Mühendislik ve Doğa Bilimleri Fakültesi

Mühendislik ve Doğa Bilimleri Fakültesi

Akademik Kadro

Dr. Öğr. Üyesi İbrahim Furkan İnce

Dr. Öğr. Üyesi
İbrahim Furkan İnce

Bilgisayar Bilimleri ve Mühendisliği

İbrahim Furkan İnce, 2010 yılında Güney Kore, Busan, Kyungsung Üniversitesi, Dijital Tasarım Lisansüstü Okulu'ndan Bilişim Teknolojileri (BT) Tasarımı alanında doktora derecesini aldı. Doktora sonrası araştırma için 2010-2012 yılları arasında Japonya, Tokyo Üniversitesi'nde bulundu. Mayıs 2012-Mayıs 2014 tarihleri arasında Güney Kore, Busan'daki Hanwul Multimedia Communication (HMC) Co., Ltd. şirketinde Baş Araştırma Mühendisi olarak çalıştı. Hanwul Multimedia Communication (HMC) Co., Ltd. şirketinde çalıştıktan sonra, 2014 ile 2024 tarihleri arasında Türkiye ve Güney Kore'de birçok üniversitede araştırmacı ve doktor öğretim üyesi olarak görev aldı. Şu anda İstinye Üniversitesi'nde Yazılım Mühendisliği alanında Doktor Öğretim Üyesi olarak çalışmaktadır. Araştırma ilgi alanları arasında görüntü işleme, bilgisayarlı görme, örüntü tanıma ve insan-bilgisayar etkileşimi yer almaktadır.

Araştırma Alanları

  • Yapay Zeka
  • Görüntü İşleme
  • İnsan Bilgisayar Etkileşimi

Çalışma Alanları

  • Mühendislik Temel Alanı
  • Bilgisayar Bilimleri ve Mühendisliği
  • Görüntü İşleme
  • Yapay Zeka
  • İnsan-Bilgisayar Etkileşimi
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Enhancement of Eye Socket Recognition Performance using Inverse Histogram Fusion Images and the Gabor Transform, 2024
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • Designing CAPTCHA Algorithm: Splitting and Rotating the Images against OCRs, 2008
  • ADVANCES IN MACHINERY AND DIGITIZATION, ISBN: 978-625-8061-11-6, 2021
  • ADVANCES IN MACHINERY AND DIGITIZATION, ISBN: 978-625-8061-11-6, 2021
  • ADVANCES IN MACHINERY AND DIGITIZATION, ISBN: 978-625-8061-11-6, 2021