Difference between revisions of "Deliverable 7.1"

From Wiki for iCub and Friends
Jump to: navigation, search
(Platform realization preliminary results and data)
Line 1: Line 1:
 +
[[Image:sit.jpg|right|256px]]
 +
 
== Foreword ==
 
== Foreword ==
 
The iCub is the humanoid baby-robot designed by the RobotCub consortium. The
 
The iCub is the humanoid baby-robot designed by the RobotCub consortium. The

Revision as of 01:19, 1 October 2006

Sit.jpg

Foreword

The iCub is the humanoid baby-robot designed by the RobotCub consortium. The iCub will be a full humanoid robot sized as a two year-old child. The total height is estimated to be around 90cm. It will have 53 degrees of freedom (dof), including articulated hands to be used for manipulation and gesturing and a weight of roughly 23 kg.

Our goal is to produce an integrated design, of an open platform, apt to support various behaviours, and of the most general use possible. Complementary to this requirement, it has to be noted that the RobotCub project is very much about manipulation, and for this reason the robot platform should incorporate this additional requirement by providing sophisticated hands, a lexible oculomotor system, and a reasonable bi-manual workspace. Finally,on top of this, we need to support, global body movements such as crawling, sitting, etc

A study is being conducted for determining if and how many degrees of freedom are minimally required to produce/generate plausible facial expressions. Facial expression, although not a basic feature of the iCub will be integrated as a step two phase.

The robot should be able to crawl and sit (to free the hands from supporting the body) and autonomously move from crawling to sitting and vice-versa.

In this deliverable the specifications of the hardware, electronics platform of the iCub are reported. iCub and relative subgroups performances and results obtained are reported and continuosly upgraded based on the debug and test done.

Pointers to relevant documentation as well as assembly or tuning procedure are also reported. For details on the software architecture please see the deliverable item 8.3.

NOTE: This is a running document which is updated regularly as the design of the platform progresses.


The iCub specifications

The Deliverable item 8.1 contains the initial specifications and design issues we considered during the development of iCub:

Deliverable 8.1

Specifications of the electronics (preliminary, before realization): click here to download the pdf

New documentation of the electronics including wiring diagrams is being created at the section: wiring the robot

Platform realization status

Actually several copies of the iCub are being realized and tested over europe. A short overview of the present status of each platform is briefly reported.

  • iCub main site, LIRA-Lab and Telerobot, Genoa (IT):
    • the left part of the ubber body is being tested while the right part is being realized to complete the setup;
    • the head of the iCub was relaized and optimized and is ready to be replicate in three copies;
    • the lower body will be soon replicated to have before summer 07 a complete setup.
  • Salfor University (UK):
    • a first version of the lower body is ready and currently under test.
  • IST, Lisbon:
    • several version of the head were here realized including facial features.
  • EPFL, Switzerland:
    • another copy of the head is completed and under test.
  • SSSA, Pontedera (IT):
    • an indipendent version of hand is being realized and tested in parallel to the one already integrated in the LIRA-Lab+Telerobot design.

Platform realization preliminary results and data

As a first indication a benchmark between the intially estimated body mass distribution and the actual body mass obtained from the final CAD is reported in the following table.

This data will soon be updated with prototype data as soon as integration is done.

Weighttable.jpg

More details on the results obtained from the platform realization can be found in:

Details of the head: click here to download the pdf

Tests have been performed, some results (VERY preliminary):

Realization and assembly issues

Here we will document the procedures for the assembly of the iCub. These documents will also help troubleshooting in case of failures.

The CAD drawings repository

CAD files are in the ProEngineering Wildfire 2 standard. They will be made available here. A temporary set of "almost" final drawings is available from the RobotCub website. These files are temporarily password protected since they are not yet final (e.g. the robot is still under serious debugging). To request an account and password please send an email to giorgio.metta _(at)_ robotcub.org.

Once you receive the email and password you can browse the private part of the RobotCub.org website, see:

the CAD files release

where you can find (ZIPped) three types of documents:

  • 3D CAD files in the ProEngineering Wildfire 2 format, these are useful for debugging and for understanding of the robot functionalities
  • 2D dxf drawings, these files are typically used by manufacturers (machine shops) to build parts
  • BOM, this consists typically in a two text files with a list of parts; one of them contains the list of the commercial parts

The electronics CAD files (e.g. Orcad, Gerber) are available from the RobotCub website together with the bill of materials:

the CAD files release

What is available:

  • Head CAD, BOM and 2D drawings: almost final
  • General integration: CAD only
  • Lowerbody CAD+2D
  • Electronics: DC and BL control cards

The additional documents repository

Certain files cannot be archived as CAD files and require a separate repository (e.g. large binary files). The instructions to get will appear here.

Bill of material

A database with the list of parts and details on each of them will be made available. For now be content with a set of text files describing parts and listing the commercially available ones.

This is temporarily available from:

the CAD files release

Moreover

Documents that don't fall in any of the previous categories.