An Engineering Alternative to Lockdown During COVID-19 and Other Airborne Infectious Disease Pandemics: Feasibility Study.

Yusaku Fujii
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Abstract

Background: Now and in the future, airborne diseases such as COVID-19 could become uncontrollable and lead the world into lockdowns. Finding alternatives to lockdowns, which limit individual freedoms and cause enormous economic losses, is critical.

Objective: The purpose of this study was to assess the feasibility of achieving a society or a nation that does not require lockdown during a pandemic due to airborne infectious diseases through the mass production and distribution of high-performance, low-cost, and comfortable powered air purifying respirators (PAPRs).

Methods: The feasibility of a social system using PAPR as an alternative to lockdown was examined from the following perspectives: first, what PAPRs can do as an alternative to lockdown; second, how to operate a social system utilizing PAPR; third, directions of improvement of PAPR as an alternative to lockdown; and finally, balancing between efficiency of infection control and personal freedom through the use of Internet of Things (IoT).

Results: PAPR was shown to be a possible alternative to lockdown through the reduction of airborne and droplet transmissions and through a temporary reduction of infection probability per contact. A social system in which individual constraints imposed by lockdown are replaced by PAPRs was proposed, and an example of its operation is presented in this paper. For example, the government determines the type and intensity of the lockdown and activates it. At that time, the government will also indicate how PAPR can be substituted for the different activity and movement restrictions imposed during a lockdown, for example, a curfew order may be replaced with the permission to go outside if wearing a PAPR. The following 7 points were raised as directions for improvement of PAPR as an alternative method to lockdown: flow optimization, precise differential pressure control, design improvement, maintenance method, variation development such as booth type, information terminal function, and performance evaluation method. In order to achieve the effectiveness and efficiency in controlling the spread of infection and the individual freedom at a high level in a social system that uses PAPRs as an alternative to lockdown, it was considered effective to develop a PAPR wearing rate network management system utilizing IoT.

Conclusions: This study shows that using PAPR with infection control ability and with less economic and social damage as an alternative to nationwide lockdown is possible during a pandemic due to airborne infectious diseases. Further, the efficiency of the government's infection control and each citizen's freedom can be balanced by using the PAPR wearing rate network management system utilizing an IoT system.

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COVID-19 和其他空气传播传染病大流行期间封锁的工程替代方案:可行性研究。
背景:现在和将来,COVID-19 等空气传播疾病可能变得无法控制,并导致世界陷入封锁。封锁会限制个人自由并造成巨大的经济损失,因此寻找封锁的替代方案至关重要:本研究的目的是评估通过大规模生产和分发高性能、低成本和舒适的动力空气净化呼吸器(PAPRs),实现社会或国家在空气传播传染病大流行期间无需封锁的可行性:方法:从以下几个方面研究了使用 PAPR 替代封锁的社会系统的可行性:首先,PAPR 作为封锁的替代品能做什么;其次,如何操作使用 PAPR 的社会系统;第三,PAPR 作为封锁的替代品的改进方向;最后,通过使用物联网(IoT)在感染控制的效率和个人自由之间取得平衡:结果表明,通过减少空气传播和飞沫传播,并通过暂时降低每次接触的感染概率,PAPR 可以替代封锁。本文提出了一个社会系统,在该系统中,PAPR 取代了封锁所施加的个人限制,并介绍了该系统的一个运行实例。例如,政府决定封锁的类型和强度并启动封锁。政府届时还将说明如何用 PAPR 代替封锁期间实施的不同活动和行动限制,例如,如果佩戴 PAPR,宵禁令可能会被允许外出所取代。作为封锁的替代方法,PAPR 的改进方向有以下 7 点:流量优化、精确压差控制、设计改进、维护方法、岗亭类型等差异化开发、信息终端功能和性能评估方法。为了在使用 PAPR 作为封锁替代方法的社会系统中实现控制感染传播的有效性和高效性以及个人的高度自由,利用物联网开发 PAPR 穿戴率网络管理系统被认为是有效的:本研究表明,在空气传播传染病大流行期间,使用具有感染控制能力且经济和社会损失较小的空气呼吸器替代全国范围的封锁是可行的。此外,通过利用物联网系统的 PAPR 佩戴率网络管理系统,可以平衡政府的感染控制效率和每个公民的自由。
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