DESIGN AND IMPLEMENTATION OF VEHICLE-BASED DETECTION BLOCK ON DRIVER DROWSINESS DETECTION AND WARNING SYSTEM OF FOUR-WHEEL VEHICLES USING ACCELEROMETER
ABSTRACT DESIGN AND IMPLEMENTATION OF VEHICLE-BASED DETECTION BLOCK ON DRIVER DROWSINESS DETECTION AND WARNING SYSTEM OF FOUR-WHEEL VEHICLES USING ACCELEROMETER By Ediko Raymond Silalahi NIM: 13217077 (Undergraduate’s Program in Electrical Engineering) Drowsiness is one of the biggest facto...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/63992 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | ABSTRACT
DESIGN AND IMPLEMENTATION OF VEHICLE-BASED
DETECTION BLOCK ON DRIVER DROWSINESS DETECTION
AND WARNING SYSTEM OF FOUR-WHEEL VEHICLES
USING ACCELEROMETER
By
Ediko Raymond Silalahi
NIM: 13217077
(Undergraduate’s Program in Electrical Engineering)
Drowsiness is one of the biggest factors in driving accidents. Drowsiness can be a
huge problem for drivers because it makes the driver to be unable to fully
concentrate, have responsiveness, and have the ability to make faster decisions to
avoid collisions. The state is difficult to detect and rarely known by the driver. This
needs a system to detect and warn before drowse. It is necessary to develop a system
to help the driver problem, "Driver Drowsiness Detection and Warning System".
When the driver is drowsy, it shows detectable characteristics such as changes in
behavioral, vehicle behavior, physiological signals of the body. The detection
system that will be developed must be able to detect more than one of these
sleepiness characteristics to support the novelty of this final project. Then pairwise
comparison is chosen to determine the best solution. In this final project, the chosen
solution was detection of eye, road signs and steering wheel angles.
One of the blocks that is being done in this final project is a vehicle-based detection
block, which is the detection of the steering wheel angle of the car. The system must
be able to detect a certain angle because the driver often makes macro corrections
for a certain amount of time which is dangerous if it crosses the center line of the
car. The system is expected not to be late in detecting this sleepy behavior and can
provide good information. The test in this project was by measuring the angle of
one degree. From the modeling results, it is found that for a car speed of 100
km/hour and a sampling time of 0.5 seconds, the maximum angle of the wheel before
passing the car driving lane is 3.1 degrees.
Keywords: drowsiness, detection, warning, driver, accident, angle, steering |
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