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Version: Torizon OS 6.x.y

AI at the Edge, Pasta Detection Demo with AWS

Amazon Web Services​

Amazon Web Services (AWS) is the world’s most comprehensive and broadly adopted cloud platform, offering over 165 fully-featured services from data centers globally. Millions of customers - including the fastest-growing startups, largest enterprises, and leading government agencies β€” trust AWS to power their infrastructure, become more agile, and lower costs.

AI at the Edge Pasta Detection​

This is a computer vision demonstration that integrates several technologies to showcase an edge computing scenario that involves the detection of pasta using artificial intelligence technology - deep learning, and the visualization of live and historic data processing both on a cloud dashboard, using cloud services from Amazon Web Services, as well as a local graphical user interface (GUI), using a GUI framework that relies on modern web technologies.

pasta demo components

Here is a brief technical overview of the technologies used:

  • An industrial MIPI-CSI2 camera to capture a video stream from the conveyor belt.
  • Deep learning inference running on the Apalis iMX8 at the edge, using the DLR inference engine.
    • Neural Network trained using Amazon SageMaker and optimized for performance using Amazon SageMaker Neo.
    • Employs Single Shot Detector (SSD) algorithm for object detection
    • MobileNet SSD v1 neural network architecture
    • Example dataset containing pasta images and annotation files is provided in Pascal VOC format
  • A local GUI on the HDMI video output built with the Quasar Framework, displaying live pasta detection.
  • A web dashboard to display historic data, built using several connected AWS services:
    • AWS IoT Greengrass for MQTT data ingestion and relaying to other AWS services.
    • Amazon DynamoDB for data storage.
    • Amazon Cognito for secure user management.
    • Amazon CloudFront for web dashboard hosting.

See below an illustration of how the AI at the Edge Pasta Detection demonstration integrates the AWS services:

AWS Pasta Demo Architecture

AWS IoT Greengrass​

AWS IoT Greengrass extends AWS to edge devices so they can act locally on the data they generate, while still using the cloud for management, analytics, and durable storage. With AWS IoT Greengrass, connected devices can run AWS Lambda functions, execute predictions based on machine learning models, keep device data in sync, and communicate with other devices securely – even when not connected to the Internet.

In the context of this demo, AWS IoT Greengrass provides a seamless, secure, and resilient connection to the cloud. System data such as the deep learning inference results and the overall system status are collected, pre-processed, and sent to an MQTT broker. At the same time, commands to control the conveyor belt and the LED brightness are received from the web dashboard, providing two-way communication between device and cloud.

Amazon SageMaker Neo​

Amazon SageMaker Neo enables developers to train machine learning models once and run them anywhere in the cloud and at the edge. Amazon SageMaker Neo optimizes models to run up to twice as fast, with less than a tenth of the memory footprint, with no accuracy loss.

Amazon SageMaker is used to train a deep learning inference model from a pasta dataset, focusing on object detection and using the MobileNet SSDv1 algorithm, while Amazon SageMaker Neo then optimizes the trained model for the NXP i.MX 8QuadMax processor, which is the core of Toradex Apalis iMX8.

Supported Modules​

The following Computer on Module is supported:

Supported Displays​

Intended Use​

This partner demo image is meant for the evaluation of the technology and as a starting point for your project. It is not suitable for production.

Prerequisites​

Optional Items​

The Apalis iMX8 Embedded Vision Kit with Allied Vision does not contain the mechanical parts and accessories to assemble the full demo as showcased by Toradex, NXP, and AWS in tradeshows and events. These items are not mandatory to have the functional demo running. However, you can source or manufacture the components by yourself, and then assemble the full demo:

How to Get Started​

This section provides instructions for you to get started with the AI at the Edge Pasta Detection demo.

Assemble the Apalis iMX8 Embedded Vision Kit with Allied Vision​

To assemble the kit only, follow the instructions enumerated and illustrated by the gif below:

  1. Unbox all items.
  2. Connect the camera to the adapter.
  3. Connect the adapter to the board.
  4. Connect the Apalis iMX8 to the Ixora Carrier Board.
  5. Make sure that the Apalis iMX8 is locked and well connected.
  6. Mount the Apalis heatsink on top of the module and fasten with screws.
  7. Screw the lens to the camera.
  8. Remove the lens protection.
  9. Plug all cables to the Ixora Carrier Board - HDMI, Ethernet, USB mouse / keyboard, power supply barrel jack.

Assemblying the kit

Optional - Connect the DC Motor Driver and 3W LED to Ixora​

We do not yet provide instructions for the mechanical assembly of the conveyor belt - which consists of the optional items described in the Prerequisites section. We do provide instructions on how to make the electric connections to the Ixora Carrier Board.

danger

Before you continue, check if everything is fixed and the acrylic is stable. Make sure you have a jumper short-circuiting the driver's on/off pins.

  • Use jumpers to connect motor driver ULN2003 pins 1, 5 to the motor.
  • Connect driver + to Ixora's X4 pin 5, and driver - to Ixora's X4 pin 4.
  • Connect driver's pin IN1 to Ixora X27 pin 33.
  • Use jumpers to connect LED pins 1,2,3 to Ixora's X27 pins 32,31,34 respectively.

Connect DC Motor Driver and 3W LED to Ixora

Install the Local User Interface​

Power on the system. Toradex Easy Installer comes pre-installed and will be displayed on the HDMI interface:

info

Your module should have come with the Toradex Easy Installer pre-installed. If this isn't the case, you can easily follow the Loading Toradex Easy Installer article before proceeding.

Toradex Easy Installer

Do the following:

  • Write down the Ethernet IP from Network Information.
  • Write down the unique Serial number from Module Version.
  • Select AWS and NXP AI at the Edge Pasta Detection Demo image from the list and install it.

Installing AWS and NXP AI at the Edge Pasta Detection Demo using the Toradex Easy Installer

After the installation and reboot, you will see at the HDMI display the welcome screen.

After the installation, HDMI Display will show the welcome screen

It may take 5 minutes or more for the demo to start. It happens because Docker containers are fetched online after the first boot. After the containers are downloaded and started you can see some inferences in the local user interface.

HDMI Display will show the local User-Interface

Now you can test the local user interface with some pasta.

Connect the Demo to Cloud​

This section provides instructions to set up the connect your board to your AWS account.

Create an AWS Account and User Access Key​

Follow AWS page instructions to create a new AWS account.

Once you have access to the account, create a user access key. Follow the instructions on the article Managing Access Keys for Your AWS Account Root User to understand how to create it. You will create the access key ID and secret access key as a set.

Make sure to download your AWS credentials to your local machine, which will be used for future reference, by clicking on the "Download Key File" button.

danger

if you have just registered and this is a fresh AWS account, some services are not available before AWS validates your account which can take up to 24 hours.

Creating AWS Security Credential Keys

danger

During access key creation, AWS gives you only one opportunity to view and download the secret access key part of the access key. If you miss or lose it, you will need to create a new access key.

Connect Your Device​

When you installed the demo image using the Toradex Easy Installer, you were instructed to write down the serial number and the Ethernet IP. You will select one of them to access a web-based user interface to easily create the cloud infrastructure directly from the Computer on Module.

On a desktop PC connected to the same network as the Computer on Module, open a web-browser (for example Chrome or Firefox) and use either one of the following URLs:

  • http://<Board's Ethernet IP>:8080

    or

  • http://apalis-imx8-<serial number>.local:8080

See the example below for my Apalis iMX8, with Ethernet IP 192.168.10.5 and serial number 0333444555. The zero to the left cannot be disregarded:

  • http://192.168.10.5:8080

    or

  • http://apalis-imx8-0333444555.local:8080


Which method should I use

Both methods have pros and cons. They are weighted with a default domestic network configuration in mind.

If you know the IP address of the board, the Ethernet IP address method is more reliable, since your local DNS server does not need to resolve the hostname.

If the local DNS resolution works well in your network configuration, the serial number is deterministic, since it will never change, while an IP address assigned by your local DHCP server is susceptible to changes over time.


You will see the following screen:

Pasta Demo Credentials Setup

info

the browser may mark the website as not secure.

Create the Cloud Infrastructure​

Fill the access key ID and secret access key created previously and hit the Run CloudFormation button. It will deploy the entire AWS infrastructure required to run the demonstration.

info

this step can take around 15 minutes to 1 hour since Amazon CloudFront needs time to register the internet domains. Now is the perfect time to go grab a cup of coffee.

Inserting AWS credentials in the demo

Once the progress bar hits 100%, the full deployment is finished. Within seconds your board will start sending data to your dashboard. Copy the URL for your own dashboard as illustrated in the gif above.

Access the Web Dashboard​

Use the URL retrieved above to access, sign-up and sign-in to your web dashboard:

Cloud-based Web Interface sign-up and sign-in

Play With the Pasta Demo​

Put some pasta under the camera and see it reflect on the local user-interface and the web dashboard.

Next Steps​

The AI at the Edge Pasta Detection demo is open-source. Notice that it is provided as-is.

Train an Object Detection Algorithm​

Modify the Demo Containers and AWS Cloud Structure​

You can tweak the demo in several ways, from the web UI to the inference model and much more. Here are the public GitHub repositories and additional resources:

GitHub RepositoryDescriptionAdditional Resources
aws-nxp-ai-at-the-edgeAWS Lambdas, containers, inference application, etc-
aws-nxp-ai-at-the-edge-guiLocal graphical user interface (GUI) that outputs on HDMI-
aws-nxp-ai-at-the-edge-credentials-setupTool to add AWS IoT Greengrass Core device credentials and set up the cloud infrastructure to a fresh setup hardware-
meta-pasta-demoYocto layer to re-build and/or customize the Linux imageInstructions how to re-build the Linux image on Build the AWS AI at the Edge Demo Image
aws-nxp-ai-at-the-edge-cloud-dashboardCloud dashboard interface GUI and infrastructure-
Alvium device driverDevice driver for the Alvium camera provided by Allied Vision-

Release Notes​

2.0.0​

Release: https://github.com/toradex/meta-pasta-demo/releases/tag/v2.0.0

  • Add support for the Allied Vision Alvium C-500c camera
  • Drop support for the Toradex CSI Camera Module 5MP OV5640

1.0.1​

Release: https://github.com/toradex/meta-pasta-demo/releases/tag/v1.0.1

  • Add splash screen
  • Bug fixes

1.0.0​

Release: https://github.com/toradex/meta-pasta-demo/releases/tag/v1.0.0

  • Initial Release

Downloads​

Download offline installers and older releases of the Partner Demo Image in this section.

2.0.0​

1.0.1​

1.0.0​

Troubleshooting​

Here are some tips to help you troubleshoot issues with the demo.

Debug Interfaces​

To check if all the services are running correctly you need to have access to the Torizon bash on the board. There are two ways to access it from another machine (a.k.a host machine):

Debug UART (Serial)​

The Apalis iMX8 Embedded Vision Kit with Allied Vision comes with all cables needed to connect to the debug UART. Follow the instructions on Configuring Serial Port Debug Console (Linux/U-Boot) to attach the hardware and connect.

SSH​

To connect to the board via SSH, follow the Quickstart Guide until you reach the lesson Linux Terminal and Basic Usage.

Demo Does Not Start​

caution

the first boot, after installation, can take a long time (usually more than 15 minutes).

The boot may take 5 minutes or more for the demo to start. It happens because Docker containers are fetched online after the first boot. After the containers are downloaded and started you can see some inferences in the local user interface.

But if the demo takes longer than normal to start and is hang on this screen:

Welcome screen

Access the board Torizon bash and follow the steps below:

Systemd Units​

caution

Make sure you are running the commands in the Torizon bash on the board. Use the password that was added during the first boot after installation for super user commands sudo.

Check if the demo services are ok with the command below:

systemctl status local-ui.service system-control.service system-status.service

All services must be active and with a green mark:

Systemd services OK (green)

If the services are ok, move to the section Docker Containers

If any service has warnings or errors try restarting the services with the command below:

sudo systemctl restart local-ui.service system-control.service system-status.service

If that still does not resolves the issue, take note of the logs returned by systemctl status to ask the Toradex team for help.

Docker Containers​

caution

make sure you are running the commands in the Torizon bash on the board. Use the password that was added during the first boot after installation for the superuser commands sudo.

Check if all the demo docker containers are running with the command below:

docker ps

This command should return the following containers (check Name collum):

  • local-ui
  • inference
  • docker-compose_front-end_1
  • docker-compose_back-end_1
  • docker-compose_system-info_1
  • docker-compose_system-control_1

If the docker ps command did not return all the containers name listed above, try restarting the services with the command below:

sudo systemctl restart local-ui.service system-control.service system-status.service

If that still does not resolves the issue take note of the container that is not going up to ask the Toradex team for help.

Black Screen​

If after booting you get only a black screen and nothing else try the following:

caution

Make sure you are running the commands in the Torizon bash on the board. Use the password that was added during the first boot after installation for the superuser commands sudo.

  • Check HDMI connection
  • Access the Torizon bash:
  • Check the weston service with the command below:
systemctl status weston

The service must be active and with a green mark:

Weston service OK (green)

If the service has warnings or errors try restarting the service with the command below:

sudo systemctl restart weston

If that still does not resolves the issue, take note of the logs returned by systemctl status weston to ask the Toradex team for help.

Dashboard Not Receiving Data​

If apparently the demo is running with no issues on the board but the online dashboard is still not receiving updated data from the inferences and system status, do the following:

caution

Make sure you are running the commands in the Torizon bash on the board. Use the password that was added during the first boot after installation for super user commands sudo.

  • Check the ethernet cable
  • Access the Torizon bash
  • Make sure the board has an internet connection. Try to retrieve the Google page:
wget www.google.com && rm index.html

This command should download the 100% of the page without issues:

Validate that internet is OK

If you have an error or are unable to download the page you have problems with your network connection.

caution

if you are sure that your network connection is working correctly but still cannot download the page on the board. Get the board dmesg logs and send to Toradex team:

dmesg > dmesg.log

Greengrass Service​

caution

Make sure you are running the commands in the Torizon bash on the board. Use the password that was added during the first boot after installation for the superuser commands sudo.

Check if the AWS Greengrass service are running with the command below:

systemctl status greengrass-software

The service must be active and with a green mark. If the service has warnings or errors try restarting the service with the command below:

sudo systemctl restart greengrass-software

If that still does not resolves the issue, take note of the logs returned by systemctl status greengrass-software to ask the Toradex team for help.

System Freeze​

If a general failure occurs and the system freezes, perform a manual reset. Press the RESET button (SW2) from Toradex Ixora board:

Reset the system - press the reset button on Ixora



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