Strengthen your understanding of biomedical engineering through personalized one-on-one tutoring led by a biomedical software engineer with experience in medical prototype development, clinical research, computer programming, and healthcare data and settings. Kelly holds a B.S. in Biomedical Engineering and an M.S. in Software Engineering and has completed 1,000+ hours of STEM tutoring while supporting hundreds of students.
Topics may include:
• Biomaterials
• Biomechanics and musculoskeletal modeling
• Physiology and biological systems
• Biomedical instrumentation and circuit concepts
• Signals and systems
• Medical-device design and prototyping
• MATLAB and Python for biomedical applications
• Engineering data analysis
• Senior design and technical project support
• Research methods and scientific writing
Coursework and professional experience include biomedical simulation, signals and systems, circuit analysis, control systems, biomaterials, medical-instrument design, biomedical-device design, senior design capstone, computer vision, neural networks, and computational neuroscience.
Every session is tailored to the student’s course requirements, learning style, assignments, and academic goals. Lessons connect theoretical concepts to practical applications, drawing from experience with tumor segmentation, OpenSim modeling, wearable technologies, Arduino systems, clinical datasets, and the development of a prize-winning hip-assist exoskeleton.
Perfect for:
✔ Understanding difficult course concepts
✔ Homework and problem-set support
✔ Quiz and exam preparation
✔ MATLAB and Python assignments
✔ Laboratory reports and technical writing
✔ Biomedical engineering senior design projects
✔ Research presentations and scientific papers
✔ Building confidence in engineering problem-solving
Designed for undergraduate and graduate students seeking personalized support in biomedical engineering.
Weekend tutoring is available online. In-person sessions may be requested on weekends.
Kelly led a four-person senior design team in developing a wearable hip-assist exoskeleton for post-stroke rehabilitation. The project integrated rotary actuators, an IMU, force sensors, Arduino-based controls, and 3D-printed components while meeting defined performance, weight, battery-life, adjustability, and budget requirements. All under a $1,400 budget!
The project was recognized as one of the top biomedical engineering senior design projects at Florida International University’s Senior Design Expo.
Mentorship may include:
• Defining the clinical or engineering problem
• Identifying user needs and project requirements
• Literature reviews and background research
• Concept generation and design selection
• Project planning, timelines, and team organization
• Medical-device design and prototyping
• Arduino, sensors, actuators, and basic control systems
• CAD, circuit, and technical design review
• Software requirements, architecture, and verification planning
• Experimental design and testing strategies
• Data analysis using MATLAB, Python, R, or Excel
• Risk analysis and regulatory considerations
• Engineering notebooks and design documentation
• Technical reports, posters, and presentations
• Senior Design Expo and final-presentation preparation
Her background also includes coursework and experience in biomedical-device design, medical instrumentation, mechatronics, circuits, control systems, biomaterials, software architecture, software requirements, and software verification.
Each session is customized to the team’s project stage, course requirements, deadlines, and technical challenges. Guidance focuses on helping students make sound engineering decisions, communicate their work clearly, and develop a project they can confidently defend.
Perfect for:
✔ Early-stage project planning
✔ Teams struggling to define scope
✔ Design reviews and troubleshooting
✔ Prototype and testing support
✔ Documentation and report feedback
✔ Poster and presentation preparation
✔ Teams preparing for final demonstrations
✔ Students who need structure, accountability, and technical guidance
Mentorship supports the student’s learning and project development while maintaining academic-integrity requirements. Work will be reviewed, explained, and improved collaboratively.
Weekend sessions are available online. In-person sessions may be requested on weekends.
Topics may include:
• Python programming
• MATLAB and R
• C++ and Arduino fundamentals
• Programming logic and problem-solving
• Object-oriented programming concepts
• Git and GitHub
• Software requirements and system design
• Software architecture
• Software testing and verification
• Artificial intelligence and machine learning
• Neural networks and computer vision
• Data analysis and processing pipelines
• Biomedical and healthcare software
• Debugging, code review, and project organization
Kelly’s graduate coursework includes cybersecurity, neural networks, computer vision, artificial intelligence, software requirements, software architecture, software verification, and software engineering operations.
Her applied experience includes creating reproducible data-analysis workflows, and supporting technology-driven healthcare research projects.
Every session is customized to the student’s experience level, coursework, project requirements, and professional goals.
Perfect for:
✔ Learning programming fundamentals
✔ Homework and university-course support
✔ Debugging and understanding existing code
✔ Building personal or academic projects
✔ Learning Git and GitHub workflows
✔ Preparing for technical presentations
✔ Understanding software-development processes
✔ Exploring AI and machine-learning applications
✔ Developing biomedical or healthcare software projects
✔ Strengthening confidence in technical problem-solving
Guidance is collaborative and focused on helping students understand, develop, and improve their own work while maintaining academic-integrity requirements.
Weekend sessions are available online. In-person sessions may be requested on weekends.
Subjects may include:
• College Algebra and Precalculus
• Calculus I, II, and III
• Differential Equations
• Linear Algebra
• Statistics and Engineering Data Analysis
• Physics
• General Chemistry
• Biology, Cell Biology, and Genetics
• Programming with Python, MATLAB, R, and C++
• Circuits, Signals and Systems, and Control Systems
• Biomedical Engineering
• Medical Devices and Instrumentation
• Research Methods and Scientific Writing
Kelly’s academic and professional background includes biomedical simulation, engineering mathematics, physics, circuits, control systems, biomaterials, medical-instrument design, software architecture, artificial intelligence, neural networks, computer vision, and computational neuroscience.
Every session is customized to the student’s course, learning style, assignments, and academic goals. Lessons focus on breaking difficult concepts into manageable steps, strengthening problem-solving skills, and helping students understand the reasoning behind the material rather than simply memorizing formulas.
Perfect for:
✔ Homework and problem-set support
✔ Quiz, midterm, and final-exam preparation
✔ Reviewing difficult course concepts
✔ Laboratory reports and technical assignments
✔ Programming and data-analysis projects
✔ Research projects and presentations
✔ Developing stronger study and time-management strategies
✔ Building confidence in college-level STEM courses
Guidance is collaborative and supports the student’s own learning.
Weekend sessions are available online. In-person sessions may be requested on weekends.
Prepare for academic success with personalized one-on-one STEM tutoring from a biomedical software engineer with extensive experience in mathematics, science, computer programming, research, and student mentorship. Kelly holds a B.S. in Biomedical Engineering and an M.S. in Software Engineering and has completed 1000+ hours of STEM tutoring while supporting students from multiple learning backgrounds.
Subjects may include:
• Algebra I & II
• Geometry
• Trigonometry
• Precalculus
• Calculus
• Statistics & data analysis
• Physics
• General Chemistry
• Biology & introductory genetics
• Computer science & programming fundamentals
• Python, MATLAB, C++, & Arduino basics
• Engineering & STEM project support
Kelly’s academic and professional background includes biomedical engineering, software engineering, physics, chemistry, biology, circuits, medical-device prototype design, artificial intelligence, computer vision, and scientific research.
Every session is tailored to the student’s learning style, current coursework, and academic goals. Lessons focus on breaking complex concepts into clear, manageable steps while helping students strengthen problem-solving skills, study habits, and confidence.
Perfect for:
✔ Homework and assignment support
✔ Quiz, test, midterm, and final-exam preparation
✔ AP and honors-level coursework
✔ Reviewing difficult or missed concepts
✔ Laboratory reports and STEM projects
✔ Introductory programming assignments
✔ Improving study and time-management skills
✔ Preparing for college-level STEM courses
✔ Building confidence and independence
Guidance is collaborative and designed to help students understand and complete their own work.
Weekend sessions are available online. In-person sessions may be requested on weekends.
No results match your search. Try removing a few filters.