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Python application to create a choreography for the NAO robot so that is fully automatically using AI techniques and suitable for the song that is selected randomly.

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PartyNAO

main_image Project realized by Eleonora Mancini and Francesco Rambaldi as a part of the Fundamentals of Artificial Intelligence and Knowledge Representation exam of the Master's degree in Artificial Intelligence @ University of Bologna (A.A. 2019-2020).

In particular, this project has been realized in the context of the NAO Planning Competition - 2019.

AI and Creativity

With our project we want to convey the idea of A.I. by creating fully automatic system (from song selection to choreography generation).

We used simulated annealing, which has a probabilistic component, because it allows us to find a different solution every time.

This simulates the concept of live performance, which we think can excite the spectator, because it is unpredictable.

Context

This project is part of the NAO Planning Competition - 2019, a competition with the aim of mixing AI with creativity.

Objective

Deploying an algorithm to generate transitions between different positions.

Create a choreography for the NAO robot so that is:

  • fully automated using AI techniques
  • suitable for the song that is selected randomly

Learning Outcomes

  • to devise techniques for automatic and creative generation of complex movements in robots, such as choreographies
  • strong interdisciplinarity, involving robot learning, human-robot interaction, cognitive studies of movement, creativity

Problem statement

In order to model the problem we had at our disposal:

  • an initial state and a goal state init_goal
  • a set of mandatory positions mandatory

Constraints to be satisfied

  • possible incompatibilities between two consecutive positions (use of simulator in Choreographe to understand if and what they are)
  • time constraints (max 3 minutes)
  • constraints on the number of intermediate positions to be used in the whole choreography

Description

Main aspects

  • Association of a move with the amplitude of the song at a given moment
  • Use of multi-thread for the management of the:
    • Search algorithm
    • Music detection
    • Execution of the choreography on the virtual robot
  • The song is selected automatically after running the program:
    • in the program folder there is a folder with all the possible example song
  • Use of the Local Search Algorithm Simulated Annealing

The application flow can be divided in two main phases:

  • preparation
  • execution

Preparation

  1. Generation of all the possible pairs of moves
  2. Store the time spent to go from one position to another while testing on the virtual robot the pairs of moves
  3. Generation of a dictionary: { (move_1, move_2) : time }
  4. Classification of the moves into 3 different classes:
    • Slow moves
    • Normal moves
    • Fast moves

Execution

  1. Decomposition of the main problem in 7 sub-problems
  2. Execution of simulated annealing multiple times
  3. Selection of the best solution:
    • Best solution = respected constraints + total number of moves between 40 and 46
  4. If there isn’t any solution which respects the constraints the execution restart from point 2.
  5. Start 2 threads:
    • Play song
    • Connect to the robot and execute the choreography

Prerequisites

Library Name
argparse
ffmpeg
glob
itertools
math
matplotlib
naoqi
numpy
operator
os
pydub
random
scipy
sys
threading
utils

We tested our project on Linux system, so it is recommended to run the program on a UNIX system (4 GB of RAM at least).

To install all the required packages, please run the following command: pip install -r requirements.txt

Usage

  1. If you want to test the algorithm on ready-to-use audio files:

    • Download the Music folder from here and copy it in the PartyNAO main folder.

    If you want to test the algorithm on new tracks

    • Create a Music folder within the main folder (PartyNAO).
    • Within the Music folder, create a sub-folder Music_Mono.
    • Put the desired audio file into the Music folder. The constraint for the algorithm to work correctly is that the file must be 3 minutes long and be in .wav format
  2. Open a terminal in the main folder of the project (i.e. PartyNAO) and run party_nao_project.py using the following command: python party_nao_project.py -p PORT. The PORT argument can be retrieved as follows:

    • If you are using a virtual robot on Choregraphe, open the "Robot browser" window and copy the port value showed there
    • If you are using a real robot, set the port of the real robot as port value

Once started, our program will:

  • select a song randomly from the Music folder
  • plot its amplitude
  • run simulated annealing algorithm
  • find the best sequence of moves for the selected song
  • automatically start the music and the choreography: let's party NAO!

Demo

In this folder you can find a short demo of our application in .mp4 format.

Authors

Eleonora Mancini, Francesco Rambaldi

License

This project is licensed under the Apache License 2.0 - see the LICENSE file for details.

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Python application to create a choreography for the NAO robot so that is fully automatically using AI techniques and suitable for the song that is selected randomly.

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