Thermo-Fluid
Research Group Members
- Prof. Dr. Hojin Ahn (Erdem An)
- Assoc. Prof. Ali Bahadır Olcay
Thesis Students
- Murat Kahraman (PhD) - Works at Tübitak MAM.
- Ahmet Çağrı Develi (PhD) - Works at GE Aviation company.
- Ahmet Refik Özdemir (PhD) - Works at Arçelik company.
- Sevil İncir (PhD) - Works at Arçelik company.
- Işıl Hergenç - (PhD) - Works at Arçelik company.
- Nihan Uçar (PhD) - Works at Alarko company.
- Ergin Bayrak (PhD) - Works at Alanya Alaaddin Keykubat University.
- Hasan Kalkan (PhD) - Works at Yeditepe University as research assistant.
- Sungur Kaan Gökbulak (MSc) - Works at GE Aviation company.
- Emre Can Dokuyucu (MSc) - Works at Yeditepe University as MSc. scholar.
- Metin Mehel (MSc) - Works at TEI company.
- Görkem Güçlü (MSc) - Works at Tübitak project as research scholar.
- Onur Mutlu (Msc) - Works at Tübitak project as research scholar.
- Oğuzhan Gökkaya (MSc) - Works at Yeditepe University as MSc. scholar.
- Batuhan Topçu (MSc) - Works at ISELKO Heating Cooling Ind. Ltd. Co.
- Burhan Gül (MSc) - Works at İstanbul Metropolitan Municipality / Istanbul Computing and Smart City Technologies Inc.
- Egemen Onan (MSc)
Projects
- Modeling of Internal Carotid Artery Aneurysms with Computational Fluid Dynamics Using Cerebral Angiographic Image Data Before and After Treatment
- The Effect of Heat Exchanger Blade Geometries on Thermal and Hydraulic Performance
- Development of Precision Computational Diagnostic Techniques for Aortic Heart Valve Defects
- Mechanical Fish Learning to Swim from squid
Biomechanics
Research Group Members
- Prof. Mehmet Akgün
- Asst. Prof. Namık Çıplak
- Asst. Prof. Fethi Okyar
- Assoc. Prof. Bahadır Olcay
- Assoc. Prof. Koray Şafak
Thesis Students
- Volkan Karadağ (PhD)
- Oğulcan Güldeniz (MSc)
Projects
- Finite Element Analysis of the Lumbar Spinal Column
- Research on Fiber Reinforced Viscoelastic Composites
- Determining the Physical Boundaries of Tendon/Ligament Areas on Contractile Media by Optimization
- Parametric CAD Modeling of the Lumbar Spinal Column
- Parametrik Omurga Modelleme Platformu
Publications
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Abstract: For those studying the biomechanical response of the lumbar spine, anatomical meshes obtained from medical imaging data is quite important. However, such models are generally fixed and can only represent a single subject’s geometry. The objective of this study was to improve our previous lumbar vertebral CAD model such that the parameters are now extracted from the CT scan using a semi-automatic procedure. To illustrate the procedure, first, the transverse cross-sections of vertebral bodies were obtained from an individual at three levels, superior, middle and inferior. Parametric contour curves were fitted onto the vertebral body boundaries using an optimization procedure and the fitting errors are reported here. Five lumbar vertebral bodies were then formed using the lofting operation. Hausdorff distance between the CAD and segmentation models was used to assess the accuracy of the resulting models. The means and standard deviations of Hausdorff distances are also reported here. The adopted optimization process was observed to be resulting coefficient of determination values as high as 0.978. Our new model is expected to lead to dramatic reductions in both time and effort required to build a patient-specific biomechanical model.
Keywords: Parametric model Segmentation Patient specific Lumbar spine Vertebral parameters Spinal curve Medical image processing
Mechatronics
Research Group Members
- Asst. Prof. Koray K. Şafak
- Asst. Prof. Namık Çıplak
- Asst Prof. Onur Cem Namlı
- Assoc. Prof. Nezih Topaloğlu
Thesis Students
- Can Polay Çıgay (PhD)
- Cevat Volkan Karadağ (PhD)
Projects
- Gait Analysis
- Development of an Indoor Navigation Application/Device
- Literature Survey on Legged Robotics