I am a senior student in the Electrical and Electronics Engineering Department at Eskişehir Osmangazi University. I am also pursuing a double major in computer engineering.
AutoCAD: I learned AutoCAD during my university education, working on both 2D and 3D drawings.
I effectively used AutoCAD block libraries and layer management while handling details in electrical
design projects, such as floor plans, switchyards, and wiring diagrams.
Arduino & ESP32: I began with basic projects on the Arduino platform (e.g., sensor and motor
control)
and integrated various sensors (temperature, humidity, distance, etc.) into my applications. Through
projects like obstacle-detecting robots and sensor-based lamps, I gained experience in communication
methods, including I2C and SPI. Moving on to ESP32, I explored features like Wi-Fi connectivity,
dual-core architecture, and FreeRTOS. In my capstone project, I used Wi-Fi to transfer sensor data
to
my own web server, gaining hands-on experience in real-time data monitoring and logging.
SketchUp: I enhanced the visual quality of projects involving façade cladding, interior design, and
furniture placement by leveraging SketchUp’s built-in components. I also gained experience using
different rendering plugins.
PVSOL: I learned to use PVSOL during my internship at the Kocaeli Metropolitan Municipality, where
I designed numerous solar panel platforms for rooftops and ground installations.
C: By developing my foundational algorithms in C, I focused on microcontroller projects involving
STM32, Arduino, and ESP32. My work included managing digital and analog I/O, ensuring system
continuity via interrupts, and working with communication protocols (UART, SPI, I2C). During my
capstone project, I extensively used C for memory management, function design, and embedded library
integration.
C++: I utilized C++ in various projects that required object-oriented programming (OOP) features,
developing a range of applications tailored to different needs.
Flutter: Taking advantage of Flutter’s widget-based structure, I quickly built user interfaces,
integrated
state management concepts (Provider, Bloc, etc.), and connected backend services (e.g., Firebase)
for
real-time data tracking.
HTML & CSS: In my capstone project, I developed a web page using HTML and CSS to display sensor
data collected from the ESP32 in a user-friendly interface. I used modern CSS techniques like
Flexbox
and Grid to organize the layout, and I carefully chose color palettes and typography to enhance user
experience.
C#: During my 2024 summer internship, I had the opportunity to work on both desktop and
web-based applications in C. I gained experience in projects developed on .NET Framework and .NET
Core, designing interfaces using Windows Forms.
In the project I was involved in, I used the ESP8266 (NodeMCU) module to collect data from different types of sensors (for instance, temperature, humidity, etc.) and then transmitted these data to web servers in real time or at specified intervals. During this process, I focused on aspects such as Wi-Fi connection management, data formatting (JSON, XML, etc.), protocol selection (HTTP, MQTT, etc.), and reliable data transfer (via TCP/IP). This approach enabled me to establish a flexible system that could address both instant data transfer scenarios and transmissions at set intervals. To process and visualize the collected data, I developed applications using the .NET Framework and .NET Core platforms. These applications stored data in a database layer, retrieved it via relevant APIs, and presented it in real time through user-friendly interfaces. Consequently, I created a high-performance, scalable infrastructure while providing sensor data in meaningful graphs or tables. Additionally, I communicated with devices like the ZKTeco SC403 over TCP/IP to gather personnel and entry-exit records, which I then processed and integrated into corporate reports, payroll systems, or shift tracking operations. Through these steps, I acquired the ability to build an end-to-end data collection and management system and experienced seamless interaction between embedded systems (ESP8266) and desktop/web-based software (C, ASP.NET Core, etc.).
Renewable Energy Sources-The usage rates and types of renewable energy resources in Turkey and the world were investigated. With the PVSOL program, solar panels were designed for the roof of Kocaeli Metropolitan Municipality Building Control Department and the roof of Izmit Vegetable and Fruit Market. Official procedures were investigated. Utility Poles and High-Voltage Poles-In the workshop, work was done on connecting triple sockets and fuse connection to the building installation. Work was carried out on the installation of city electricity poles and the distribution of high voltage lines.
Within the scope of the TÜBİTAK-BİÇABA program, I worked for six months on the project titled “Development of High-Awareness and AI-Based Numerology Allocation Algorithms for 6G,” led by Dr. Lecturer Ahmet Yazar. During this time, I diligently pursued the project objectives, actively participating in research, algorithm development, and testing processes. Together with my advisor, Dr. Ahmet Yazar, I also conducted detailed studies on 5G and 6G communication technologies under the NextGCT-IRG community. This experience allowed me to gain both theoretical and practical knowledge of next-generation communication technologies.
Graduation Project – Designed a multimodal learning system to detect offensive content by combining
visual and textual data. Created a custom dataset and compared single vs. dual-model performances.
Tools & technologies used: VGG16, CNN,
Stacked/Bidirectional LSTM, GloVe, Early Fusion, ASP.NET Core Web API, Angular, MSSQL
Developed an action game with 3 difficulty levels (Easy, Mid, Hard) to measure attention and
reflexes through dynamic actor interactions and real-time scoring.
Tools & technologies used: Unreal Engine,
Blueprint Visual Scripting, Score/Crosshair/GameOver Widgets
Click for relevant study.
Designed an STM32-based battery management system with LCD display, user input buttons, voltage
monitoring, and efficient energy control via MOSFETs.
Tools & technologies used: STM32F103C8T6,
RFZ44NS MOSFET, 18650 Li-ion Battery, LCD, ADC, Potentiometer
Collected sensor and button data, sent to SOAP API via Wi-Fi using AutoConnect and LittleFS for reliable network and storage. Tools & technologies used: NodeMCU (ESP8266), DHT11, LCD, Buttons, SOAP API, AutoConnect Library, EEPROM, LittleFS
Graduation Project – Built a wind monitoring system with real-time transmission to a web interface. Used magnetometer for
direction and IR sensor for speed. Displayed values both locally and remotely.
Tools & technologies used: ESP32, IR Sensor,
HMC5883L, LCD, I2C, Web Server
Click for relevant
study.
Created an Arduino-based sanitizer device for the hearing-impaired. Detected hand gestures,
triggered spray mechanism, and provided audio-visual feedback via LCD and speaker.
Tools & technologies used: Arduino Uno, L298N
Pair Motor Driver, 2x16 LCD Screen, Water Pump, IR sensor, I2C Module, Speaker, SD Card Module
Click for relevant working codes.