| dc.description.abstract | The most difficult time for driving is at night because of the dreadful lighting
conditions. It was identified that 50% of the traffic deaths happen at night, even
though only one-quarter of our driving happens at night. Therefore, having clear
visibility at night is crucial for a safe drive at night. Most Advanced Driver Assistance
Systems (ADAS) also fail at night due to poor lighting. Considering this matter, this
study will explore the possibility of translating night-time images to clear and
detailed images with day-time lighting (i.e., equivalent daylight images). This can be
identified as a cross-domain image translation problem between the day-time
domain and the night-time domain. Even though many deep-learning-based
techniques to transform images between domains exist, most of them require pixelto-
pixel paired datasets for training. However, it is challenging to develop such a
dataset in this scenario, since roads are dynamic and uncontrolled environments. As
a solution, this study utilised a well-known Cycle-GAN model, which can be trained
using an unsupervised training approach. Therefore, this study explores the
possibility of transforming images between day-time and night-time using Cycle-
GAN. The other challenging task of this study is to access the quality of the Cycle-
GAN generated images, since there is no pixel-to-pixel paired image to compare
against. Therefore, this study utilizes a reference-less image quality evaluation
technique called Blind Reference-less Image Spatial Quality Evaluator (BRISQUE).
The day-time images synthesised by the trained Cycle-GAN indicated a 28.0416
average BRISQUE score, whereas the original day-time images indicated a 26.2156
BRISQUE score, which indicates that there is only a 0.069% deviation. Dataset and
the source code used for this study are available at
https://github.com/isurushanaka/GANresearch/tree/main/Night2Day/Experime
nts/Unpaired | en_US |
