DESIGN AND IMPLEMENTATION OF THE HEAD, EYE, AND EYEBROW MOVEMENTS DETECTION SYSTEM BASED ON MACHINE LEARNING
Covid-19 Pandemic in Indonesia, push all of us to get more serious about entering the digital era. All physical activities have been limited and encouraged to do online, including academics. Teaching and learning activities, including exams, even made online. The problem of liveness and cheating...
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id-itb.:529932021-02-25T11:43:38ZDESIGN AND IMPLEMENTATION OF THE HEAD, EYE, AND EYEBROW MOVEMENTS DETECTION SYSTEM BASED ON MACHINE LEARNING Fauziah, Mirna Indonesia Theses cheating, CNN, dataset, detection, facial feature, liveness, real-time, webcam INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/52993 Covid-19 Pandemic in Indonesia, push all of us to get more serious about entering the digital era. All physical activities have been limited and encouraged to do online, including academics. Teaching and learning activities, including exams, even made online. The problem of liveness and cheating in exams has been a challenge in the academic field for a long time. This study discusses the facial feature movement (head, eye, eyebrow) detection system as an effort to develop liveness detection system and an online exam cheating detection system via webcam in the future. The research began by collecting tens of thousands of facial images containing the movements of the facial features needed, such as eye, eyebrows, and head movements. The collected images are then classified and created as a dataset to create a real-time facial features movement detection system. This study uses a Convolutional Neural Network (CNN) architecture to create a model for detection and classification of facial feature movement, along with liveness, with a total of 3.5 million parameters used. The dlib library is used to detect and define facial features such as eyes, eyebrows, and jaw. The system design is divided into three stages, first pre-processing as a stage for preparing the dataset before the training process, the second stage is training the model using the dataset that has been collected, and the last stage is detecting, this stage used to detect the movement of facial features in real-time using a model that has been trained before. The system can work well in bright conditions with an accuracy of 94.48%, and an accuracy of 92.65% with the room light. The use of glasses does not affect the performance of the system, but the use of the mask can affect the system in predicting head movements. Hopefully, this facial feature movement detection system can help the process of developing a cheat detection system for online exams in the future. text |
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Covid-19 Pandemic in Indonesia, push all of us to get more serious about entering
the digital era. All physical activities have been limited and encouraged to do
online, including academics. Teaching and learning activities, including exams,
even made online. The problem of liveness and cheating in exams has been a
challenge in the academic field for a long time. This study discusses the facial
feature movement (head, eye, eyebrow) detection system as an effort to develop
liveness detection system and an online exam cheating detection system via webcam
in the future. The research began by collecting tens of thousands of facial images
containing the movements of the facial features needed, such as eye, eyebrows, and
head movements. The collected images are then classified and created as a dataset
to create a real-time facial features movement detection system. This study uses a
Convolutional Neural Network (CNN) architecture to create a model for detection
and classification of facial feature movement, along with liveness, with a total of
3.5 million parameters used. The dlib library is used to detect and define facial
features such as eyes, eyebrows, and jaw. The system design is divided into three
stages, first pre-processing as a stage for preparing the dataset before the training
process, the second stage is training the model using the dataset that has been
collected, and the last stage is detecting, this stage used to detect the movement of
facial features in real-time using a model that has been trained before. The system
can work well in bright conditions with an accuracy of 94.48%, and an accuracy
of 92.65% with the room light. The use of glasses does not affect the performance
of the system, but the use of the mask can affect the system in predicting head
movements. Hopefully, this facial feature movement detection system can help the
process of developing a cheat detection system for online exams in the future. |
| format |
Theses |
| author |
Fauziah, Mirna |
| spellingShingle |
Fauziah, Mirna DESIGN AND IMPLEMENTATION OF THE HEAD, EYE, AND EYEBROW MOVEMENTS DETECTION SYSTEM BASED ON MACHINE LEARNING |
| author_facet |
Fauziah, Mirna |
| author_sort |
Fauziah, Mirna |
| title |
DESIGN AND IMPLEMENTATION OF THE HEAD, EYE, AND EYEBROW MOVEMENTS DETECTION SYSTEM BASED ON MACHINE LEARNING |
| title_short |
DESIGN AND IMPLEMENTATION OF THE HEAD, EYE, AND EYEBROW MOVEMENTS DETECTION SYSTEM BASED ON MACHINE LEARNING |
| title_full |
DESIGN AND IMPLEMENTATION OF THE HEAD, EYE, AND EYEBROW MOVEMENTS DETECTION SYSTEM BASED ON MACHINE LEARNING |
| title_fullStr |
DESIGN AND IMPLEMENTATION OF THE HEAD, EYE, AND EYEBROW MOVEMENTS DETECTION SYSTEM BASED ON MACHINE LEARNING |
| title_full_unstemmed |
DESIGN AND IMPLEMENTATION OF THE HEAD, EYE, AND EYEBROW MOVEMENTS DETECTION SYSTEM BASED ON MACHINE LEARNING |
| title_sort |
design and implementation of the head, eye, and eyebrow movements detection system based on machine learning |
| url |
https://digilib.itb.ac.id/gdl/view/52993 |
| _version_ |
1822929201097867264 |