Modeling the effect of visibility on upstairs crowd evacuation by a stochastic FFCA model with finer discretization.

In recent years, deep underground buildings appear more often than ever, and stairs are the main facilities for the upward evacuation of crowds from these buildings. As one of the most essential factors, the visibility might play a dominant role in the upward evacuation on stairs. To ensure the safety of the crowd in underground spaces, a finer discrete and stochastic floor field cellular automaton (FFCA) model integrating the visibility influence is established for the simulation of the crowd upward evacuation from a 21-storey staircase. By comparison, the simulation fits well with the observation and experiment, which implies that the model captures the main features of upward evacuations on stairs. Then, from the predicted results, it is found that the visibility reduction has a significant negative impact on the temporal–spatial distribution of pedestrians, especially on the inflow and outflow, while the entrance flow rate shows little impact as long as it is higher than 1.0 ped ⋅ m−1 ⋅ s−1. • A fine discrete and stochastic FFCA model integrated visibility influence. • For validation, the simulation fits well with the empirical data. • Entrance flow shows little impact when higher than 1.0 ped ⋅ m−1 ⋅ s−1. • Visibility reduction shows significant negative impact on evacuation. [ABSTRACT FROM AUTHOR]