DEVELOPMENT OF AN AERIAL FIRE IDENTIFICATION SYSTEM BASED ON VISUAL ARTIFICIAL INTELLIGENCE
DKI Jakarta is the most populous province in Indonesia. Based on statistics, in the capital city of this country there have been around 6,429 fires throughout 2020. This dense area makes the distance between houses very close which has the potential to accelerate the spread of fire from one house...
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/69266 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | DKI Jakarta is the most populous province in Indonesia. Based on statistics, in the
capital city of this country there have been around 6,429 fires throughout 2020.
This dense area makes the distance between houses very close which has the
potential to accelerate the spread of fire from one house to another. To reduce
losses due to fire, it is necessary to extinguish and rescue immediately. However,
the fire trucks were unable to reach the fire site due to the narrow road access. In
this case, the use of autonomous drones in collaboration with fire detection based
on visual artificial intelligence can help fire disaster management. In the long term,
it is hoped that drones can fly by themselves to the point of fire and then release
fire-fighting bombs automatically. This undergraduate assignment explores the
idea of identifying fire using a computer vision approach. Because the speed of
identification is very important in disaster management cases, the model in this
study uses YOLOv4 algorithm trained in Google Colaboratory, each model takes
8-10 hours to train. In this study, 8 identification models were built with each
dataset of day, night, day and night, thermal, day filter, night filter, day and night
filter, and thermal filter. Each dataset contains 300-450 data in the form of images
from the top view in a state of fire and not fire, also at the daylight and night. The
results show that the model with the day and night dataset is the most stable model
among the other seven models, because this model has the highest average F1-
score for each test. |
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