Accurate Pupil Detection Using the Multi Wavelet Transform (MWT) and the Hough Transform (HT)
الملخص
Historically, pupil detection plays an important role in eye tracking and gaze
estimation systems. These systems have found numerous applications in different
domains including human-computer interaction (HCI), biomedical engineering, and
clinical diagnosis of ocular diseases. An automatic eye identification system
consists of three steps: eye localization, feature extraction, and iris detection. Pupil
detection refers to the third stage of the system. Though detection of pupils seems
to be very basic and straightforward, however, different factors like varying lighting
conditions, eyelids and eyelash occlusions, and different iris and pupil color make
this process is extremely challenging. Also, the presence of specular reflection on
the cornea complicates the detection further. In the literature, many different pupil
detection techniques have been proposed that are aimed at addressing these
challenges. However, relying on one set of features to detect pupils is not adequate
because of the variations in the images. Therefore, it has been proven that by
applying multiple sets of features that are complementary to each other, a better and
more robust pupil detection performance can be achieved
In this paper, we discuss three main different pupil detection techniques using
morphology, multi-wavelet transform, and Hough transform. The main objectives
of this paper are as follows: firstly, to understand different techniques and to
investigate how the changes in the algorithms can affect the performance of pupil
detection. Secondly, to propose a comprehensive comparison between three
different pupil detection techniques. Finally, the paper concludes based on the
comparison whether there is one technique that outperforms the others. Also, it tries
to validate the proposed method by detecting and encoding the pupil data of a
human subject. This paper is organized as follows: the next section of this paper
discusses the relevant work that describes the state of the art in the area of eye and
pupil detection. Then, the methodology of all three techniques is explained in detail.
The following section discusses the experimental results and finally, the conclusion
is given. Using MATLAB 2020a, this method is applied and tested on the IIT Delhi
(IITD) iris database v1 and the Chinese Academy of Sciences (CASIA V4) iris
image database 249 persons. When compared to real-time detection speed and
steady performance, this method's center and radius detecting accuracy is high,
reaching 98% for 2268 iris on CASIA V4 picture and 99.87% for 2240 iris images
on IITD. Its speed is also acceptable.