Assistant Prof. Dr. Gülşah Demirhan Aydın is a distinguished academic in the fields of Micro Electro Mechanical Systems (MEMS), mechatronics, and wafer level packaging. Currently, she serves as an Assistant Professor in the Engineering Faculty at Başkent University and as a Part-Time Instructor at Atılım University. Her extensive expertise and research contributions are underscored by a robust academic background and a significant track record of scientific research and publication.
Author Metrics
ORCID Profile
Dr. Aydın’s publications include notable journal articles and conference papers in her areas of specialization. Her work has been widely cited, reflecting her significant impact on the field of MEMS and related technologies. Her most recent journal articles have been published in reputable scientific journals, such as Micromachines and Adv. Mater. Lett., showcasing her contributions to advancing wafer level vacuum packaging and resonance-based temperature sensors.
Education
Dr. Aydın’s academic journey began with a Bachelor’s degree in Mechatronics Engineering from Atılım University and a second Bachelor’s degree in Business Administration from Anadolu University. She then pursued her Master’s and Ph.D. degrees at Middle East Technical University, where she specialized in Micro and Nanotechnology. Her doctoral thesis focused on wafer level vacuum packaging technologies for MEMS-based thermal sensors, demonstrating her deep expertise in microfabrication and sensor technology.
Research Focus
Dr. Aydın’s research primarily revolves around MEMS technology, wafer level packaging, and microbolometers. Her work explores innovative methods for sensor encapsulation and integration, contributing to advancements in infrared detection and control systems. Her interests also extend to mechatronic systems, inertial measurement units (IMUs), and the characterization of MEMS-based sensors.
Professional Journey
Dr. Aydın’s professional career encompasses roles as a Senior Researcher at METU MEMS Center, a Visiting Researcher at the Institute of Microelectronics of Barcelona, and her current positions as Assistant Professor at Başkent University and Part-Time Instructor at Atılım University. Her career trajectory reflects a blend of academic teaching, cutting-edge research, and active participation in international scientific communities.
Honors & Awards
Dr. Aydın’s contributions to science and engineering have been recognized through her involvement in high-impact research projects and her publication in leading journals and conferences. Her research achievements and the successful completion of several significant projects underscore her role as a leading expert in her field.
Publications Noted & Contributions
Dr. Aydın’s notable publications include her work on wafer level vacuum packaging for MEMS-based infrared sensors and resonance-based temperature sensors. Her contributions are published in high-impact journals and presented at international conferences, reflecting her role in advancing MEMS technology and sensor systems.
Research Timeline
Dr. Aydın’s research career is marked by a progression from her early work in MEMS and mechatronics to advanced projects in wafer level packaging and sensor development. Her research timeline includes significant projects such as the development of infrared detectors and MEMS-based gyroscopes, showcasing her continuous contributions to the field.
Collaborations and Projects
Dr. Aydın has been involved in various collaborative projects, including the LADES project with ROKETSAN and the OrChESTRA Horizon-WIDERA project. Her work on these projects highlights her ability to engage in complex research partnerships and contribute to the development of innovative technologies in MEMS and related fields.
Wafer Level Vacuum Packaging of MEMS-Based Uncooled Infrared Sensors
- Journal: Micromachines
- Publication Date: July 2024
- DOI: 10.3390/mi15080935
- Contributors: Gülşah Demirhan Aydın, Orhan Sevket Akar, Tayfun Akin
- Summary: This paper presents advancements in wafer level vacuum packaging specifically designed for MEMS-based uncooled infrared sensors. The study explores new methodologies to enhance the performance and cost-efficiency of infrared sensors by optimizing the packaging process. The results demonstrate significant improvements in sensor reliability and performance, making this approach a notable contribution to the field of MEMS technology.
A New Approach for Addressing Slip Ratio Optimization and Trajectory Tracking Challenges in Autonomous Tractor Operations
- Conference: 2024 32nd Signal Processing and Communications Applications Conference (SIU)
- Publication Date: May 15, 2024
- DOI: 10.1109/siu61531.2024.10600918
- Contributors: Gülşah Demirhan Aydın, Ali Bahadır Aydemir, Mohamad Thaer Kansou, Kemal Orçun Altınuç
- Summary: This conference paper introduces a novel approach to address challenges in slip ratio optimization and trajectory tracking for autonomous tractors. The research focuses on improving the operational efficiency and accuracy of autonomous systems in agricultural settings. The proposed methods offer solutions to common issues in autonomous vehicle control, contributing valuable insights to the field of robotics and autonomous systems.
Lyapunov-based Controller Design for Precise Monitoring, Speed Control and Trajectory Planning in Autonomous Tractors with Trailers
- Conference: 2024 32nd Signal Processing and Communications Applications Conference (SIU)
- Publication Date: May 15, 2024
- DOI: 10.1109/siu61531.2024.10600765
- Contributors: Gülşah Demirhan Aydın, Deren Doğan, Yusuf Tuğberk Türken
- Summary: This poster presents a Lyapunov-based controller design aimed at enhancing the precision of monitoring, speed control, and trajectory planning in autonomous tractors with trailers. The research provides a detailed analysis of control strategies that improve the performance and stability of autonomous tractor systems, showcasing advancements in control theory and practical applications in agricultural automation.
Infrared Detection Technologies in Smart Agriculture: A Review
- Journal: Conference paper
- Publication Date: 2023
- DOI: 10.1109/ACEMP-OPTIM57845.2023.10287033
- WOSUID: INSPEC:24060898
- Summary: This review article discusses the application of infrared detection technologies in smart agriculture. It covers various infrared sensing technologies and their impact on modern agricultural practices, including precision farming and environmental monitoring. The review highlights current advancements and future trends in the integration of infrared detection in agricultural technologies.
Resonance-Based Temperature Sensors using a Wafer Level Vacuum Packaged SOI MEMS Process
- Journal: Advanced Materials Letters
- Publication Date: January 2020
- DOI: 10.5185/AMLETT.2020.011462
- Contributors: Gülşah Demirhan Aydın
- Summary: This journal article explores the development of resonance-based temperature sensors using a wafer level vacuum packaged Silicon-On-Insulator (SOI) MEMS process. The study demonstrates how this packaging technique enhances the performance and reliability of temperature sensors, providing a detailed account of the fabrication process and the performance metrics achieved.