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Öğe Android based mobile payment and vehicle control device [Android Tabanli Mobil Ödeme ve Araç Içi Kontrol Merkezi](Institute of Electrical and Electronics Engineers Inc., 2017) Turk E.; Savran A.; Arslan S.In this study, an intelligent embedded system which it can be used in fare collection system and all indoor vehicle applications at same time, is designed and Android porting to this device. We discuss expected characteristics of mobile payment and how Android works on any hardware and the concepts that outline the porting of Android onto any hardware. Requirement analysis is performed before starting the study to determine hardware features of the system. Bootloader, Linux kernel and root file system is prepared for this device. Environmental parameters of the bootloader is determined in accordance with the requirements. Android source code is patched and compiled to get system image. In conclusion, Android based mobile payment and vehicle control center design has been completed. © 2016 The Chamber of Turkish Electrical Engineers.Öğe An android-based IoT system for vehicle monitoring and diagnostic(Institute of Electrical and Electronics Engineers Inc., 2018) Turk E.; Challenger M.In this study, a driver behavior analysis tool and an in-vehicle sensor data monitoring system are presented. The study offers a system based on low cost hardware and advanced software capabilities. The embedded system utilizes the information provided by in-car sensors using the Controller Area Network (CAN), an Inertial Measurement Unit (IMU) and a GPS. By combining this information, the driving performance and driving characteristics are determined. Thanks to the GPS position data, instantaneous speed and vehicle information will be displayed on a map based on location. In addition, dozens of vehicle-related sensor data can be accessed by users over the remote server. © 2018 IEEE.Öğe Applying the Ideal Testing Framework to HDL Programs(VDE Verlag GmbH, 2018) Kilincceker O.; Turk E.; Challenger M.; Belli F.This paper proposes a framework for testing behavioral model of sequential circuits implemented in Hardware Description Language (HDL). The concept of Ideal Testing is applied for achieving reliability and validity of both positive and negative testing. The HDL program is first modeled by a Finite State Machine (FSM) which is then converted to a Regular Expression (RE). This RE is used to construct test sequences. For positive testing, the original (fault-free) FSM model is used, while for negative testing its mutant model(s) are used to define requirements of ideal testing in conjunction with model-based and code-based mutation testing. A demonstrating example based on a real-life-like Traffic Light Controller (TLC) validates the proposed approach and analyzes its characteristic features. © ARCS 2018.Öğe Bilhemia, An unusual complication after blunt liver trauma in a child: Case report and review of the literature(2010) Turk E.; Temir Z.G.; Karkiner A.; Memis A.; Topalak O.; Evciler H.; Ucan B.; Karaca I.[No abstract available]
