The state -of -the -art robot system, designed to identify radioactive contamination on a large -scale nuclear abolished measure site, has successfully completed multiple actual developments.
The autonomous platform known as Carma II indicates a great advances in nuclear safety and efficiency.
Innovative technology has demonstrated impressive abilities in the test on the Cambria’s Seller Afield Nuclear Site, indicating an important move forward to protecting human workers from harmful radioactive exposure.
Evolution of Karma II
Carma II, developed through the partnership between the University of Manchester, the Robotics and AI collaboration (RAICO), and the partnership of ICE NINE ROBOTICS, integrates sophisticated technology to enhance radiation monitoring.
This robot system autonomously navigates the nuclear environment, maps the radiation level, and provides important data to the health physics team.
Carma II, designed to complement existing safety protocols, supports SellAfield representatives by improving surveillance accuracy and efficiency.
The development of robot systems consists of a wider purpose rather than minimizing human exposure to radioactive contamination, while reducing costs related to the abolition of nuclear sites.
Improvement of nuclear safety
Carma II is equipped with high -tech cencencers, such as on -board laser scanners, dual 3D deep cameras, alpha, beta, and gamma radiation detectors.
With this advanced sensor -eyed, robots can generate a detailed radiation “heat map” that provides real -time insights on radioactive pollution levels.
Historically, radiation surveys are being conducted manually, and the person in charge needs to use a handheld scanner. This is a labor -intensive and potential dangerous way.
In contrast, Carma II automates this process and provides more frequent, detailed, standardized radiation monitoring.
The actual development verifies the function of Carma II.
Carma II has been strictly tested in an active nuclear environment, including two separate locations on the Sellafield site.
By comparing the known low -radio activity and the high -radio active region data, the system has demonstrated its effectiveness in accurately detecting and mapping radioactive contamination.
These successful exams have raised the Carma II as an executable long -term solution for nuclear abolition measures.
With the ability to carry out a repetitive high -resolution radiation survey, health physics experts can make a decision based on sufficient information, giving priority to safety.
Future vision: AI and robot engineering in nuclear abolition measures
RAICO, a partnership, including the Bureau of Atomic Energy, Nuclear Energy Division, Seller Field, and the University of Manchester, is promoting robot engineering and AI integration in the abolition of nuclear power.
The recruitment of Carma II emphasizes the industry commitment of utilizing innovative technology for more safe and efficient operation.
Dr. Kirsty Hewitson, the director of RAICO, emphasized that Carma II has been an example of the industry and research institutions.
Hewitson states: “We emphasize many of Carma II’s abilities that provide efficiency to nuclear abolition measures and remove humans from harmful radioactive environments. I’m looking forward to seeing it. “
Following the success of the SellAfield exam, Ice Nine Robotics has improved Carma II to prepare for a widespread commercial development.
Matthew NancyKieVill, the CEO of Ice Nine Robotics, explained:
“We are currently making a lot of fine adjustments following the success of the development, and we are preparing a platform for SELLAFIELD and potentially wider NDA Estate.”
As the nuclear industry continues to evolve, innovative solutions like Carma II play an important role in relieving the risk of radioactive pollution.
The success of this autonomous system shows a transformation moment in nuclear abolition measures, and sets a precedent for future robots in dangerous environments.
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