Coronavirus disease 2019 (COVID-19) is one of the most infectious diseases and one of the greatest challenge due to global health crisis. The virus has been transmitted globally and spreading so fast with high incidence. While, the virus still pandemic, the government scramble to seek antiviral treatment and vaccines to combat the diseases. This study was conducted to investigate the influence of air pressure, air temperature, and relative humidity on the number of confirmed cases in COVID-19. Based on the result, the calculation of reproduced correlation through path decompositions and subsequent comparison to the empirical correlation indicated that the path model fits the empirical data. The identified factor significantly influenced the number of confirmed cases of COVID-19. Therefore, the number of daily confirmed cases of COVID-19 may reduce as the amount of relative humidity increases; relative humidity will increase as the amount of air temperature decreases; and the amount of air temperature will decrease as the amount of air pressure decreases. Thus, it is recommended that policy-making bodies consider the result of this study when implementing programs for COVID-19 and increase public awareness on the effects of weather condition, as it is one of the factors to control the number of COVID-19 cases.
翻译:2019年科罗纳病毒疾病(科罗纳病毒病(COVID-19)是全球卫生危机最传染性疾病之一,也是最大的挑战之一,该病毒已经在全球传播,传播速度很快,发病率很高;虽然病毒仍然流行,但政府急于寻求抗病毒治疗和疫苗来防治这些疾病;进行这项研究是为了调查空气压力、空气温度和相对湿度对科罗纳病毒19年确诊病例数量的影响;根据研究结果,通过路径分解和随后与经验相关性的比较对复制的关联进行计算表明,路径模型符合经验数据;所确定的因素大大影响了经证实的COVID-19病例数量;因此,随着相对湿度的增加,每日确诊的COVID-19病例数量可能会减少;随着空气温度下降,相对湿度将会增加;空气温度将随着空气压力减少而减少;因此,建议决策机构在执行COVID-19方案时考虑这项研究的结果,并提高公众对天气状况影响的认识,因为这是控制COVID-19病例数量的因素之一。
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