부산대학교 도서관

This research is mainly aimed at the innovative design of the display device in the helicopter flight environment. The research method is TRIZ method and human factor engineering technology. Using the technical contradiction matrix to improve the parameters and avoiding the deterioration of the parameters to find the corresponding possible invention principles to provide a reference for innovative design; in addition, with the human-engineering human-machine system and visual transmission system technology, helicopter driving can be safer and Comfortable handling to reduce flight accidents, the results of this study are as follows: 1. In the innovative design part of the surrounding environment to avoid collision when the helicopter is flying, install infrared or other detectors on the main rotor and tail rotor of the body to avoid Obstructing obstacles such as flow lines, electric tower wires or woods, effectively reducing accidents such as aircraft approaching or colliding with foreign objects. 2. In the innovative design part of the helicopter to avoid the influence of geographical environment, install wind or other detectors on the main rotor and tail rotor of the aircraft to avoid the instantaneous gusts in the open area, the instantaneous wind cut in the valley or the instability of the valley flow. Equal factors, effectively reducing flight accidents. 3. In the innovative design part of the Arduino control system during helicopter flight, the Arduino control system combines infrared and wind sensing devices to influence the flight safety factor of the external environment and geographical environment, and display the driving control by means of signal and video. On the panel to improve driving safety.