Ebrahim Oromiehie | Prototyping | Best Researcher Award

Dr. Ebrahim Oromiehie | Prototyping | Best Researcher Award

Doctorate at University of New South Wales Sydney, Australia

Dr. Ebrahim Oromiehie is a Postdoctoral Research Fellow at the University of New South Wales (UNSW) Sydney. With a career spanning over a decade in mechanical and manufacturing engineering, his expertise includes advanced composite materials, automated fibre placement (AFP), and structural health monitoring. His work is characterized by a commitment to both research and education, aiming to push the boundaries of material science and manufacturing technologies

 

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Dr. Oromiehie has published extensively in peer-reviewed journals, contributing significantly to the fields of composite materials and manufacturing. His research has been well-received, with notable citations and contributions to high-impact journals. His academic performance and contributions reflect his dedication to advancing knowledge in his field.

Education

Dr. Oromiehie earned his Ph.D. in Mechanical & Manufacturing Engineering from UNSW Sydney in 2017, focusing on in-situ process monitoring in automated fibre placement using optical fibre sensors. He completed his M.Sc. in Manufacturing Engineering & Management at UNSW Sydney in 2013 and his B.Sc. in Mechanical Engineering (Solid Design) from IAU-Tehran in 2005.

Research Focus

Dr. Oromiehie’s research centers on in-situ structural health monitoring (SHM) of advanced composites, mechanical characterization of composites, and the development of machine learning-based predictive models for AFP composites. His work aims to improve the performance and reliability of composite materials used in various applications.

Professional Journey

Beginning his career as a Mechanical Designer, Dr. Oromiehie has held various roles including Technical Officer, Senior Technical Officer, and Postdoctoral Research Fellow at UNSW Sydney. His responsibilities have included developing educational programs, conducting parametric experiments, and managing advanced composite fabrication processes. His career trajectory highlights a consistent advancement in technical expertise and leadership roles.

Honors & Awards

Dr. Oromiehie has received several accolades, including the 2019 JEC Asia Innovation Award for his work on a shape-adaptive hydrofoil. He has also been recognized with the Australian Postgraduate Award (APA) in 2014, and received a scholarship for professional placement at 3M Australia. His promotion to Senior Technical Officer and subsequently to Postdoctoral Research Fellow reflects his exceptional performance and contributions.

Research Timeline

Dr. Oromiehie’s research career began in 2014 with his Ph.D. studies at UNSW Sydney, focusing on automated fibre placement. Following his doctoral studies, he worked in various technical and research roles, culminating in his current position as a Postdoctoral Research Fellow. His research has evolved from practical applications in manufacturing to advanced theoretical and experimental studies.

Collaborations and Projects

Dr. Oromiehie has collaborated on several high-impact projects, including the development of machine learning predictive tools for AFP composites and structural health monitoring systems. His work with national and international researchers, including collaborations with industry partners like 3M Australia and academic institutions, highlights his ability to integrate and advance research across different domains.

 

Publications

Strength for the Best Researcher Award

    1. Expertise in Advanced Composites: Dr. Oromiehie’s research has significantly advanced the understanding and application of advanced composite materials, particularly in the context of automated fibre placement (AFP). His work in this area addresses both practical and theoretical aspects of composite fabrication and performance.
    2. Innovative Research Contributions: His innovative research, such as the development of machine learning-based predictive models for AFP composites and in-situ structural health monitoring using optical fibre sensors, demonstrates a commitment to pushing the boundaries of current technologies and methodologies.
    3. Recognition and Awards: Dr. Oromiehie has received notable awards, including the 2019 JEC Asia Innovation Award for his work on a shape-adaptive hydrofoil, reflecting his significant contributions to the field and recognition by the international community.
    4. High-Impact Publications: His publications in high-impact journals like Composite Structures and IEEE Transactions on Industrial Informatics highlight the substantial influence and relevance of his research in the field of composite materials and manufacturing.
    5. Extensive Collaboration and Industry Engagement: Dr. Oromiehie’s successful collaborations with both national and international researchers and industry partners, including 3M Australia, underscore his ability to integrate research with practical applications and industry needs.

    Areas for Improvement

    1. Diversification of Research Topics: While Dr. Oromiehie’s work is highly specialized in AFP and composite materials, exploring additional areas within mechanical engineering or related fields could broaden his research impact and opportunities for interdisciplinary collaboration.
    2. Increased Public Engagement: Expanding efforts in public engagement and dissemination of research findings could enhance the visibility and societal impact of his work. This might include more outreach activities, media appearances, or public lectures.
    3. Grant Acquisition and Funding: Although he has been involved in successful grant proposals, seeking a broader range of funding opportunities and grants could further support and expand his research projects.
    4. Development of Educational Resources: There is potential for further development of educational resources and programs in composite materials and manufacturing, which could benefit both students and industry professionals and enhance his teaching portfolio.
    5. Expanded Professional Network: Building a more extensive professional network, including collaborations with researchers in emerging technologies and industries, could offer new perspectives and opportunities for innovative research directions.

    Conclusion

    Dr. Ebrahim Oromiehie is a distinguished researcher and educator with a strong track record in mechanical and manufacturing engineering. His expertise in advanced composite materials, particularly through automated fibre placement and structural health monitoring, has earned him recognition and awards in his field. His contributions to high-impact publications and successful collaborations with industry and academia highlight his significant impact on the field. To further enhance his career, focusing on diversifying research topics, increasing public engagement, seeking additional funding, developing educational resources, and expanding his professional network could offer valuable opportunities for growth and innovation.

Dr. ERKHEMBAATAR DASHDAVAA | Design of prototype Award | Best Researcher Award

Dr. ERKHEMBAATAR DASHDAVAA | Design of prototype Award | Best Researcher Award

Dr. ERKHEMBAATAR DASHDAVAA , Chungbuk National University , South Korea

Erkhembaatar Dashdavaa is a dedicated researcher specializing in Optical Information Processing and Holographic Display technologies. He completed his Ph.D. under the supervision of Professor Nam Kim at Chungbuk National University, South Korea, focusing on “Augmented-Reality Optical See-Through Holographic Near-Eye Display based on Holographically Printed Optical Element.” His interdisciplinary research spans fields such as holographic display, holographic printing, 3D display technologies, image processing techniques, and optical system design. Erkhembaatar holds a Doctor of Engineering degree with an outstanding CGPA of 4.21 out of 4.5, complemented by a Master of Science in Engineering from the same institution. He began his academic journey with a Bachelor of Engineering in Electronics Engineering from the National University of Mongolia.

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Research Interests:

Erkhembaatar’s expertise includes digital holography, holographic printers, AR/VR display technologies, and optical system design.

Educational Background:

  • Ph.D. in Information and Communication Engineering
    • Chungbuk National University, South Korea, 2024
  • M.Sc. in Information and Communication Engineering
    • Chungbuk National University, South Korea, 2016
  • B.Eng. in Electronics Engineering
    • National University of Mongolia, Mongolia, 2014

Research Experiences:

Erkhembaatar served as a Research Assistant at the Optical Information Processing (OIP) Laboratory at Chungbuk National University, contributing to advancements in optical technologies and image processing methodologies.

Skills:

His technical skills include proficiency in MATLAB, Python, C/C++, Visual C Sharp (.Net), LABVIEW, Blender, AutoCAD, SolidWorks, CAD/CAM, and image processing tools like OpenCV and CUDA.

Awards:

Erkhembaatar has been recognized with prestigious awards, including the Best Paper Award at the Global 3D Tech Forum 2016 Symposium and the 29th Optoelectronics and Optical Communications Conference for his contributions to digital off-axis holography and quality improvement in real object-based holographic displays.

Publications Top Notes 📄

Efficient hogel-based hologram synthesis method for holographic stereogram printing

 Citation -15

Simplified digital content generation based on an inverse-directed propagation algorithm for holographic stereogram printing

 Citation -12

Inverse-Directed Propagation-Based Hexagonal Hogel Sampling for Holographic Stereogram Printing System

Citation -2

Real object-based holographic stereogram printing system using a high-resolution one-dimensional moving camera array

 Holographic optical element (HOE) recording technique for see-through AR-NED display using holographic printing