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ARTBot

GitHub issues GitHub license Ubuntu ROS2 Iron

ARTBots in Action

Table of Contents
  1. Introduction
  2. Literature Survey
  3. Getting Started
  4. User Guide
  5. Implementation
  6. Results
  7. References
  8. Project Mentors
  9. Project Members
  10. License

Introduction

Swarm robotics, inspired by the collective behavior of social organisms, offers a unique avenue for creating dynamic and interactive art installations.

Alt text
Swarm of Robots

This project seeks to develop an application of swarm robotics by creating a swarm of robots that can autonomously arrange themselves to replicate drawings made by a user. The proposed system leverages swarm intelligence to translate artistic expressions into a visually stunning and collaborative robotic display.

Technologies Used

Tech_Used

Literature Survey

Robot Operating System 2

ROS 2 (Robot Operating System 2) is the next-generation open-source robotics middleware framework that builds upon the success of the original ROS. It introduces significant improvements, including support for multiple programming languages, a more robust communication layer based on the Data Distribution Service (DDS) standard, enhanced real-time performance, built-in security features, better support for multi-robot systems and distributed systems, Quality of Service (QoS) policies for reliable communication, improved lifecycle management for nodes, and increased interoperability with other robotics frameworks. ROS 2 also introduces a new Robot Description Format (RDF) for describing robot models and provides tools for maintaining backward compatibility with existing ROS packages, enabling a smoother transition for developers.

Basic Terminologies in ROS 2:

  • Nodes: A node is an executable that uses ROS 2 to communicate with other nodes. A ROS 2 Node can be a Publisher or a Subscriber. A Publisher puts the messages of a standard message type to a particular topic. The Subscriber, on the other hand, subscribes to the topic and receives the messages that are published to the topic.
  • Messages: ROS 2 data type used upon subscribing or publishing to a topic.
  • Topics: Nodes can publish messages to a topic as well as subscribe to a topic to receive messages.

Client libraries needed for this project:

  • rclpy: Python client library
  • rclcpp: C++ client library

Python Programming Language

Python is a high-level, general-purpose programming language. Its design philosophy emphasizes code readability with the use of significant indentation. It supports multiple programming paradigms, including structured, object-oriented, and functional programming.

Swarm Robotics

Swarm robotics is an approach to coordinate multiple robots as a single system to achieve a particular goal. It is inspired by the emergent behavior observed in social insects.

Getting Started

Prerequisites

  • Ubuntu 22.04
  • ROS 2 Iron

For installing ROS 2 refer to ROS 2 Wiki

Installation

Create a colcon workspace

mkdir ros_ws
cd ros_ws
mkdir src
colcon build

To automatically source this workspace every time a new shell is launched, run these commands

echo "source <path-to-workspace>/install/setup.bash" >> ~/.bashrc
source ~/.bashrc

Clone the repository in the src folder in the catkin workspace.

cd ~/ros_ws/src
git clone https://github.com/IEEE-NITK/ARTBot

Navigate back to the workspace folder and build the packages.

cd ~/ros_ws
colcon build

User Guide

Launching ARTBot Simulation

To launch the ARTBot simulation use the command

ros2 launch artbotsim artbotsim.launch.py

Alt text
ARTBot Simulation

To move each of the robot around, we will use teleop_twist_keyboard which is a package for moving the robot using the keyboard:

ros2 run teleop_twist_keyboard teleop_twist_keyboard --ros-args --remap cmd_vel:=/<bot_name>/cmd_vel

Implementation

Swarm Algorithm: Flock Formation Algorithm

The algorithm operates within a simulation environment where only the current position and orientation of the bots are sensed in real-time.

The algorithm involves a swarm of robotic agents, each equipped to navigate and coordinate with its peers autonomously. The swarm is divided into two groups:

  • The target-seeking bots are assigned specific targets or coordinates to move towards, simulating the behavior of birds homing in on particular locations within a flock.
  • The integrating bots dynamically position themselves between pairs of "parent bots," facilitating cohesion and formation maintenance within the swarm.

Each "child bot" is assigned specific "parent bots," between which it positions itself. This arrangement ensures that the "child bots" contribute to the overall shape formation by maintaining optimal spacing and alignment within the swarm.

Swarm Algorithm: Boid's Algorithm

Boids Algorithm
Boids Algorithm

Boids is an artificial life program that produces startlingly realistic simulations of flocking behavior. Each "boid" (which is an abbreviation of "bird-oid object") follows a very simple set of rules. These rules can be summarized as follows:

  • Separation: boids move away from other boids that are too close
  • Alignment: boids attempt to match the velocities of their neighbors
  • Cohesion: boids move toward the center of mass of their neighbors

This project has tried to use this algorithm but it is yet to be properly developed

Canvas

The user interface for the project (the canvas) is made using a simple python3 script that uses opencv.

The drawing is made by handling mouse clicks and mouse movement events which can be done using the mouse event handling feature of opencv.

To process and transfer the image from the canvas to the artbot simulation, the user just needs to use the right mouse button. Once the right mouse button is pressed, targets are assigned in an equi distant manner for the drawing and is trnsferred to the bots.

Canvas

Simulation

The project uses a customized turtlesim environment that is built on Qt (a cross-platform software for creating GUI).

Results

Here is a video of one of the runs.

ARTBot.Demo.mp4

References

  1. ROS 2 Wiki
  2. Boids Algorithms
  3. Swarm robotics: A Review from the Swarm Engineering Perspective

Project Mentors:

  1. Joel Jojo Painuthara
  2. Rohan Bahri

Project Members:

  1. Nallagatla Prudhvi
  2. Nishchay Pallav
  3. Kovidh Singh

License:

This repository is licensed under the BSD-3-Clause License