RoCKIn2014

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Revision as of 20:14, 17 November 2013 by WikiSheriff (talk | contribs) (Phase III: Platform test)

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RoCKIn Camp 2014

  • Project Name:

LogoRockin.png

  • Official Web Page
RoCKIn@home 
  • Project Codename
Watermelon
  • Advisor:
Vicente Matellán Olivera
  • Staff:
Technical software: Fernando Casado
Technical software: Víctor Rodríguez 
Technical software: Francisco Lera
Technical hardware: Carlos Rodríguez
  • Other Information:
  • Academic Year: 2013-2014
  • SVN Repositories: soon...
  • Tags: Augmented Reality, Elderly people, Remote-Assistance
  • Technology: ROS, PCL, c++, svn, OpenCV, cmake, OpenGL, Qt, Aruco,
  • State: Development

Project Summary

This challenge focuses on domestic service robots. The project aims to create robots with enhanced networking and cognitive abilities. They should be able to perform useful tasks such as helping the impaired and the elderly (one of the main goals of our group).

In the initial stages of the competition, individual robots will begin by overcoming basic individual tasks, such as navigating through the rooms of a house, manipulating objects or recognizing faces, and then coordinating to handle house-keeping tasks simultaneously, some of them under natural interaction with humans.

Robot

We want to take part in RoCKIn with the platform developed during the last two years in the Catedra Telefónica-ULE.

MYRABot robot.

Robot Hardware

  1. iRobot Roomba 520
  2. Dinamixel Arm (5x12a)
  3. Wooden frame (yes, it is made of wood)
  4. Notebook (Atom processor) (the display has been taken apart from the main body)
  5. Kinect
  6. Arduino Mega

Robot Software

  1. ROS (robot control)
  2. MYRA (C/C++, ArUCo, Qt, openCV)

Proposal

We want to develop and deploy minimal functional abilities to be part of RoCKIn 2014.

  • Navigation
  • Mapping
  • People recognition
  • Person tracking
  • Object recognition
  • Object manipulation
  • Speech recognition
  • Gesture recognition
  • Cognition

We are going to separate the development in three phases:

  1. Phase I: Initial Setup
  2. Phase II: Integration and architecture
  3. Phase III: Platform test
  4. Phase IV: Improvements and complex tasks
    1. Technical Challenge: Furniture-type Object perception
    2. Open Challenge: Exhibit and demonstrate the most important (scientific) achievements

Phase I: Initial Setup

Outline: Tasks developed in this phase

Phase II: Integration and Architecture

Outline: Tasks developed in this phase

Phase III: Platform test

Simulator

WARNING: This part is still in Spanish, please feel free to ask if you have any doubt.

Platform for gazebo

Hardware

<wikiflv width="300" height="250" logo="true">/videos/Test1.flv</wikiflv>

<wikiflv width="300" height="250" logo="true">/videos/Test2.flv</wikiflv>

ImageTidy2.jpg ImageTidy.jpg

Non-Critical (but to-do)

  1. Android/iOS Teleoperation
  2. Desktop Qt interface
  3. Create robot model for Gazebo
  4. Create robot model for rviz (the same as Gazebo?)

Wishlist

  • Computer with i7 processor, 8GB RAM, Nvidia GPU (1-2 GB)
  • ASUS Xtion Pro Live Color RGB Sensor
  • Roomba battery
  • Arduino Mega (x2)
  • Roomba base (520, 560)