Welcome to IKU Academic Digital Archive System
OpenAccess@IKU is Istanbul Kultur University's Academic Digital Archive System, established in June 2014 to digitally store and provide open access to academic and artistic outputs in line with international standards and intellectual property rights. The system includes various outputs such as articles, presentations, theses, books, book chapters, reports, encyclopedias, and works of art produced by the university's faculty members and students.
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Recent Submissions
Forecasting Inbound Logistics for Express Cargo Transportation: A Case Study of Turkey
(Springer Science and Business Media Deutschland GmbH, 2025) Budur, Buse; Demircioğlu, Helin Öykü; Şimşek, Berna; Konyalıoğlu, Aziz Kemal; tuğçe apayadın; Özcan, Tuncay; APAYDIN, TUĞÇE
Within the domain of inbound logistics, the express air cargo transportation sector has become an essential component of global trade. As the disparity between actual demand and forecasted demand in express cargo transportation widens, the potential for resource wastage correspondingly increases due to the unpredictability of volume and weight. Therefore, this study aims to forecast the daily quantity and weight of incoming cargo, categorized by type, within the context of inbound logistics. Utilizing a case study of express cargo transportation in Turkey, we employ both Long Short-Term Memory (LSTM) and Seasonal Autoregressive Integrated Moving Average (SARIMA) models to compare the forecasting performance of the LSTM approach. In the LSTM model, the maximum epoch, batch size, number of neurons and optimizer parameters are adjusted using grid search to reduce the prediction error. This forecasting capability enables businesses to better prepare for sudden fluctuations in incoming shipments and provides a methodological and analytical framework that influences daily operations. Additionally, we seek to contribute to the existing literature on operational planning by developing a model capable of generating daily forecasts, as opposed to traditional forecasting models that operate on different temporal scales. The numerical results indicate that the improved LSTM model outperforms the SARIMA model for all data sets.
Molecular Docking and Molecular Dynamics Analyses of Pazopanib with VEGF Receptors
(Istanbul University Press, 2025) Er, Alev; Önem, Zeynep Cicek; Çelik, Sefa; Özel, Ayşen; AKYÜZ, SEVİM
Objective: The antineoplastic agent Pazopanib is effective for treating renal cell cancer and soft tissue sarcoma. The aim of this study was to elucidate the anticancer mechanism of Pazopanib by exploring its molecular interactions with vascular endothelial growth factor receptors (VEGFRs). For this purpose, the most stable structure was determined, and molecular docking and molecular dynamics calculations of Pazopanib with VEGFR1 and VEGFR2 receptors were performed. Materials and Methods: Conformational analysis of Pazopanib was performed using VegaZZ software. Pazopanib was docked to the active sites of the VEGFR1 and VEGR2 receptors (PDB IDs: 3HNG; 3VHE) using Autodock Vina software. The molecular dynamics (MD) simulations were carried out using the YASARA v22.9.24 program with the AMBER14 force field. The anticancer, antibacterial, antifungal, and antiviral activities of the compounds were predicted using PaccMann, AntiBac-Pred, AntiFun-Pred, and AntiVir-Pred. Results: The molecular docking analysis of the Pazopanib molecule with the VEGFR1 and VEGFR2 receptors revealed a strong binding affinity of the investigated molecule towards the targets. The MD simulations, performed for Pazopanib-VEGFR1 and Pazopanib-VEGFR2 complexes showed that each docking complex and intermolecular interactions were stable throughout the simulations. Conclusion: Molecular docking simulations revealed a strong binding affinity of Pazopanib towards VEGFR1 (-8.6 kcal/mol) and VEGFR2 (-9.9 kcal/mol), indicating its efficacy in cancer treatment. During the 40-ns MD simulation of the Pazopanib-3hng and Pazopanib-3vhe complexes, we validated the stability of Pazopanib in the active sites of the receptors. The predicted anticancer, antibacterial, antifungal, and antiviral activities of Pazopanib revealed its versatile bioactivity.
Investigation of Pre-Service Science Teachers’ Social Media Usage Preferences: An Integrated Structural Equation Modelling and Artificial Neural Network Approach in the Context of Creativity and the Big Five Personality Traits
(Sciendo, 2025) Doğru, M. Said; FATİH, YÜZBAŞIOĞLU
Today, social media is widely used for many purposes, from socialization to communication and education to commerce. This study examines the social media use of pre-service science teachers in the context of creativity and the Big Five Personality Traits Theory. For this study, the participants were pre-service science teachers selected to represent the target group for examining the research objectives. Data from science teachers included in the study group were collected through an online questionnaire using purposive sampling, allowing for a focused examination of specific characteristics within this group. The data obtained from the questionnaires were analyzed and interpreted using an integrated SEM-ANN method. The findings obtained as a result of the study revealed that creativity and personality traits in the Big Five Personality Traits Theory affect the social media use of pre-service science teachers.
Cloud-Based VR Cybertherapy for Dynamic Exposure Therapy
(IEEE, 2025) KURTULUŞ, FETTAH; AKBULUT, AKHAN; Güngör, Feray; Tarakcı, Ela; Çatal, Çağatay
The use of virtual reality (VR) technology in the rehabilitation domain offers opportunities such as conducting potentially dangerous exposure experiments safely in a clinical environment. Although current state-of-the-art VR headsets offer very high resolutions that provide experiences close to real life, therapy systems are generally developed for specific phobias. The majority of VR-based small animal phobia studies are limited to exposure to spiders, insects, rats, and snakes, and there is no generic system available for the treatment of various small animal phobias. In this paper, we designed and implemented a cloud-based cybertherapy system for treating patients with small animal phobias that supports exposure to multiple species. Therapists can download specific assets for any type of small animal species from the cloud repository, enhancing the therapy systems based on the needs of the patients. The proposed exposure therapy system allows therapists to control the small animal assets in the game engine and adjust the therapy sessions according to the patient's condition. The results demonstrate the system's effectiveness in offering a flexible, adaptive, and scalable solution for treating small animal phobias across different patient scenarios. As an extension of this work, we started to develop a recommendation engine that uses labeled therapy data to personalize treatment protocols, further enhancing patient care.