Project:HSRDP: Difference between revisions

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* Figure out the battery management system and power distribution for the chassis and the robot arm.(24v battery and robot arm power and 5v for logic)
* Figure out the battery management system and power distribution for the chassis and the robot arm.(24v battery and robot arm power and 5v for logic)
* Mount the steering motor and electronics.
* Mount the steering motor and electronics.
* Source a 24v battery (2 x 12v)
* <s>Source a 24v battery (2 x 12v)</s>
* Add a kinect + other sensors
* Add a kinect + other sensors
* Repaint/beautify the thing
* Repaint/beautify the thing

Revision as of 23:06, 6 January 2014

HSRDP - Hackspace Robotics Development Platform

The arm

HSRDP is an attempt to provide a robotics platform for the hackspace to allow people to experiment with higher level robotics functions.

The base
The basic URDF model for the arm

The plan is to sit our UMI robot arm on top of the mobility aid scooter. Plug it all into ROS with some sensors and allow people to make their own nodes for high level functions

It's part of the hackspace and collaborators are welcome, please get in-touch with Mentar (IRC) to find out what you can help. It's a great learning exercise for:

  • the stuff that's required to get robot arm working
  • Robotics (more higher level stuff!)
  • ROS (point clouds, sensing, planning)
  • arduino
  • motor control
  • battery management

Link to random photos from the ongoing project

Status

  • Robot arm electronics replaced and working
  • The scooter base/drive-train has been fixed and about to be modified to be able to receive the arm.
  • The annoying post has been removed, and the two parts of the frame have been welded together, so it is now flat and ready for fitting the robot base.

People involved

This is a hackspace project and members are encouraged to participate

Person What is being done
Mentar, Tmlyk, pepelisu Getting the robot arm functional
Stephen & Tom Mobile base repair and control interfacing.
Paddy Trimming the wheeled chassis, attaching steering motor

TODO

  • Get the robot arm working (refer to page for breakdown)
  • Repair the drive train, interface with the controller, make steering motor driver
  • Prepare the wheeled chassis for the mounting of the robot arm
  • Fit the robot arm to the base (arm facing towards one of the sides)
  • Figure out the battery management system and power distribution for the chassis and the robot arm.(24v battery and robot arm power and 5v for logic)
  • Mount the steering motor and electronics.
  • Source a 24v battery (2 x 12v)
  • Add a kinect + other sensors
  • Repaint/beautify the thing

Example uses

  • Robotic buttler - Show people around the space, bring club-mate etc
  • Robotic bartender - Party/event mode configuration, mix up drinks (this one is quite challenging)
  • Telepresense - Self evident uses
  • Guard bot - Could help with reducing cycle theft (need to film the thieves shitting themselves)

System diagram

<graphviz border='frame' format='png' >

digraph rfboard{
  rankdir=TD;
  size="8,5!";
  
  arm_control [label="Arm control board (Mega)",shape=box];
  kinect [label="kinect",shape=box];
  brain [label="Laptop",shape=box];
  chassis_control [label="Chassis control (Uno)",shape=box];
  chassis [label="Wheeled Chassis",shape=box];
  robot_arm [label="Robot Arm",shape=box];
  steering [label="Steering motor",shape=box];
  kinect -> brain;
  brain -> arm_control;
  arm_control -> robot_arm;
  brain -> chassis_control;
  chassis_control -> chassis;
  chassis_control -> steering;

} } </graphviz>

Code

The code is stored at our github repository, let the project owners know if you want to be added

Other info