Corners can be commonly observed in most building facilities.However, pedestrians' turning behavior at the corners, especially in collective movements, is rarely studied and not fully understood. To investigate the eects of such configuration on pedestrian flow, both uni-and bidirectional experiments were conducted in a right-angled corridor. From the fundamental diagram, it is found that pedestrians in our experiments are less sensitive to high-density situations and the velocity at high densities tends to be larger than observed values in former studies. Besides, in our experiments, no noticeable dierence is observed between the fundamental diagrams in uni-and bidirectional scenarios for densities below 2 ped m −2 . According to the density profile, pedestrians in unidirectional turning movements tend to seek the shortest path, whereas their followed path is more influenced by the detour behavior against encounters when it comes to bidirectional scenarios. Besides, due to the collision avoidance behavior and lane formation phenomenon in bidirectional scenarios, the highest
Background: The new coronavirus disease COVID-19 began in December 2019 and has spread rapidly by human-to-human transmission. This study evaluated the transmissibility of the infectious disease and analyzed its association with temperature and humidity to study the propagation pattern of COVID-19. Methods: In this study, we revised the reported data in Wuhan based on several assumptions to estimate the actual number of confirmed cases considering that perhaps not all cases could be detected and reported in the complex situation there. Then we used the equation derived from the Susceptible-Exposed-Infectious-Recovered (SEIR) model to calculate R 0 from January 24, 2020 to February 13, 2020 in 11 major cities in China for comparison. With the calculation results, we conducted correlation analysis and regression analysis between R 0 and temperature and humidity for four major cities in China to see the association between the transmissibility of COVID-19 and the weather variables. Results: It was estimated that the cumulative number of confirmed cases had exceeded 45 000 by February 13, 2020 in Wuhan. The average R 0 in Wuhan was 2.7, significantly higher than those in other cities ranging from 1.8 to 2.4. The inflection points in the cities outside Hubei Province were between January 30, 2020 and February 3, 2020, while there had not been an obvious downward trend of R 0 in Wuhan. R 0 negatively correlated with both temperature and humidity, which was significant at the 0.01 level. Conclusions: The transmissibility of COVID-19 was strong and importance should be attached to the intervention of its transmission especially in Wuhan. According to the correlation between R 0 and weather, the spread of disease will be suppressed as the weather warms.
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