Automatic Turn Light Signal for Motorcycle /
Unsana, John Rommel D., author
Automatic Turn Light Signal for Motorcycle / John Rommel D. Unsana - Rosario, Cavite : Cavite State University-CCAT Campus, 2018 - xi, 48 leaves : illustrations ; 28 cm
Design Project (BSCpE)--Cavite State University-CCAT Campus, 2018.
Includes bibliographical references and appendices.
UNSANA, JOHN ROMMEL D. Automatic Turn Light Signal for Motorcycle. Design Project. Department of Engineering. Cavite State University Cavite College of Arts and Trades Campus, Rosario, Cavite. June 2018. Adviser: Mr. Kenneth J. Enrico. Technical critic: Dann Patrick G. Ramos.
The study was conducted from August 2017 to April 2018 with the general objective of automating the tum light signal and monitor the battery capacity of the motorcycle. Specifically, the study aimed to: 1) Design the system and construct sequence of code needed to develop the automation of turn light signal; 2) examine the hardware and programming relationship of the system; 3) evaluate the software and technical performance of the machine according to time response on tilting, and sensitivity of turn light reaction; and 4) conduct a machine performance analysis on humps scenario, turning, and changing lane.
The accuracy and the response time were used as independent variables, each having three trials. The tilting motion of steering wheel of the motorcycle was used in the study as input for the processing of the microcontroller. A proto-case was used to assemble and connect the materials of the project. The results of the statistical analysis of data revealed that the responsiveness and flashing delay of the prototype was enough to reach the standard of using tum light signal of a motorcycle in the country. The time response of left and right turn lights took only 0.81 second right after the tilting motion was detected. The accuracy of the system was also tested and it showed an accurate result of 10 out of 10 tum light responses in every tilt of the steering stem of the motorcycle.
Automatic signal--Motorcycle.
Microcontrollers.
Programmable controllers.
Just-in-time systems.
Sequence code.
UM TJ 223.P76 / U57 2018
Automatic Turn Light Signal for Motorcycle / John Rommel D. Unsana - Rosario, Cavite : Cavite State University-CCAT Campus, 2018 - xi, 48 leaves : illustrations ; 28 cm
Design Project (BSCpE)--Cavite State University-CCAT Campus, 2018.
Includes bibliographical references and appendices.
UNSANA, JOHN ROMMEL D. Automatic Turn Light Signal for Motorcycle. Design Project. Department of Engineering. Cavite State University Cavite College of Arts and Trades Campus, Rosario, Cavite. June 2018. Adviser: Mr. Kenneth J. Enrico. Technical critic: Dann Patrick G. Ramos.
The study was conducted from August 2017 to April 2018 with the general objective of automating the tum light signal and monitor the battery capacity of the motorcycle. Specifically, the study aimed to: 1) Design the system and construct sequence of code needed to develop the automation of turn light signal; 2) examine the hardware and programming relationship of the system; 3) evaluate the software and technical performance of the machine according to time response on tilting, and sensitivity of turn light reaction; and 4) conduct a machine performance analysis on humps scenario, turning, and changing lane.
The accuracy and the response time were used as independent variables, each having three trials. The tilting motion of steering wheel of the motorcycle was used in the study as input for the processing of the microcontroller. A proto-case was used to assemble and connect the materials of the project. The results of the statistical analysis of data revealed that the responsiveness and flashing delay of the prototype was enough to reach the standard of using tum light signal of a motorcycle in the country. The time response of left and right turn lights took only 0.81 second right after the tilting motion was detected. The accuracy of the system was also tested and it showed an accurate result of 10 out of 10 tum light responses in every tilt of the steering stem of the motorcycle.
Automatic signal--Motorcycle.
Microcontrollers.
Programmable controllers.
Just-in-time systems.
Sequence code.
UM TJ 223.P76 / U57 2018