Certified Test Beds

ERL Consumer Service Robots has seven certified test beds around Europe where teams can test some Tasks and Functionality Benchmarks:


1. ISRoboNet@Home Test Bed

Institute for Systems and Robotics at Instituto Superior Técnico, U. Lisboa, Portugal

The ISRoboNet@Home test bed consists of a networked robot system composed of 10 IP (cabled-networked) cameras, wirelessly networked with several mobile robots, and an apartment which includes several home automation devices.

ISroboNEt

Current list of ERL Consumer Service Robots TBMs and FBMs for which the test bed is certified:

Table Isorobonet

More information can be found on ISRoboNet@Home Test Bed Certification document.

Contact:

Pedro U. Lima - pal@isr.tecnico.ulisboa.pt

http://welcome.isr.tecnico.ulisboa.pt/isrobonet/



2.  ECHORD++’s RIF @Peccioli

The BioRobotics Institute, Scuola Superiore Sant’Anna, Peccioli, Italy.

Peccioli RIF facility is a real apartment suitable for some ERL-SR TBMs and FBMs. The walls are solid walls (not movable) and the apartment includes one main entrance door, some doors to access the rooms and several open spaces. The apartment contains typical furniture, such as tables, chairs, sofa, bookshelves, beds, kitchen furniture and kitchenware, plants, a TV set etc. A technical room is also present. In this room some PCs and monitors are available to monitor and guide the benchmarks. A wireless network is also available in the apartment. Portable devices can be added, including a Motion Capture system mounted on stands.

peccioli

Current list of ERL Consumer Service Robots TBMs and FBMs for which the test bed is certified:

peccioli table

More information can be found on ECHORD++’s RIF @Peccioli Test Bed Certification document.

Contact:

Filippo Cavallo - f.cavallo@santannapisa.it

Annagiulia Morachioli - a.morachioli@santannapisa.it

www.pecciolirif.com

 

3.   Leon@Home Test Bed

Universidad de León, León, Spain

The Leon@Home test bed main purpose is to benchmark service robots in a realistic home environment. The experimental area of the ULE robotics group is made up by four parts: a mock-up Apartment, a Control zone with direct vision through a glass wall to the apartment, a small Workshop and a larger Development zone where researchers work.

leon

Current list of ERL Consumer Service Robots TBMs and FBMs for which the test bed is certified:

leon table

More information can be found on Leon@Home Test Bed Certification document.

Contact:

Vicente Matellán - vicente.matellan@unileon.es

http://robotica.unileon.es/index.php/Testbed

 

4.    BRL Anchor Personalised Assisted Living Studio

Bristol Robotics Laboratory, University of the West of England, Bristol, UK

The Anchor Personalised Assisted Living (ARPAL) Studio in the BRL offers facilities for research into innovative person-centred assistive robotics technologies to enable independent living and active ageing within a “Living Lab” testing environment.

The studio has been developed as a typical apartment to provide realistic conditions to pursue vital research on the design and development of assistive robotics that can be deployed in people’s homes.  Providing a multi-disciplinary working environment with access to teams of health care experts and end-users, it provides robotics researchers an opportunity to validate of concepts and trialling of users’ actual experience of technology.

The facility has been constructed to standardised specifications, a v-rep model of the studio is also available.

BRLanchor

Current list of ERL Consumer Service Robots TBMs and FBMs for which the test bed is certified:

BRL Anchor table

More information can be found on BRL Anchor Personalised Assisted Living Studio Test Bed Certification document.

Contact:

Praminda Caleb-Solly - praminda.caleb-solly@uwe.ac.uk

http://www.brl.ac.uk/research/researchthemes/assistedliving/assistedlivingstudio.aspx

 

5.      PAL Robotics Assisted House

PAL Robotics S.L., Barcelona, Spain.

The PAL Robotics Assisted House consists of the environment in which the competition will happen. The house has been developed as a typical apartment to provide realistic conditions to develop assistive robotics.

The facility has been constructed basing on the ERL Consumer Service Robots rulebook.

PAL robotics

Current list of ERL Consumer Service Robots TBMs and FBMs for which the test bed is certified:

PAL robotics table

More information can be found on PAL Robotics Assisted House Test certification document

Contact:

Jordi Pages -  erl@pal-robotics.com

https://sites.google.com/a/pal-robotics.com/erl-local-tournament-barcelona/



6. Heriot-Watt@Home Test Bed

Heriot-Watt University, Edinburgh, UK

The Heriot-Watt@Home ERL Test Bed is composed of:

  • Rooms (accessible to the robot): inside hall (with coat-rack); large (8m x 3.825m) open-plan space with kitchen (worktop and two chairs, kitchen cabinet with multiple drawers and sink, three wall-mounted shelves), dining area (wooden table and four chairs) and sitting area (large window, couch, sofa, armchair, coffee table, TV table and large floor lamp); 3.78m x 3.14m bedroom (window, double bed, two side tables, two table lamps and large wardrobe with mirror); and a 2.7m x 3.14m bathroom.
  • Spatial areas (inaccessible to the robot): outside hallway; and directors’ room (with workstation, control monitors and smart home gateways).
  • Well-levelled floor, uniform all over the testbed, but including rugs.
  • Dry walls, 2.4m high.

Current list of ERL Consumer Service Robots TBMs and FBMs for which the test bed is certified:



More information can be found on Heriot-Watt@Home Test Bed Certification document.

Contact:

Mauro Dragone - m.dragone@hw.ac.uk

https://robotic-assisted-living.hw.ac.uk/


7. IDEAAL Living Lab


OFFIS Institute for Information Technology, Oldenburg, Germany.

The IDEAAL Living Lab was designed as a realistic simulation of an apartment inhabited by elderly people. The lab is fully functional, also for long term studies, with a fully working kitchen and bathroom. It is also instrumented with various sensors, microphones and cameras to document scientific studies. 
To ease integration of new technology and demonstrators, the walls are made of plaster and the lab has a double ceiling. Most electronic equipment in the lab (door sensors, motion sensors, lights, TV, speakers, etc.) can be accessed or controlled via a central OpenHAB instance. Each room is fitted with at least one IP camera and microphone, including one camera in front of the entrance, for easy remote monitoring.
IDEAAL_pictures

Current list of ERL Consumer Service Robots TBMs and FBMs for which the test bed is certified:

TMBtable

More information can be found on IDEAAL Living Lab Test Bed Certification document.

Contact:

Max Pfingsthorn - max.pfingsthorn@offis.de

Frerk Müller-von Aschwege - frerk.mueller-von.Aschwege@offis.de

https://ideaal.offis.de


8. Cobot Maker Space Living Space

University of Nottingham, UK

The Cobot Maker Space Living Space facility is set up to mimic an open-plan style living space, with home-automation devices and a camera system + software able to perform object detection and pose estimation based on fiducial marker detection from multiple cameras. 

Nottingham, UK Test Bed

Current list of ERL Consumer Service Robots TBMs and FBMs for which the test bed is certified:

Nottingham, UK TBMs - FBMs

More information can be found on Cobot Living Space Test Bed Certification document.

Contact:

Dominic Price - dominic.price@nottingham.ac.uk

https://cobotmakerspace.org