RoCKIn2014
RoCKIn Camp 2014
- Project Name:
- Official Web Page
RoCKIn@home
- Project Codename
Watermelon :D
- 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, Tele-Assistence * Technology: ROS, PCL, c++, svn, OpenCV, cmake, OpenGL, Qt, Aruco, * State: Development
Project Summary
This challenge focuses on domestic service robots. The project aims robots with enhanced networking and cognitive abilities. They will be able to perform socially useful tasks such as supporting the impaired and the elderly (one of the main goal of our group).
In the initial stages of the competition individual robots will begin by overcoming basic individual tasks, such as navigation through the rooms of a house, manipulating objects or recognizing faces, and then coordinate to handle house-keeping tasks simultaneously, some of them in natural interaction with humans.
Robot
We want to take part in RoCKIn with the platform developed during the las two years in the Catedra Telefónica-ule.
Robot Hardware
- iRobot Roomba 520
- Dinamixel Arm (5x12a)
- wood frame (yes, it is made with wood)
- Notebook (Atom processor) (display+computer are separeted)
- Kinect
- Arduino Mega
Robot Software
- ROS (robot control)
- MYRA (C/C++, ArUCo, Qt, openCV)
Proposal
We want to deploy in this robot the minimal functional abilities to be part of RoCKIn 2014.
- Navigation
- Mapping
- Person recognition
- Person tracking
- Object recognition
- Object manipulation
- Speech recognition
- Gesture recognition
- Cognition
We are going to separate the development in three phases:
- Phase I: Initial Setup
- Phase II: Integration and architecture
- Phase III: Platform test
- Phase IV: Improvements and complex tasks
- Technical Challenge: Furniture-type Object perception
- Open Challenge: Present and demonstrate most important (scientific) achievements
Phase I: Initial Setup
Hardware Preparation
We need to make some initial tasks to fulfill the basic hardware setup, configuration, and customization of the robot.
- Task 1
- Get power from roomba brush (It is going to be used in the arm )
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- Task 2
- Emergency Stop Button
- Task 3
- Start Button
ToDo
Software Preparation
Environment setup
We are going to define the basis of the system to be deployed.
- Operative System : Ubuntu 12.04 LTS
- Software Restriction : ROS Fuerte
- Core drivers for Roomba : How to install roomba package
Packages search
We use ROS so we can find at least a package for each ability ready to deploy in a robot. In this way, this task involves search and test each package to evaluate if we are able to deploy in our platform.
- Navigation
Mapping
- Person recognition
- Person tracking
- Object recognition
Object manipulation
- Speech recognition
- Gesture recognition
- Cognition
Ros: Debugging Techniques
Phase II: Integration and Architecture
Non-Critical (but to-do)
- Android/iOS Teleoperation
- Desktop Qt interface
- Create robot model for Gazebo
- Create robot model for rviz (the same as Gazebo?)
Wishlist
- Computer i7 processor, 8GB RAM, Nvidia (1-2 GB)
- ASUS Xtion Pro Live Color RGB Sensor