These agile
mobile robotic systems move robotic fabrication processes beyond the constraints of the production hall, exposing vast urban and interior environments as potential fabrication sites.
Not exact matches
Principal Investigator Dr Nicola Bellotto from the University of Lincoln said: «The
system will build on recent advances in
mobile service
robotics and ambient assisted living to help people improve health and wellbeing.
The research team, which includes Dr Oscar Martinez Mozos, a specialist in machine learning and quality of life technologies, and Dr Grzegorz Cielniak, who works in
mobile robotics and machine perception, aim to develop a
system that will recognise visual clues in the environment.
The
robotic system, described today in Science Robotics, induced cell proliferation and lengthened part of the esophagus in a large animal by about 75 percent, while the animal remained awake and
mobile.
Dragon
Robotic Operations: Last night,
robotics ground controllers performed a
Mobile Transporter (MT) translation from Worksite (WS) 8 to WS6, stowed the Special Purpose Dexterous Manipulator (SPDM) on the
Mobile Base
System (MBS) and walked Space Station Remote Manipulator
System (SSRMS) off the MT to Node 2 Power Data Grapple Fixture (PDGF).
Mobile Servicing
System (MSS) Operations: Last night,
robotics controllers used the Space Station Remote Manipulator
System (SSRMS) and Special Purpose Dexterous Manipulator (SPDM) to transfer one MISSE Sample Container (MSC) from the MTT to the MISSE Flight Facility (FF).
Attendees will also have opportunities to learn about everything from earth science data visualizations to engineering, and
robotics to storm chasing using a
mobile doppler
system.