EEE404 Multidisciplinary Engineering Project & EEE 434 Graduation Thesis derslerinden şu ana kadar proje konusu seçmemiş olan öğrencilerin aşağıdaki listeden bir konu seçerek 2 Mart tarihine kadar projeyi veren öğretim üyesi ile iletişime geçmeleri gerekmektedir.
Multidisciplinary Engineering Projects
Prof.Dr. Turgut İkiz
1. Design of an optimum gain X-band pyramidal horn antenna.
2. Simulation of scattering of two dimensional plane electromagnetic waves from a conducting cylinder usin FDTD.
3. Design of a square patch antenna for circular polarization.
Prof. Dr. Ahmet TEKE
4. Simulation of Grid Forming Control Methods for Grid Connected converters
5. Simulation of SVPWM Method for 3 Level A-NPC Inverter Topology
6. Simulation of Kalman Filter Based Method SoC Estimation for Lio-on Batteries
7. Design & Implementation of Energy Harvesting Circuit for Smart Current Transformers
8. Design & Implementation of Energy Harvesting Circuit for Smart Voltage Transformers
9. Design and Implementation of Measurement&Communication Circuits for Smart Voltage&Current Transformers
Prof. Dr. İlyas EKER
10. Backstepping control and controller design
11. Kalman Filters: Filter design and use in industrial control problems
12. Nonlinear controller design with feedback linearization method
13. Reinforcement learning control with applicability to industrial systems
14. Nonlinear control with stabilization method
15. Nonlinear control with Lyapunov Redesign method
16. Sliding mode controller design
17. Neural network control algorithms applicable to industrial systems
18. Predictive Control- Controller Design
19. Linearization of nonlinear systems: Approaches for solutions.
Prof. Dr. Mustafa GÖK
20. Design a vacuum cleaner robot. It has to have two modes autonomous and remote-control modes.
21. Design a simple RC boat that can be controlled by RF signalling. The boat has to avoid obstacles and also may contain speed encoder.
22. Design a stepper motor application to control a camera position. The camera must be put on a stand and the position of the camera will be send remotely through a bluetooth connection.
23. Design a fruit quality application that determines whether a fruit is stale or not. Try it on at least three different types of fruits apple, banana, orange. You use Raspberry Pi for this project and a camera.
24. Design a fruit counter using Raspberry Pi and Camera.
25. Design a remote controlled 3d printed mini drone using the least possible hardware.
26. Design a robot arm-controlled system to move small packets using 3d printed robot arms.
27. Design a vision system that estimates the age of a person. Requires raspberry pi and camera.
28. Design a telemetry system that measures the speed of a car, acceleration, temperature etc. System must send this information wirelessly and also store it.
29. Design a mobile monitor for heartrate blood oxygen levels and store the data on a remote server.
Assoc. Prof. Dr. M. Kerem ÜN
30. A computer program to determine the power series solution to a given differential equation: The student is expected to write a symbolic computer code (using MATLAB, Mathematica or similar software) that will provide the power series solution to a given ordinary differential equation.
31. Numerical solution of glucose regulation models: Glucose models are a set of differential equations modelling the variation. The student is expected to program a computer code and a user interface to solve the differential equations of a chosen model numerically and display the results.
32. Image reconstruction in computed tomography: In tomography, the cross section image is obtained through x-ray images shot continuously in all radial directions. This project involves writing of a computer code to reconstruct a tomography image from these x-ray images.
33. Obtaining the vectorcardiogram from electrocardiogram reading: In vector cardiography, the electrical activity of the heart is indicated using a vector as opposed to electrocardiogram where the magnitudes are recorded. This project involves writing a computer code to obtain the vectorcardiogram from the electrocardiogram reading.
34. 3D solid model reconstruction from slice images: The student is expected to write a MATLAB code that will create and visualize solid models by processing and combining the sequential slice images of the solid.
35. Constructing virtual X-ray images from 3D bone models: The student is expected to write a MATLAB code that calculates how the X-ray image of a 3D bone model would look like for a specified imaging angle.
36. Finite Element Code to solve electrostatic problem: In this project, the student is expected to write a finite element code to solve two-dimensional Laplace problem on arbitrary geometries.
Assoc. Prof. Dr. Sami ARICA
37. Trend removal with LMS and RLS algorithms
38. Removal of noise in signal and image by Wiener filter
39. Trend removal with linear Least squares filtering
40. Time series modelling with ARMAX (Autoregressive moving average with extra Input)
41. Time series/system modelling or filtering with shallow neural networks
42. State-space models of linear and nonlinear systems and chaotic systems/time series
Assist. Prof. Dr. Ercan AVŞAR
43. Design and development of a liquid level sensor
44. Android application development for database applications
45. RFID card reading and access logging system
46. A smartphone application for displaying closest parking lot available
47. Development of an image processing algorithm for automatically detecting resistance values from resistor images
48. Empty bottle classification and counting system (Glass, Metal, Plastic)
49. Microcontroller based GPS data logging system
Assoc. Prof. Dr. Murat AKSOY
50. Battery management system for lithium batteries.
51. State of Charge estimation for lithium batteries.
52. Sate of Health estimation for lithium batteries.
53. Cell balancing for lithium batteries.
54. Battery charger for Lithium batteries.
Assist. Prof. Dr. Oğuzhan TİMUR
55. Design and implementation of EKG and EMG measurement device with Arduino
56. Electric Motor Control Circuit Simulation with Matlab.
57. Renewable Energy Systems Simulation with Matlab or PSCAD
