Kevin Swamy

Undergraduate Student Researcher at The Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory University
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Contact Information
us****@****om
(386) 825-5501
Location
Orlando, Florida, United States, US
Languages
  • English Native or bilingual proficiency
  • Hindi Native or bilingual proficiency
  • Spanish Limited working proficiency
  • French Limited working proficiency

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Credentials

  • Certified SolidWorks Professional (CSWP)
    Dassault Systèmes
    Aug, 2022
    - Oct, 2024
  • Certified SolidWorks Associate (CSWA)
    Dassault Systèmes
    Jul, 2022
    - Oct, 2024
  • The International Baccalaureate Diploma
    International Baccalaureate
    Jun, 2020
    - Oct, 2024
  • CITI Health Information Privacy and Security (HIPS) for Biomedical Research Investigators
    CITI Program
    May, 2021
    - Oct, 2024

Experience

  • The Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory University
    • United States
    • Biotechnology Research
    • 100 - 200 Employee
    • Undergraduate Student Researcher
      • Jun 2021 - Present

      - Currently researching with postdoctoral and graduate researchers at the Cardiovascular Fluid Mechanics Lab to build, validate, and operate computational 3D simulations of heart valves and cardiac structures from patient-specific CT data. - Implementing ML and image registration algorithms to predict and prevent coronary obstruction after surgical procedures such as Transcatheter Aortic Valve Replacement (TAVR). - Reduced algorithm computational time by 30% and reduced algorithm error by… Show more - Currently researching with postdoctoral and graduate researchers at the Cardiovascular Fluid Mechanics Lab to build, validate, and operate computational 3D simulations of heart valves and cardiac structures from patient-specific CT data. - Implementing ML and image registration algorithms to predict and prevent coronary obstruction after surgical procedures such as Transcatheter Aortic Valve Replacement (TAVR). - Reduced algorithm computational time by 30% and reduced algorithm error by 60% by implementing a B Spline interpolation model. - Developed/tested an application in Python for advanced TAVR-in-TAVR surgical planning for physicians - Published research in the ‘Annals of Biomedical Engineering’ journal and received the President’s Undergraduate Research Award to conduct further research into computational solutions for TAVR surgery Show less - Currently researching with postdoctoral and graduate researchers at the Cardiovascular Fluid Mechanics Lab to build, validate, and operate computational 3D simulations of heart valves and cardiac structures from patient-specific CT data. - Implementing ML and image registration algorithms to predict and prevent coronary obstruction after surgical procedures such as Transcatheter Aortic Valve Replacement (TAVR). - Reduced algorithm computational time by 30% and reduced algorithm error by… Show more - Currently researching with postdoctoral and graduate researchers at the Cardiovascular Fluid Mechanics Lab to build, validate, and operate computational 3D simulations of heart valves and cardiac structures from patient-specific CT data. - Implementing ML and image registration algorithms to predict and prevent coronary obstruction after surgical procedures such as Transcatheter Aortic Valve Replacement (TAVR). - Reduced algorithm computational time by 30% and reduced algorithm error by 60% by implementing a B Spline interpolation model. - Developed/tested an application in Python for advanced TAVR-in-TAVR surgical planning for physicians - Published research in the ‘Annals of Biomedical Engineering’ journal and received the President’s Undergraduate Research Award to conduct further research into computational solutions for TAVR surgery Show less

  • Ethicon, Inc.
    • United States
    • Medical Equipment Manufacturing
    • 700 & Above Employee
    • R&D Design Engineer
      • Jan 2023 - Apr 2023

      - Optimized Firing Breadboard to compare MIMed vs Machined parts for a state-of-the-art surgical endocutter in development - Leveraged microscopes and profilometers to perform root cause analysis to evaluate device failure modes - Used Load Frame with a progressive load approach to identify part failure and eliminate device stalling - Programmed in Python (Pandas) to post-process Load Frame data and identify key failure metrics - Conducted cost-benefit analysis to reduce resources used in… Show more - Optimized Firing Breadboard to compare MIMed vs Machined parts for a state-of-the-art surgical endocutter in development - Leveraged microscopes and profilometers to perform root cause analysis to evaluate device failure modes - Used Load Frame with a progressive load approach to identify part failure and eliminate device stalling - Programmed in Python (Pandas) to post-process Load Frame data and identify key failure metrics - Conducted cost-benefit analysis to reduce resources used in optimizing testing fixture. Designed fixture in SolidWorks and used FEA to evaluate structural/stress analysis - Led Intern Technical Committee in facilitating courses on SolidWorks, Python, FEA, Plastics, 6 Sigma Method, and Biocompatibility for 60 interns Show less - Optimized Firing Breadboard to compare MIMed vs Machined parts for a state-of-the-art surgical endocutter in development - Leveraged microscopes and profilometers to perform root cause analysis to evaluate device failure modes - Used Load Frame with a progressive load approach to identify part failure and eliminate device stalling - Programmed in Python (Pandas) to post-process Load Frame data and identify key failure metrics - Conducted cost-benefit analysis to reduce resources used in… Show more - Optimized Firing Breadboard to compare MIMed vs Machined parts for a state-of-the-art surgical endocutter in development - Leveraged microscopes and profilometers to perform root cause analysis to evaluate device failure modes - Used Load Frame with a progressive load approach to identify part failure and eliminate device stalling - Programmed in Python (Pandas) to post-process Load Frame data and identify key failure metrics - Conducted cost-benefit analysis to reduce resources used in optimizing testing fixture. Designed fixture in SolidWorks and used FEA to evaluate structural/stress analysis - Led Intern Technical Committee in facilitating courses on SolidWorks, Python, FEA, Plastics, 6 Sigma Method, and Biocompatibility for 60 interns Show less

  • Zensar Technologies
    • India
    • IT Services and IT Consulting
    • 700 & Above Employee
    • AI/ML Intern
      • Jun 2021 - Aug 2021

      - Acquired skills in Computer Vision, Feature Detection, OpenCV, Deep Learning, Machine Learning, and AI through projects and real-world applications - Worked with ZenLabs technical specialists and researchers to learn/develop modern AI/ML solutions - Built Computer Vision algorithms to help biotech companies distinguish between specific lab hardware - Acquired skills in Computer Vision, Feature Detection, OpenCV, Deep Learning, Machine Learning, and AI through projects and real-world applications - Worked with ZenLabs technical specialists and researchers to learn/develop modern AI/ML solutions - Built Computer Vision algorithms to help biotech companies distinguish between specific lab hardware

Education

  • Georgia Institute of Technology
    Bachelor of Science - BS, Biomedical/Medical Engineering
    2020 - 2024
  • CHS
    High School Diploma
    2016 - 2020

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