Robotics and Artificial Intelligence for Critical Asset Monitoring
Lead Research Organisation:
University of the West of England
Department Name: Bristol Robotics Laboratory
Abstract
This project aims to develop technologies which will enhance the operational capabilities of mobile robots for use in the inspection and maintenance of industrial facilities. A major task in many industrial environments is the retrieval of samples for chemical or biological analysis. Surface swabbing is often conducted manually, but this creates limits on the number of samples that can be taken and their location. There are often many places that can't be reached by people either due to the location (very high, or in confined/ restricted access spaces) or environmental hazardous (such as heat or radiation).
This project will develop a multi-domain, multi-agent robotic sample retrieval system that will be able to obtain samples across a range of environments. These samples will either be stored for ex-situ analysis in labs or taken to mobile labs for in-situ, real-time analysed. Due to the nature of the operational environments, full autonomy is not desirable, so shared autonomy (human-in-theloop) will be required. The primary application focus will be nuclear environments, however the technologies will be applicable to many other sectors include petrochemical, offshore and agriculture.
This project will develop a multi-domain, multi-agent robotic sample retrieval system that will be able to obtain samples across a range of environments. These samples will either be stored for ex-situ analysis in labs or taken to mobile labs for in-situ, real-time analysed. Due to the nature of the operational environments, full autonomy is not desirable, so shared autonomy (human-in-theloop) will be required. The primary application focus will be nuclear environments, however the technologies will be applicable to many other sectors include petrochemical, offshore and agriculture.
| Description | Focus groups and observational studies were conducted at the facilities of 2 partners from the nuclear industry - UKAEA and Sellafield Ltd. The first focus group, held in person, included nine operators specialising in ground-based robots. The second focus group, conducted online with three UAV operators, focused on the use of drones. The third group, comprising three ROV operators, focused on underwater and ground robots. The focus group data was analysed to synthesise design requirements for teleoperation interface design for robots in the nuclear industry. This work forms the basis for a paper titled "Robot Teleoperation Design Requirements from End Users in Nuclear Facilities" which will be submitted to IROS 2025. |
| Exploitation Route | The design requirements can be used by others in the research and development of teleoperation user interfaces for robots used in hazardous environments. |
| Sectors | Digital/Communication/Information Technologies (including Software) Environment |