#cv2.moveWindow("IP Camera",100,100)

if cv2.waitKey(1)==ord('q'):

break

running=False

thread.join() # Wait for thread to fully exit

time.sleep(1)

cv2.destroyAllWindows()

import gc

gc.collect() # Force garbage collection to reclaim memory/connections

#Make Extra sure all processes are killed

import os

os._exit(0)

print("Program Terminated")

The video explains everything, please watch it!

Technology Tutorials

Install HAILO on the Raspberry Pi for 30 FPS Accelerated Object Detection

AI on the Edge LESSON 3: Learn Python Essentials In One Session

AI on the Edge LESSON 2: Raspberry Pi Operating System for Artificial Intelligence

AI on the Edge LESSON 1: Introduction and Class Overview

Object Detection Using YOLO and RTSP Camera on Raspberry Pi 5

Making The World a Better Place One High Tech Project at a Time. Enjoy!