About Me

Dr. Subin P George
Assistant Professor, School of Mechanical Engineering
SASTRA Deemed University, India

I am a researcher and educator specializing in computational biomechanics, finite element modeling, and assistive technology design. My work focuses on developing morphological finite element models of the human spine to better understand biomechanical behavior and support clinical decision-making.

I completed my PhD at the Indian Institute of Technology Madras, where I developed a hexahedral lumbosacral spine model integrating anatomical accuracy with computational efficiency. My research combines nonlinear finite element analysis, statistical modeling, and machine learning techniques to predict biomechanical responses under physiological loading conditions.

🔹 Research Interests

• Finite Element Analysis in Biomechanics
  
  

• Spine Biomechanics and Orthopedic Modeling
  
  

• Patient-Specific Modeling and Simulation
  
  

• Assistive Device Design
  
  

• Computational Mechanics and Optimization
  
  

🔹 Key Contributions

• Developed a validated morphological lumbar spine FE model for fusion studies
  
  

• Conducted sensitivity analysis of anthropometric parameters on spinal mechanics
  
  

• Designed and prototyped a robotic sit-to-stand device for paraplegic patients
  
  

• Worked on custom femoral implants using patient-specific optimization techniques
  
  

🔹 Experience Highlights

• Assistant Professor, SASTRA University (2025–Present)
  
  

• Visiting Doctoral Scholar, Chalmers University of Technology, Sweden
  
  

• Research & Startup Experience at IIT Madras
  
  

• Former Assistant Professor with funded R&D and teaching experience
  
  

🔹 Publications & Impact

My research has been published in leading journals such as:

• Journal of Biomechanical Engineering
  
  

• Medical & Biological Engineering & Computing
  
  

• Medical Engineering & Physics
  
  

I have also presented my work at international conferences in biomechanics and spine research, contributing to both academic and clinical communities.

🔹 Vision

My goal is to bridge the gap between engineering and clinical practice by developing computational tools and assistive technologies that improve patient outcomes and enable personalized healthcare solutions.