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WEB MAIL TELEFON REHBERİ ÖĞRENCİ BİLGİ SİSTEMİ AÇILAN DERSLER UZAKTAN EĞİTİM KAMPÜSTE YAŞAM KÜTÜPHANE PORTALI ULAŞIM

Bölümümüz son sınıf öğrencilerinin EE407 “Innovative Engineering Analysis and Design” ve EE408 “Innovative Engineering Design and Implementation” dersleri kapsamında tasarım ve üretimini sağlayacakları bitirme projeleri için 2020/2021 eğitim ve öğretim yılı proje başlıkları belli olmuştur.

 

EE407 dersine kaydolan öğrencilerin

 

  • 5 kişilik gruplar oluşturmaları ve gruplarına bir isim vermeleri

 

  • Aşağıda listelenmiş “reserved” olmayan projelerden tercih ettikleri 3 tanesini tercih sıralarını belirterek seçmeleri

 

  • Bu sıralı tercihleri, gruplarındaki öğrencilerin isimlerini/numaralarını/genel not ortalamalarını ve grup isimlerini içeren bir elektronik postayı proje dersi koordinatörü Dr.Tolga İNAN’a (tolga.inan@cankaya.edu.tr) e-posta yoluyla 30 Eylül saat 18:00’e kadar göndermeleri, gerekmektedir. Hangi projenin hangi gruba verileceği  bu sayfada duyurulacaktır.

 

Öğrenciler ders kayıtlar sırasında; EE407 dersi için herhangi bir gruba kaydolabilirler.

 

 

PROJECT 1 

Advisor:        Prof.Dr. Yahya Kemal Baykal

Title:              Underwater wireless optical communication system design
Description:            A wireless optical communication system that involves an optical transmitter and an optical receiver to operate in an underwater environment will be designed and implemented. The proposed performance of this system will be verified and tested. The design criteria and the underwater channel characteristics will be reported.

Students:

201626004  Kemal Altınay
201626002 Yener Ağca
201626008 Ömer Faruk Aydın
201726402 Ramazan Burkağan Maraş
201726048 Muhammet Mert Mendi

 

PROJECT 2 

Advisor:        Prof.Dr. Yahya Kemal Baykal

Title:              Channel analysis for wireless optical communication link in atmosphere and underwater 
Description:            Detailed characteristics of atmospheric and underwater channels in which wireless optical communication links will operate, are expected to be thoroughly investigated. The effects of various channel characteristics in the performance of the wireless optical communication links operating in such media will be reported.

Students:

201626062 Mert Toktaş
201626027 Balkan Ertuğrul
201626009 Eren Aydıngün
201626050 Furkan Emin Özyaşar

 

PROJECT 3 

Advisor:        Prof.Dr. İres İskender

Title:              Overview of electric machines for electric and hybrid vehicles
Description:            In this Project different types of electric machines used in electric vehicles will be studied. The performance and characteristics of these machines will be analyzed and simulation will be performed using Matlab-Simulink.

Students:

201626026 Safa Eroğlu
201626033 Kağan Baturalp Kara
201726053 Onur Ocak
201626401 Ömer Sayar

 

PROJECT 4 (Interdisciplinary Project)

Advisor:        Prof.Dr. İres İskender

Title:              HAVA TEMİZLEME SİSTEMİ TASARIMI VE İMALATI (Makine Mühendisliği ile müşterek proje)
Description:          İçinde bulunduğumuz Covid-19 pandemisi, solunum yoluyla bulaşan hastalıkların önlemesinde, iç ortam havasının virüslerden ve diğer zararlılardan temizlenmesinin önemli bir koruyucu yöntem olduğunu göstermiştir. Bu nedenle, salgına karşı hava temizleyici sistemlerin (dezenfeksiyon, sterilizasyon, filtresyon, vb.)  geliştirilmesine, üretilmesine ve kullanıma sunulmasına ihtiyaç artmıştır. Bu proje kapsamında iç ortam (hastane odası, ofis, vb.) havasının toz, virüs, bakteri, vb. zararlılardan temizlenmesinde kullanılacak taşınabilir bir hava temizleme cihazının tasarımının, prototip imalatının ve testinin yapılması planlanmaktadır. Proje kapsamında geliştirilecek olan cihazın virüsleri öldürme, nano boyuttaki partikülleri tutma, otomatik kontrol, sesiz çalışma gibi özelliklere sahip olması hedeflenmektedir. Kontrol sistemini filtre tıkanıklık ve kullanım süresi takibi ve UV-C lamba çalışma süresi takibi özelliklerine sahip olması beklenmektedir.

Students:

EEE Student (Contact directly with Prof.Dr.İres İskender)
ME Student1
ME Student2
ME Student3
ME Student4

 

PROJECT 5 

Advisor:        Dr. Oğuzhan Çifdalöz

Title:              Control, Navigation and Guidance of a Multi-Rotor Unmanned Air Vehicle
Description:            Autopilot design for a multi-rotor unmanned air vehicle. A mathematical model for the system will be developed. Four nested controllers will be designed for body angular rates, Euler angles, body linear velocities and earth positions. Results will be presented via an animation.

Students:
201626020 Mert Anıl DEMİRHAN
201626022 Mehmet Kaan DÖNMEZ
201626068 Şevval Bahar YAHŞİ
201626070 Aybike Nur YILMAZ

 

PROJECT 6 

Advisor:        Dr. Oğuzhan Çifdalöz
Title:              Sensor Fusion Algorithms in Inertial Navigation Applications
Description:            Sensors used for navigation algorithms will be modeled, along with their bias and noise characteristics. Sensors will be fused using different sensor/data fusion algorithms in order to obtain high precision measurements.

Students:
201626029 Berin Turçin GÜVEN
201626030 İlayda GÜVEN
201626065 Zehra Ceren TÜNAL
201726061 Ece PULAT

 

PROJECT 7 

Advisor:        Dr. Erdem Akagündüz

Title:              Intelligent Camera with Event Detection Capability
Description:In this project the student will build an intelligent camera system with a processor card that is capable of classifying a pre-defined category of events, such as “man enters”, “dog passes”, “people arrive”, etc.

Students:

201626044 Ataberk Özberk
201626015 Uğur Berk Çelik
201626047 Mustafa Kaan Özgün
201626028 Emre Gül
201626025 Haydar Burak

 

PROJECT 8

Advisor:        Dr. Erdem Akagündüz

Title:              Music Genre Classification Using Machine Learning
Description: In this project the students will prepare a system that is capable of automatically classifying the category of a given song provided in a digital format (such as MP3 or WAV).

Students:

201611007 Batuhan Bayraktar
201611021 Beril Erzurum
201826059 Merve Güllü Türkyılmaz
201711049 Zeynep Özdoğan
201626005 Melissa Aluç

 

PROJECT 9

Advisor:        Dr. Erdem Akagündüz

Title:              Chess Playing AI Interface
Description: In this project, the student will prepare an (preferably but not necessarily graphical) interface that is capable of playing chess with a human player. The AI interface is expected to obey the rules of the game, and play at least in an elementary level, capable of winning against a rookie player.

Students:

201626072 Berkay Enes Yiğit
201626046 Talha Özçığ
201626053 Muhammet Fatih Susuz
201626037 İsmail Alp Kemaneci
201726073 Zeki Fatih Turan

 

PROJECT 10

Advisor:        Dr. Tolga İNAN

Title:              Star referenced geographic position estimator
Description:  In this project, the student group will develop a star referenced geographic position estimator algorithm.

Using the positions of several stars within the image captured by a camera with known camera parameters, orientation (roll, pitch, heading) and the date&time information, the students are expected to:

  • Develop an algorithm that matches the stars in the image with the known ones listed in star catalogues
  • Estimate the position where the image captured as latitude and longitude coordinates, report the accuracy and the precision of the star referenced geographic position estimator.

 

The star referenced geographic position estimator algorithm having proven success will be part of the solutions offered by Innovita Engineering Technologies.

Students:

201626069 İbrahim Yavuz
201626054 Aslı Şahin
201626057 Ömer Arda Taşkıran
201626067 ÖmerHan Ünal
201626039 Yiğit Küçükbabuccu

 

PROJECT 11

Advisor:        Dr. Tolga İNAN

Title:              Sky polarization based digital compass
Description: In this project, the student group will develop a directional estimation algorithm using day-light images of the sky captured by several linearly polarized filters.  Using multiple images captured at the same time with different angled linearly polarized filters, with known camera parameters, orientation (roll, pitch, heading) and the date&time information, the students are expected to:

  • Develop an algorithm that merges multiple polarization filtered images to construct the sky polarization map
  • Estimate the zenith position and the true north direction on the constructed sky polarization map, report the accuracy and the precision of the developed digital compass.

 

The Sky polarization based digital compass algorithm having proven success will be part of the solutions offered by Innovita Engineering Technologies.

Students:

201626669 Bartu Selikoğlu
201626418 Barış Şahin
201526015 Ömer Fethi Caner
201426003 Ahmet Toprak Atılhan
201526401 Furkan Mert Tunçtürk

 

PROJECT 12

Advisor:        Dr. Tolga İNAN

Title:              Implementation and test of the cryptocurrency “BeeCoin” using blockchain technology
Description: The project group will implement and test the cryptocurrency  “BeeCoin” using one of the existing block-chain protocols. In this project, the students are expected to:

  • Make an extensive review on blockchain technology .
  • Implement BeeCoin using one of the existing block-chain protocols.
  • Test BeeCoin transfer between two computers. This transfer should be simultaneously monitored and registered by a third computer.

 

Students:

201526029 Mervan Mücahit Güler
201526044 Taha Mermer
201626051 Abdullah Pençe
201526048 Kamil Özkazanç
201526030 Fırat Gürbüz

 

PROJECT 13

Advisor:        Dr. Tolga İNAN

Title:              Facial Emotion Recognition
Description:  The project group will implement and test a facial emotion recognition algorithm.  In this project, the students are expected to:

  • make an extensive review on face emotion databases.
  • make an extensive review on facial emotion recognition algorithms
  • implement and test the facial emotion recognition algorithm.
  • report the performance of the facial emotion recognition algorithm.

 

Students:

201626035 Kutay Karademir
201626006 Beril Andaç
201626011 Mehmet Bartu Baysal
201526008 Mehmet Emre Baltacı
201726040 Cem Kutay Karaeminoğulları

 

PROJECT 14

Advisor:        Prof.Dr. İres İskender

Title:            Bidirectional Power Converter for Electric Vehicles
Description:           In this Project, the design and evaluation of different DC-DC converter topologies for Battery Electric Vehicles (BEVs) and Plug-in Hybrid Electric Vehicles (PHEVs) will be reviewed. The design and evaluation of these converter topologies will be analyzed and compared in terms of output power, component count, switching frequency, electromagnetic interference (EMI), losses, effectiveness, reliability and cost.

Students:

201626055 Elif Duygu Şengök
201626052 Baran Savaş
201626043 Baran Alp Öz
201626071 Beste Meltem Yılmaz
201626036 Muhammed Enes Karakoç

 

PROJECT 15

Advisor:        Prof.Dr. Hüseyin Selçuk Geçim – Ahmad Salmanogli

Title:            Design and modeling Interdigitated Capacitor- Spiral Inductor
for Optical Pressure sensor

Description:           In this project, we want to design an optical pressure sensor to sense a force on the scale of (pNnN). For this, we design and model an interdigitated capacitor connecting to a spiral inductor to oscillate in
GHz region. To sense a very low intensity optical pressure, some different materials such as membrane can
be used as a dielectric material between the layers of interdigitated capacitor. Thus, by applying the force,
the circuit’s capacitance is changed due to the displacement of membrane; this leads to change of the
inductor-capacitor frequency. That is the method by which we want to sense the very low scale optical
pressure.

Students:

201626049 Metehan Öztürk
201626019 Mert Demirel
201726023 Gizem Duyguluer

 

PROJECT 16

Advisor:        Prof.Dr. Hüseyin Selçuk Geçim – Ahmad Salmanogli

Title:            Design and modeling of very Narrow Band-stop (or Band-pass)
RF filter for Optical Pressure sensor

Description:           In this project, we want to design an optical pressure sensor to sense a force on the scale of (pNnN). For this, we will design and model a very narrow RF band-stop filter (or band-pass) to detect the
optical pressure force. The center frequency of filter can be fix around fc = 2.5 GHz with bandwidth ~(0.1-
0.3)fc.
Thus, by applying an external force, the circuit’s characteristic such as the center frequency is changed.
That is the method by which we want to sense a very low scale optical pressure.

Students:

201726038 Türkan Simge İşpak
201626013 Sevil Ceylan
201626010 Gonca Başaraner