Mir Arman Mirzaaghaian Amiry | Human Lungs Health | Best Researcher Award

Published on by Computer Vision Awards

Mr. Mir Arman Mirzaaghaian Amiry | Human Lungs Health | Best Researcher Award

Researcher | Western Sydney University | Australia

Mr. Mir Arman Mirzaaghaian Amiry is a dedicated researcher in mechanical engineering with expertise in computational modeling, 3D design, medical device development, and biomedical applications. He is pursuing a PhD in Mechanical Engineering at Western Sydney University with a thesis focused on computational simulation of particle transport and deposition in a 3D human lung model. He also holds a master’s degree in mechanical engineering from Babol Noshirvani University of Technology and a bachelor’s degree from Mazandaran University of Science and Technology. His professional experience includes serving as a tutor, lab demonstrator, and technical officer at Western Sydney University, as well as contributing to an internship at Metabolic Health Solutions where he designed and prototyped an innovative breath-by-breath calorimeter leading to a patent on a metabolic measurement system with sensors, machine learning, and digital health integration. He has also been a STEM student ambassador mentoring high school students. His research interests include computational fluid dynamics, biomedical device design, medical device regulatory affairs, and additive manufacturing. Among his awards and honors are the Australian Government postgraduate research scholarship, excellence in reviewing recognition from the Thermal and Fluids Engineering Conference, and high academic ranking during his master’s studies. He has earned professional certifications in Lean Six Sigma, ISO 13485 for medical devices, and AI in project management. His research skills span SOLIDWORKS, Ansys Fluent, COMSOL Multiphysics, 3D printing, data analysis, and regulatory management, complemented by strong teamwork, communication, and project leadership abilities. Citations 90 and h-index 3.

Profiles: Google ScholarORCID | LinkedInResearchGate 

Featured Publications

  1. Mirzaaghaian, A., & Ganji, D. D. (2016). Application of differential transformation method in micropolar fluid flow and heat transfer through permeable walls. Alexandria Engineering Journal, 55(3), 2183–2191.

  2. Mirzaaghaian, A., Ramiar, A., Ranjbar, A. A., & Warkiani, M. E. (2020). Application of level-set method in simulation of normal and cancer cells deformability within a microfluidic device. Journal of Biomechanics, 112, 110066.

  3. Mirzaaghaian, A., Zhao, M., Rahman, M. M., & Dong, K. (2024). Numerical simulation of targeted drug delivery to different regions of realistic human lung model under realistic aerosol breathing condition. Powder Technology, 444, 120039.

  4. Mirzaaghaian, A., Zhao, M., & Dong, K. (2025). Patient-specific release of the aerosols from the spacer and its effect on the drug delivery to the human lungs. ASTFE Digital Library.

  5. Cebis, M. J. P., Smith, T. L., Waheed, M., Amiry, M. A. M., & Lian, Y. S. J. J. (2024). Metabolic measurement system with sensors, machine learning, and digital health database. Australian Patent Application No. 2024900118.