A systematic literature search was conducted to assess the applicability based on published scientific papers on possible medical drone applications in the field of urgent mode. The implementation of drones in the medical security system requires proper planning of service cooperation, division of the area into sectors, assessment of potential risks and opportunities, and legal framework for the application. This review aims to analyze the feasibility of using UAVs to support emergency medical systems in the supply and urgent care ranges. The terms unmanned aircraft systems with data terminal connectivity (UAS) and remotely piloted aircraft systems (RPV, RPAS-military systems) are also used. The term unmanned aerial vehicle (UAV) was post-applied in the 1980s to describe remotely piloted multi-purpose, unmanned, autonomous aircraft. The present work uses the method of analysis of applicable legal regulations, as a criterion for the usefulness of existing solutions in the area of improving the quality of medical services, including preventive measures and combating the effects of an epidemic. Simultaneously, the article also includes data on quantities of equipment available to healthcare units in Poland for saving life and health. Reports on the commercial use of drones in the distribution of goods and services have also been used as material for comprehensive analysis. Additionally, the article aims to demonstrate the feasibility of drone use in activities related to combating epidemics, as well as to emphasize their practical importance. The main objective is supported by an analysis of the usefulness of applicable provisions, indicating the direction of possible changes in existing legal regulations. Given the current epidemiological situation, it is pertinent to consider, whether implementing activities with the use of drones can significantly contribute to minimizing health risks, and whether such initiatives are acceptable in the light of applicable legal regulations. When the detected heartbeat is 94bpm and the fever range is 101 degrees, a method has been presented in which an IoT Drone Doctor (IDD) System distributes the first AID box to vulnerable patients and heart patients.ĭespite their general availability, drones are not currently widely used in emergency medicine, distribution of medication and other medical products, as well as in epidemiological emergencies, in which limiting interpersonal contact is crucial for minimizing the public health risk. It has a 7-minute flying period and can deliver up to 2 kg of medicine. The shipping drone equipped with an Ardupilot can drive in autopilot mode, which guides the drone to its destination. When transmission is difficult, the self-maintaining drone is the format for quickly transporting drug treatments to the appropriate locations. IoT: Drone doctors are critical for the transportation of small gadgets such as drug treatments, blood leakages, and vaccines in the critical conditions of a heart patient, in the event of failure of traffic location infrastructure, highway roads, or hospitals due to intense climate or site visitor congestion, and for the transportation of small gadgets such as drug treatments, blood leakages, and vaccines. The transportation drone is capable of finding healthcare information in a 360-degree rotation within the transportation infrastructure. The goal of this patient monitoring system is to identify people's health and, if necessary, administer medicine. Without the use of medicine drones, users are responsible for transporting goods at a high cost. ( Disaster Med Public Health Preparedness. The presented funds required for such projects and the way of raising these funds illustrate the range of the project and its requirements. This study is based on a specialist research involving drones and referring to reports on the current situation in Poland and in the world. Apart from the financial aspect, staff and drone operator training issues are the subjects of this analysis as well. The analysis also involves ways of raising funds for projects related to the UAV sector. The description includes purchase and maintenance costs of UAVs. The aim of this research is to analyze the costs of unmanned aerial vehicle (UAV) implementation in the mass event medical support system. This study refers to the cost analysis of using drones in the medical support of mass events. The implementation of drones in the medical security system requires a proper planning of the cooperation of different services, dividing the area into sectors, assessing potential risks, and other factors.
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