Development of automatically starting helmet for motorcycle/
Enrico Jem M. Obera, Joshua C. Ardeza, Ruelan M. Reonisto, Ryan A. Manalo, and Christianne M. Cueto .--
- Manila: Technological University of the Philippines, 2023.
- vii, 52pages: 29cm.
Bachelor's thesis
College of Industrial Technology .--
Includes bibliography
The increase in motorcycles has led to a frightening number of street collisions in many nations each day. Some countries have dense populations where the roads are narrower than roads and streets in other republics. The government has put enough rules and regulations in place to prevent street collisions, however, the crash rate is growing each day. Causes such as the motorbike rider not wearing a helmet while riding. While not wearing a helmet, Motorcycle riders are involved in serious road accidents that result in fatalities. This paper introduces a highly successful and technical method like automatically starting helmets, which can help one avoid such problems. An Arduino NANO is a microcontroller that controls the entire system. Two nRF24L01 are used as transmitters and receivers. In one Proximity you can use a sensor that can distinguish whether the bike rider is wearing a helmet or non. A proximity sensor detects if the bike rider does not wear the helmet and turns off the system. The motorbike engine simply starts after a rider buckles the helmet. The researchers have developed an automatic helmet that is used to ensure the safety of bike riders. Fabrication is properly employed with the exploitation of hand tools such as soldering iron, multi-tester, and screwdriver. The performance and reliability of the prototype and the actual testing of the prototype were conducted. The Development of automatically starting helmets for motorcycles was assessed by evaluating the acceptability level of the developed project using a validated survey questionnaire. Overall, the acceptability of prototype evaluation mean is 4.41 with the descriptive rating of “Very Acceptable”. In terms of functionality, aesthetics, workability, efficiency, economy, and safety.