Experience

UMiami College of Engineering

• United States
• Higher Education
• 1 - 100 Employee

• Augmented Reality Software Developer

  • Jul 2021 - Dec 2022

  • Perform an integration of AR technology into 4 modules of Statics coursework which generated a 50% improvement in students' cognitive and affective domains • Engineered an AR application for UHealth using Oculus Quest 1, which generated 70% reduction in learning time for medical students • Effectively collaborate with the development team using Agile methodology to analyze, plan, design, and prototype mixed reality applications, increasing efficiency and reducing project turnaround time… Show more • Perform an integration of AR technology into 4 modules of Statics coursework which generated a 50% improvement in students' cognitive and affective domains • Engineered an AR application for UHealth using Oculus Quest 1, which generated 70% reduction in learning time for medical students • Effectively collaborate with the development team using Agile methodology to analyze, plan, design, and prototype mixed reality applications, increasing efficiency and reducing project turnaround time by 30% Show less • Perform an integration of AR technology into 4 modules of Statics coursework which generated a 50% improvement in students' cognitive and affective domains • Engineered an AR application for UHealth using Oculus Quest 1, which generated 70% reduction in learning time for medical students • Effectively collaborate with the development team using Agile methodology to analyze, plan, design, and prototype mixed reality applications, increasing efficiency and reducing project turnaround time… Show more • Perform an integration of AR technology into 4 modules of Statics coursework which generated a 50% improvement in students' cognitive and affective domains • Engineered an AR application for UHealth using Oculus Quest 1, which generated 70% reduction in learning time for medical students • Effectively collaborate with the development team using Agile methodology to analyze, plan, design, and prototype mixed reality applications, increasing efficiency and reducing project turnaround time by 30% Show less



University of Miami - Engineering Research

• Miami, Florida, United States

• Additive Manufacturing Engineer

  • Jul 2022 - Nov 2022

  • Performed material characterization of Titanium Carbide alloy using different methods, including LECO, XRD, SEM, and Vicker's hardness testing. • Prepared the metal alloy before placing it into the Scanning Electron Microscope (SEM) to maximize the image quality. • Identified and analyzed the microstructure of the alloy's surface in order to determine its influence on the physical characteristics of the metal. • Developed a phase analysis of the Bulk and Laser Melted material using… Show more • Performed material characterization of Titanium Carbide alloy using different methods, including LECO, XRD, SEM, and Vicker's hardness testing. • Prepared the metal alloy before placing it into the Scanning Electron Microscope (SEM) to maximize the image quality. • Identified and analyzed the microstructure of the alloy's surface in order to determine its influence on the physical characteristics of the metal. • Developed a phase analysis of the Bulk and Laser Melted material using MATLAB to better visualize its crystal structure. • Prepared a comprehensive technical report using LaTeX software, summarizing the results obtained from the different tests performed. Show less • Performed material characterization of Titanium Carbide alloy using different methods, including LECO, XRD, SEM, and Vicker's hardness testing. • Prepared the metal alloy before placing it into the Scanning Electron Microscope (SEM) to maximize the image quality. • Identified and analyzed the microstructure of the alloy's surface in order to determine its influence on the physical characteristics of the metal. • Developed a phase analysis of the Bulk and Laser Melted material using… Show more • Performed material characterization of Titanium Carbide alloy using different methods, including LECO, XRD, SEM, and Vicker's hardness testing. • Prepared the metal alloy before placing it into the Scanning Electron Microscope (SEM) to maximize the image quality. • Identified and analyzed the microstructure of the alloy's surface in order to determine its influence on the physical characteristics of the metal. • Developed a phase analysis of the Bulk and Laser Melted material using MATLAB to better visualize its crystal structure. • Prepared a comprehensive technical report using LaTeX software, summarizing the results obtained from the different tests performed. Show less



University of Miami

• United States
• Higher Education
• 700 & Above Employee

• Aerodynamics & Design Engineer

  • Aug 2021 - May 2022

  • Developed, designed, and tested a fully electric 14 passenger airplane which converts 90% of its usable energy. • Led all phases of computer-aided design of the aircraft components which delivered 95% overall performance efficiency of the unit. • Performed material and cost analysis to ensure the design was both light-weight and inexpensive with flight take-off in 276 meters. • Integrated Lithium-Sulfur batteries into the airplane which led to a 60% lighter battery system… Show more • Developed, designed, and tested a fully electric 14 passenger airplane which converts 90% of its usable energy. • Led all phases of computer-aided design of the aircraft components which delivered 95% overall performance efficiency of the unit. • Performed material and cost analysis to ensure the design was both light-weight and inexpensive with flight take-off in 276 meters. • Integrated Lithium-Sulfur batteries into the airplane which led to a 60% lighter battery system compared to conventional Li-ion battery technology. • Implemented an active flow control technology known as CoFlow-Jet to reduce the lift induced drag by 25%. Show less • Developed, designed, and tested a fully electric 14 passenger airplane which converts 90% of its usable energy. • Led all phases of computer-aided design of the aircraft components which delivered 95% overall performance efficiency of the unit. • Performed material and cost analysis to ensure the design was both light-weight and inexpensive with flight take-off in 276 meters. • Integrated Lithium-Sulfur batteries into the airplane which led to a 60% lighter battery system… Show more • Developed, designed, and tested a fully electric 14 passenger airplane which converts 90% of its usable energy. • Led all phases of computer-aided design of the aircraft components which delivered 95% overall performance efficiency of the unit. • Performed material and cost analysis to ensure the design was both light-weight and inexpensive with flight take-off in 276 meters. • Integrated Lithium-Sulfur batteries into the airplane which led to a 60% lighter battery system compared to conventional Li-ion battery technology. • Implemented an active flow control technology known as CoFlow-Jet to reduce the lift induced drag by 25%. Show less



Mechanical Design - University of Miami

• Miami, Florida, United States

• Mechanical Design Engineer

  • Aug 2021 - Dec 2021

  • Prototyped, integrated, and assembled an innovative foldable and automatically extendable table using SolidWorks. • Utilized AutoCAD software and peripherals to craft the preliminary design and identify the correct dimensions of the various parts of the model. • Researched and analyzed customer design proposals and specifications to assess the feasibility of the design. • Performed weekly design reviews to optimize the model and analyze the critical aspects of the final product. • Prototyped, integrated, and assembled an innovative foldable and automatically extendable table using SolidWorks. • Utilized AutoCAD software and peripherals to craft the preliminary design and identify the correct dimensions of the various parts of the model. • Researched and analyzed customer design proposals and specifications to assess the feasibility of the design. • Performed weekly design reviews to optimize the model and analyze the critical aspects of the final product.



Delta Glider - Florida Tech

• Melbourne, Florida, United States

• Mechanical Design & Manufacturing Engineer

  • Jan 2019 - May 2019

  • Designed and optimized 3D CAD models of different airfoils for tailless, compound, and Ogival wing configuration. • Manufactured and assembled blueprints for Delta Glider using computer-aided designs. • Implemented unique airfoil design characteristics of NASA's Space Shuttle orbiter to maximize the aerodynamic and structural efficiency of the model. • Manufactured final model using machine shop tools to adapt and assemble styrofoam blocks. • Developed a design analysis to present… Show more • Designed and optimized 3D CAD models of different airfoils for tailless, compound, and Ogival wing configuration. • Manufactured and assembled blueprints for Delta Glider using computer-aided designs. • Implemented unique airfoil design characteristics of NASA's Space Shuttle orbiter to maximize the aerodynamic and structural efficiency of the model. • Manufactured final model using machine shop tools to adapt and assemble styrofoam blocks. • Developed a design analysis to present it in a Preliminary & Critical Design Review to the Engineering Graduate Student Panel. Show less • Designed and optimized 3D CAD models of different airfoils for tailless, compound, and Ogival wing configuration. • Manufactured and assembled blueprints for Delta Glider using computer-aided designs. • Implemented unique airfoil design characteristics of NASA's Space Shuttle orbiter to maximize the aerodynamic and structural efficiency of the model. • Manufactured final model using machine shop tools to adapt and assemble styrofoam blocks. • Developed a design analysis to present… Show more • Designed and optimized 3D CAD models of different airfoils for tailless, compound, and Ogival wing configuration. • Manufactured and assembled blueprints for Delta Glider using computer-aided designs. • Implemented unique airfoil design characteristics of NASA's Space Shuttle orbiter to maximize the aerodynamic and structural efficiency of the model. • Manufactured final model using machine shop tools to adapt and assemble styrofoam blocks. • Developed a design analysis to present it in a Preliminary & Critical Design Review to the Engineering Graduate Student Panel. Show less