ABSTRACT
This research combines software to develop an effective vibration warning system for drivers’ dangerous behaviors. To effectively reduce the occurrence of vehicle accidents and protect driving safety, this research adopts the driving behavior mode to develop various automobile safety equipment. It is hoped that with the assistance of the warning system, the driver will be able to respond quickly and correctly to avoid car accidents. The directions for this research are as follows: (1) Research and development of the deviation system warning system for intelligent trucks: This research mainly focuses on the research and development of deviation recognition software, which informs driving by voice or vibration. (2) Research and development of an anticollision warning system for intelligent vehicles; general anticollision devices use images to identify the dangerous distance and then use voice to notify the driver in danger. Often, drivers will not accept the signal due to the noisy environment and ignore the danger. (3) Perceived software and hardware system combination design: combine the image system, vibration system, and mechanism design to construct the entire automobile safety system. (4) Mechanism equipment and transmission design: The electromechanical equipment mainly assembles coils, windings, mechanisms, and detection devices. This research will consider the design of perceptual reaction time, perceived reaction speed, braking reaction time, time to collision (TTC), and average acceleration. In terms of vibration force, tested by 3N, the error value is 3%, the offset time is set at 0.5 sec, the error value is 5%, and the overall reliability is more than 95%, which conforms to the original design.
