Arda Sezen

Sezen, Arda

Profile URL

https://hdl.handle.net/20.500.14411/6766

Name Variants

A., Sezen
A.,Sezen
Sezen,A.
S.,Arda
S., Arda
Arda Sezen
Sezen,Arda
Sezen, Arda
Arda, Sezen

Job Title

Yardımcı Doçent

Email Address

arda.sezen@atilim.edu.tr

Main Affiliation

Computer Engineering

ORCID ID

0000-0002-7615-3623

Full item page

Sustainable Development Goals

SDG data is not available

This researcher does not have a Scopus ID.

This researcher does not have a WoS ID.

Scholarly Output

11

Articles

6

Views / Downloads

58/532

Supervised MSc Theses

4

Supervised PhD Theses

1

WoS Citation Count

7

Scopus Citation Count

36

Patents

0

Projects

1

WoS Citations per Publication

0.64

Scopus Citations per Publication

3.27

Open Access Source

5

Supervised Theses

5

Journal	Count
International Journal of Computational and Experimental Science and Engineering	3
Bilişim Teknolojileri Dergisi	1
Evolutionary Intelligence	1
IEEE Access	1

Page Size:

Current Page: 1 / 1

Scopus Quartile Distribution

Competency Cloud

Scholarly Output Search Results

Now showing 1 - 4 of 4

Citation - WoS: 2
Citation - Scopus: 3
A Hybrid Approach for Semantic Image Annotation
(Ieee-inst Electrical Electronics Engineers inc, 2021) Sezen, Arda; Turhan, Cigdem; Sengul, Gokhan
In this study, a framework that generates natural language descriptions of images within a controlled environment is proposed. Previous work on neural networks mostly focused on choosing the right labels and/or increasing the number of related labels to depict an image. However, creating a textual description of an image is a completely different phenomenon, structurally, syntactically, and semantically. The proposed semantic image annotation framework presents a novel combination of deep learning models and aligned annotation results derived from the instances of the ontology classes to generate sentential descriptions of images. Our hybrid approach benefits from the unique combination of deep learning and semantic web technologies. We detect objects from unlabeled sports images using a deep learning model based on a residual network and a feature pyramid network, with the focal loss technique to obtain predictions with high probability. The proposed framework not only produces probabilistically labeled images, but also the contextual results obtained from a knowledge base exploiting the relationship between the objects. The framework's object detection and prediction performances are tested with two datasets where the first one includes individual instances of images containing everyday scenes of common objects and the second custom dataset contains sports images collected from the web. Moreover, a sample image set is created to obtain annotation result data by applying all framework layers. Experimental results show that the framework is effective in this controlled environment and can be used with other applications via web services within the supported sports domain.
Görüntülerden Bilgi Elde Etmek İçin Görüntü Açıklama Çalışmalarının Sistematik Haritalandırma İncelemesi
(2020) Sezen, Arda; Turhan, Çiğdem
Çeşitli görüntü türlerinden görüntü meta verilerini elde etmeyi, işlemeyi ve anlamlı sonuçlar çıkarmayı amaçlayan görüntü açıklaması kavramı, bilgi toplumunda görüntülerden bilgi edinme konusunda daha kritik hale gelmiştir. Bu konuda literatürde önerilen birçok yaklaşım vardır, ancak en uygun olanı seçmek kolay değildir. Bu çalışmada, görüntü açıklamalarındaki kilit yaklaşımlar, kapsamlı bir literatür taraması ve sistematik haritalama yoluyla incelenmiştir. Çalışmamızın yeniliği, literatürdeki görüntü açıklama çalışmalarını araştırmak, haritalamak ve analiz etmek ve seçilen çalışmaları sınıflandırmak, araştırma boşluklarını ortaya çıkarmak ve bu makalede sunulan araştırma soruları için görsel özet hazırlamak adına ilk denemeyi temsil etmesidir. Literatürde, ilgi alanını farklı açılardan araştırmak için sistematik haritalama yaklaşımı önerilmektedir. Bu amaçla, tespit edilen toplam 404 çalışma içerisinden 95 çalışma seçilmiştir. Alandaki literatürün incelenmesi, mevcut yöntemlerin / tekniklerin, araçların, metriklerin, süreçlerin veya diğer teknik yaklaşımların kendi başlarına eksiksiz bir çözüm üretmek için yeterli olmadığını göstermektedir. Önerilen teknikleri birleştirerek ve disiplinlerarası yaklaşımları dikkate alarak yeni çözümler üretmenin gerekliliği de önerilmiştir.
Citation - WoS: 5
Citation - Scopus: 6
Research on Pcb Defect Detection Using Artificial Intelligence: a Systematic Mapping Study
(Springer Heidelberg, 2024) Ural, Dogan Irmak; Sezen, Arda
SMT (Surface Mount Technology) has been the backbone of PCB (Printed Circuit Board) production for the last couple of decades. Even though the speed and accuracy of SMT have been drastically improved in the last decade, errors during production are still a very valid problem for the PCB industry. With the exponential rise of Artificial Intelligence in the last decade, the SMT industry was one of the most eager industries to use this new technology to detect possible defects during production. Lately, traditional image processing techniques started to lag behind methods such as machine learning and deep learning when the discussion came to the need of high accuracy. In this paper, we screen academic libraries to understand which of the latest methods and techniques are used in the domain and to deduce a general process for detecting defects in PCBs. During the research we have investigated research questions related to state-of-the-art methods, highly mentioned datasets, and sought after PCB defects. All findings and answers are mapped to be able to understand where this pursuit might point towards. From a total of 270 papers, 90 of them were addressed in detail and 78 papers were chosen for this systematic mapping.
Citation - Scopus: 21
Comparative Analysis of Programming Languages Utilized in Artificial Intelligence Applications: Features, Performance, and Suitability
(Prof.Dr. İskender AKKURT, 2024) Sezen, Arda; Türkmen, Güzin; Şengül, Gökhan
This study presents a detailed comparative analysis of the foremost programming languages employed in Artificial Intelligence (AI) applications: Python, R, Java, and Julia. These languages are analysed for their performance, features, ease of use, scalability, library support, and their applicability to various AI tasks such as machine learning, data analysis, and scientific computing. Each language is evaluated based on syntax and readability, execution speed, library ecosystem, and integration with external tools. The analysis incorporates a use case of code writing for a linear regression task. The aim of this research is to guide AI practitioners, researchers, and developers in choosing the most appropriate programming language for their specific needs, optimizing both the development process and the performance of AI applications. The findings also highlight the ongoing evolution and community support for these languages, influencing long-term sustainability and adaptability in the rapidly advancing field of AI. This comparative assessment contributes to a deeper understanding of how programming languages can enhance or constrain the development and implementation of AI technologies.