The paper focuses on the development of an autonomous disinfection robot UltraBot to reduce COVID-19 transmission along with other harmful bacteria and viruses. The motivation behind the research is to develop such a robot that is capable of performing disinfection tasks without the use of harmful sprays and chemicals that can leave residues and require airing the room afterward for a long time. UltraBot technology has the potential to offer the most optimal autonomous disinfection performance along with taking care of people, keeping them from getting under the UV-C radiation. The paper highlights UltraBot's mechanical and electrical design as well as disinfection performance. The conducted experiments demonstrate the effectiveness of robot disinfection ability and actual disinfection area per each side with UV-C lamp array. The disinfection effectiveness results show actual performance for the multi-pass technique that provides 1-log reduction with combined direct UV-C exposure and ozone-based air purification after two robot passes at a speed of 0.14 m/s. This technique has the same performance as ten minutes static disinfection. Finally, we have calculated the non-trivial form of the robot disinfection zone by two consecutive experiment to produce optimal path planning and to provide full disinfection in selected areas.
翻译:本文侧重于开发自主消毒机器人UltraBot,以减少COVID-19的传播以及其他有害细菌和病毒,研究的动机是开发这样一个机器人,能够不使用有害喷雾剂和化学品进行消毒工作,因为有害喷雾剂和化学品可能会留下残留物,长期需要放入房间。UtraBot技术有可能提供最优化的自主消毒性能,同时照顾人们,使他们不至于受到紫外线-C辐射。本文强调UltraBot的机械和电气设计以及消毒性能。所进行的实验表明机器人消毒能力以及用紫外线-C灯阵列在每侧实际消毒区的有效性。消毒效果结果显示多射技术的实际性能,在两部机器人以0.14米/秒的速度通过后,将减少1-log的直接紫外线接触和以臭氧为基础的空气净化相结合。这一技术的性能与10分钟静态消毒效果相同。最后,我们通过连续两次实验,在最佳消毒区进行最佳计划并提供完全的消毒实验,从而提供最佳计划。