The occurrence of the COVID-19 pandemic revealed new dimensions of urban resilience to communities. Failure to implement health protocols in public buildings has had a significant impact on the spread of the disease, and inspection has become necessary to enforce the rules. This study presents different inspection policies of public buildings to reduce disease prevalence. It evaluates and compares the implementation of these policies in the long run based on the systems dynamics approach. First, baseline modeling was performed without inspection to analyze the proposed policies, and disease prevalence was investigated. Then various proposed inspection and fines policies, including fixed inspection and fines rate (FIFF), fixed inspection rate with the variable fine rate (FIVF), and variable inspection and fines rate (VIVF), are introduced, and their system dynamics models are presented. The impact of each inspection policy on the violations rate and disease prevalence in public buildings has been investigated using long-term simulation. Based on the results, regulatory agencies can significantly reduce the rate of violations in public buildings and improve urban resilience to the epidemic by adopting proper inspection policies. The results can help city managers to adopt appropriate inspection policies.
Keywords: Epidemic; Inspection; Policymaking; Public buildings; System dynamics.
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