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EdgeImpulse and Depth sensing powered LEGO Minstorms robot.

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Gelāre: Depth-sensing and EdgeImpulse powered Assistive Robotics on LEGO Inventor Kit

Gelare

Towards Spatial-guided Vision and Acoustic based Assistive Robotics using EdgeImpulse and LEGO Mindstorms. Gelare is a customizable tool to control LEGO Inventor kit robotic arms with Build Hat and OAK-D with an application in Assistive Robotics. Mindstorms Robot Inventor Logo EI Logo

Models deployed using Gelāre are trained using EdgeImpulse which allows developers to train ML models in minutes and deploy these models on dozens of MCUs.

roboss

Guides

The guide to train models within minutes and deploy it on Raspberry Pi and OAK-D can be found on the hackster project page. The specific instructions for converting a Tensorflow Lite Model (.tflite) available on EdgeImpulse dashboard to a (.blob) model compatible with OAK-D can be found here

  • Hardware Building Instructions: Contains Instructions to Build the LEGO Mindstorms Inventor Kit Robotic Arm and integrating it with Raspberry Pi and Raspberry Pi Build Hat.
  • Installation: If you have the setup ready, this guide provides you on running the model off-the-shelf using Gelāre's pretrained models
  • Custom Model Training and Deployment: Our hackster as well as github guide provides instructions to convert EdgeImpulse format models to run on OAK-D
  • Running on Raspberry Pi: Instructions to run Object Detection and Speech Recognition Models on Raspberry Pi without the need of OAK-D.
  • Algorithms: Algorithms which go behind running Gelāre.
  • Recording Videos: Demo of the LEGO Mindstorms Robot running Gelāre.
  • Error Documentation: Solutions to some obvious errors during the build process.

The README is still being updated. All code is available in the 'software' folder.

Deployment

Gelāre supports two method to deploy object detection methods for real-time object detection off-the shelf. Each method uses LEGO Mindstorms Inventor kit and Raspberry Pi Build Hat.

Using the OAK-D (Opencv AI Kit with Depth):

This is the first repository to extend support for deploying EdgeImpulse trained models to OAK-D. Gelāre integrates Depth estimation with object detection through EdgeImpulse's FOMO. To know more about OAK-D specifications, direct here.

The examples <insert_example1>, <insert_example2> and <insert_example3> are examples to run object detection on OAK-D controlling the LEGO Mindstorms Robot. The face-detection model, human-assisted feeding and gesture recognition model are trained on EdgeImpulse and are converted to (.blob) format required for OAK-D through the conversion instructions. (.tflite) -> (.onnx) -> (.blob). You can train your own models on EdgeImpulse required for the specific use-case and follow the documentation to integrate it in the pipeline. We do have plans on integrating Pose Estimation feature released recently by EdgeImpulse, however this is a future prospect.

Using Raspberry Pi and RPi Webcam:

This is the simplest approach to deploy EdgeImpulse models on Raspberry Pi and get started with LEGO Robot Inventor Kit. This doesn't require Model Conversion, nor does it require an OAK-D. Since the processing power on a Raspberry Pi is limited and since it doesn't offer depth estimation capabilites, we have limited our deployment in the Computer Vision end only to Gesture recognition as seen in <insert_example 4>. However, Gelāre offers an extremely customizable pipeline, allowing users to modify the example and integrate their custom trained model using EdgeImpulse. Additionally, we extend this to Acoustic Modality, integrating speech-controlled Assistive Robotics in <insert_example 5>

Installation

Installation for OAK-D

$ sudo curl -fL https://docs.luxonis.com/install_dependencies.sh | bash
$ cd Gelare
$ pip3 install -r requirements.txt

Installation for running EdgeImpulse on Raspberry Pi:

$ sudo apt update
$ sudo apt upgrade
$ curl -sL https://deb.nodesource.com/setup_12.x | sudo bash -
$ sudo apt install -y gcc g++ make build-essential nodejs sox gstreamer1.0-tools gstreamer1.0-plugins-good gstreamer1.0-plugins-base gstreamer1.0-plugins-base-apps
$ npm config set user root && sudo npm install edge-impulse-linux -g --unsafe-perm

Setup the camera module through sudo raspi-config. Not required for a webcam. This documentation uses a Microsoft Lifecam NX-6000

Installation for Build Hat

Quick Start

$ git clone https://github.com/dhruvsheth-ai/Gelare.git
$ cd Gelare/software/

Using OAK-D

Example 1: Controlling Robotic Arm using Spatial coordinates of detected face:

Credit: EdgeImpulse Team. Model adopted from source.

This is a feedback loop mechanism which tracks the X, Y, Z coordinates of the user's input face and controls the movement of the Robotic Arm accordingly. This example employs a Face Detection Model trained on EdgeImpulse FOMO which accurately tracks input frames with low (almost negligible) false positives. The code structure takes in a case by case input of variance in X, Y or Z based on the input order and accordingly moves the Robotic Arm by the exact same radians moved by the user's input face.

To run:

python3 spatial_movement.py

Control Logic:

Motor Control Logic (click to expand)
def bodyMovement(x, y, z):
    if x<((150)-85):
        #move left
        #motor_body_movement.run_for_degrees(20, speed=50)
        motor_body_movement.start(30)
        print("left")
    elif x>((150)+85):
        #move right
        #motor_body_movement.run_for_degrees(20, speed=-50)
        motor_body_movement.start(-30)
        print("right")
    elif y<((150)-85):
        #move left
        motor_body_control.start(-50)
        print("up")
        print("Position Motor Body Control Port C", motor_gripper.get_aposition())
    elif y>((150)+85):
        #move right
        motor_body_control.start(30)
        print("down")
        print("Position Motor Body Control Port C", motor_gripper.get_aposition())
    elif z<(500):
        #move left
        motor_gripper_control.start(50)
        print("ahead")
        print("Position Motor Gripper Control Port B", motor_gripper.get_aposition())
    elif z>(800):
        #move right
        motor_gripper_control.start(-50)
        print("behind")
        print("Position Motor Gripper Control Port B", motor_gripper.get_aposition())
    else:
        #stop motors
        motor_body_movement.stop()
        motor_body_control.stop()
        motor_gripper_control.stop()
        print("no movement")

The above code initiates the movement of the body_movement motor based on lower and upper X threshold, upper and lower movement through body_control motor based on lower and upper Y threshold and forward and backward movement based on Depth Z threshold (in centimetre).

Example 2: Robot-assisted Feeding for patients with Hand Tremor.

To investigate the algorithm behind the decision making process, check here. There exist multiple better algorithms for robot-assisted feeding either using state-of-the-art software of hardware. The purpose of this system is not to introduce a Novel algorithm, rather to bring the ability to custom deploy low-cost, low-resource, quick solutions on affordable hardware for efficient prototyping before actual implementation. This approach can be used as a prototyping approach to design and experiment with computer vision models on resource-constrained devices which are portable.

Raspberry Pi deployment

About the Developers

  • Dhruv Sheth: Dhruv possibly knows more types of development boards than the letters of the alphabet and is skilled with TinyML and Robotic Arms. He recently represented India and won 3rd Grand Award at ISEF. More about him: https://dhruvsheth-ai.github.io/
  • Atharva Wasekar: Atharva has a lot of experience in robotics competitions (2nd place IRC League Russia and Most Innovative Solution in WRS Japan) and can code in several different languages. More about him: https://in.linkedin.com/in/atharvawasekar

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