EMERGENCY AID HEXACOPTER

EMERGENCY AID HEXACOPTER

Harkirat singh1 Dr Bharti Sahu2

1Student of Computer Science & Engineering, Chandigarh University, Gharuan Mohali, Nalwasingh123@gmail.com

2Assistant Professor, UIE, CSE, Chandigarh University, Gharuan, Mohali,

Bhartsahu8001@gmail.com

Abstract- Natural disasters present complex challenges for emergency response teams, often hindering timely aid delivery and exacerbating the risks faced by survivors. This research paper presents the comprehensive design, implementation, and evaluation of an innovative Emergency Aid Hexacopter (EAH) tailored to provide swift and effective aid during natural disasters. The EAH is equipped with an array of advanced sensors, including high-resolution cameras, thermal imaging devices, and gas detectors, to assess disaster areas and pinpoint survivors in urgent need of assistance. Additionally, the drone features a robust payload delivery system capable of transporting critical supplies such as food, water, and medical provisions to inaccessible or remote disaster zones. To assess the operational effectiveness of the EAD, a series of rigorous field tests were conducted in simulated disaster scenarios. The results demonstrate that the EAD significantly reduces response times, enhances the efficiency of aid distribution, and improves the overall effectiveness of disaster relief operations. The successful development and deployment of the EAD signify a major advancement in disaster relief technology, offering a viable solution to expedite aid delivery and enhance disaster response efforts. The findings of this research are expected to contribute significantly to the field of emergency response and disaster management, potentially saving numerous lives in future natural disasters..

Keywords: Natural disasters, emergency response, aid delivery, survivors, Emergency Aid Hexacopter (EAH), sensors, high-resolution cameras, thermal imaging devices, gas detectors, disaster areas, critical supplies, food, water, medical provisions, field tests, response times, aid distribution, disaster relief operations, disaster relief technology.