Abstract
The outbreak of African swine fever virus has raised global concerns regarding epidemic livestock diseases. Therefore, various studies have attempted to prevent and monitor epidemic livestock diseases. Most of them have emphasized that integrated studies between the public health and transportation engineering are essential to prevent the livestock disease spread. However, it has been difficult to obtain big data related to the mobility of livestock-related vehicles. Thus, it is challenging to conduct research that comprehensively considers cargo vehicles’ movement carrying livestock and the spread of livestock infectious diseases. This study developed the framework for integrating the digital tachograph data (DTG) and trucks’ visit history of livestock facility data. The DTG data include commercial trucks’ coordinate information, but it excludes actual livestock-related vehicle trajectories such as freight types and facility visit history. Therefore, the integrated database we developed can be used as a significant resource for preventing the spread of livestock epidemics by pre-monitoring livestock transport vehicles’ movements. In future studies, epidemiological research on infectious diseases and livestock species will be able to conduct through the derived integrating database. Furthermore, the indicators of the spread of infectious diseases could be suggested based on both microscopic and macroscopic roadway networks to manage livestock epidemics.
Highlights
The epidemic of African swine fever virus has led to an increasing global interest in epidemic livestock diseases
A road mobility analysis of livestock-related vehicles is essential for efficiently preventing the spread of livestock epidemics
Current animal disease prevention procedures are conducted based on a unified procedure, without any analysis related to livestock-related vehicles’ road mobility
Summary
The epidemic of African swine fever virus has led to an increasing global interest in epidemic livestock diseases. The World Organization for Animal Health has focused on this issue and designated research each year [1,2,3]. Many other studies have proposed methods to prevent and control epidemic livestock diseases. Convergence research in health sciences and transportation engineering is required to control infectious diseases. Countries seek ways to prevent the spread of infectious diseases in terms of transportation engineering through a system that stores and analyzes information regarding the traffic trajectories of livestock-related vehicles [10,11,12]. There have been no convergence research cases for health science and transportation engineering for effectively controlling the spread of infectious diseases or of experts competent in both fields simultaneously
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