AEROARMS | AErial RObotic system integrating multiple ARMS and advanced manipulation capabilities for inspection and maintenance

Summary
AEROARMS proposes the development of the first aerial robotic system with multiple arms and advanced manipulation capabilities to be applied in industrial inspection and maintenance (I&M). The objectives are:

1. R&D on aerial manipulation to perform I&M. This includes: 1.1 Based on previous partner results, developing systems which are able to grab and dock with one or more arms and perform dexterous accurate manipulation with another arm. Also develop helicopter-based aerial manipulators, with greater payload and flight endurance, and with a dexterous arm to provide advanced manipulation capabilities by means of force interactions and hand-eye coordination using a movable camera with another light arm; 1.2 New methods and technologies for platforms which can fly and manipulate with the coordinated motion of the arms addressing constrained scenarios in which it is dangerous to use the helicopter and where it is not possible to grab to perform I&M operation.

2. Validation of 1.1 in two applications: 1) Installation and maintenance of permanent NDT sensors on remote components; 2) Deploy and maintain a mobile robotic system permanently installed on a remote structure.

To achieve the above objectives AEROARMS will develop the first aerial telemanipulation system with advanced haptic capabilities able to exert significant forces with an industrial robotic arm, as well as autonomous control, perception and planning capabilities. Special attention will be paid to the design and system development in order to receive future certification taking into account ATEX and RPAS regulations.

AEROARMS is strongly related to ICT 23–2014: Robotics enabling the emergence of aerial robots, with manipulation capabilities to operate in industrial I&M, which will be validated in in oil and gas plants to reach TRL5.

The consortium combines excellent capabilities in aerial robotics with leadership in aerial manipulation and key partners for the successful application of I&M.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/644271
Start date: 01-06-2015
End date: 31-08-2019
Total budget - Public funding: 5 719 602,50 Euro - 4 722 852,00 Euro
Cordis data

Original description

AEROARMS proposes the development of the first aerial robotic system with multiple arms and advanced manipulation capabilities to be applied in industrial inspection and maintenance (I&M). The objectives are:

1. R&D on aerial manipulation to perform I&M. This includes: 1.1 Based on previous partner results, developing systems which are able to grab and dock with one or more arms and perform dexterous accurate manipulation with another arm. Also develop helicopter-based aerial manipulators, with greater payload and flight endurance, and with a dexterous arm to provide advanced manipulation capabilities by means of force interactions and hand-eye coordination using a movable camera with another light arm; 1.2 New methods and technologies for platforms which can fly and manipulate with the coordinated motion of the arms addressing constrained scenarios in which it is dangerous to use the helicopter and where it is not possible to grab to perform I&M operation.

2. Validation of 1.1 in two applications: 1) Installation and maintenance of permanent NDT sensors on remote components; 2) Deploy and maintain a mobile robotic system permanently installed on a remote structure.

To achieve the above objectives AEROARMS will develop the first aerial telemanipulation system with advanced haptic capabilities able to exert significant forces with an industrial robotic arm, as well as autonomous control, perception and planning capabilities. Special attention will be paid to the design and system development in order to receive future certification taking into account ATEX and RPAS regulations.

AEROARMS is strongly related to ICT 23–2014: Robotics enabling the emergence of aerial robots, with manipulation capabilities to operate in industrial I&M, which will be validated in in oil and gas plants to reach TRL5.

The consortium combines excellent capabilities in aerial robotics with leadership in aerial manipulation and key partners for the successful application of I&M.

Status

CLOSED

Call topic

ICT-23-2014

Update Date

26-10-2022
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Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)
H2020-EU.2.1.1.5. Advanced interfaces and robots: Robotics and smart spaces
H2020-ICT-2014-1
ICT-23-2014 Robotics