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Volume: 11 Issue 05 May 2025
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Creative Commons Attribution-NonCommercial 4.0 International LicensUv Sterilization Robot Using Automated Uv Technology
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Author(s):
Vishalini L | Lahari Kalakata K | Dhaaranya | Dr.S.Sathiya Priya | Dr.D.Arul Kumar | Dr.V.Jeyaramya
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Keywords:
UV-C Sterilization, Automated Disinfection, UV Technology, Germicidal Robot, Pathogen Inactivation, Intelligent Navigation, Safety Mechanisms, Surface And Air Sterilization, Healthcare Sanitation, Autonomous Cleaning Systems.
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Abstract:
In Response To The Growing Need For Efficient And Effective Disinfection Solutions, This Paper Presents The Design And Development Of An Automated UV Sterilization Robot. Utilizing Advanced Ultraviolet (UV-C) Technology, The Robot Is Designed To Autonomously Navigate Indoor Environments, Ensuring Comprehensive Surface And Air Sterilization. UV-C Light Is Known For Its Germicidal Properties, Effectively Inactivating A Broad Spectrum Of Pathogens, Including Bacteria, Viruses, And Fungi. The Proposed System Integrates Intelligent Navigation Using Sensors And Machine Learning Algorithms To Map And Maneuver Complex Layouts While Avoiding Obstacles. It Features A Programmable Disinfection Schedule, Adjustable UV Intensity, And Safety Mechanisms, Including Motion Detectors That Deactivate UV Lamps In The Presence Of Humans To Prevent Harmful Exposure. This Automated UV Technology Aims To Enhance Sanitation Standards In High- Risk Areas Such As Hospitals, Laboratories, Offices, And Public Spaces. By Reducing Human Involvement And Error In The Disinfection Process, The Robot Ensures Consistent And Thorough Sterilization. The Results From Prototype Testing Demonstrate Significant Reductions In Microbial Load, Highlighting The Effectiveness And Reliability Of This Innovative Disinfection Approach. This Paper Concludes By Discussing Future Enhancements, Including Improved Energy Efficiency, Integration With IoT Systems For Remote Monitoring, And Potential Applications In Other High-traffic Environments.
Other Details
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Paper id:
IJSARTV11I5103623
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Published in:
Volume: 11 Issue: 5 May 2025
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Publication Date:
2025-05-21
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