profile sourced from GitHub
Scouting report
MATLAB photovoltaic modeling with an academic research bent
assessed from open-source footprint
A genuinely focused niche: MATLAB and Jupyter work on solar PV module modeling — a GUI for I–V curves and double-diode parameter extraction (PVMSim), plus a PRISMA-based systematic review and Monte Carlo simulations. The output reads as engineering-research grounded in renewable energy rather than typical software-product work. With no stars, no followers, four commits in the past year and most repos dormant, the public footprint is small, but the domain depth in scientific computing and photovoltaics is the clear and credible signal here.
Authorship & open source
What they build
Industry experience
- Climate & Sustainability
Signal breakdown
0
6
0% forks
0
4 yr
0
Active
67% stale
Strengths
- Verified author — wrote 100% of commits on PVMSim
- Original builder — 6 of their own repositories
- Data / ML focus
- Domain experience in Climate & Sustainability
- Core stack: MATLAB, Jupyter
About
Skills
- MATLAB
- Jupyter
Featured work
PVMSim
MATLAB GUI for PV module I–V modeling, DDM parameter extraction, validation metrics, and reproducible exports
- Code
by Liomnis Osorio Laurencio
SLR PRISMA MLcSiPV
A PRISMA-Based Systematic Review and Bibliometric Analysis
- Code
by Liomnis Osorio Laurencio
Matlab DDM
Matlab double diode model
- MATLAB
by Liomnis Osorio Laurencio
FVSim
PVMSim
- Code
by Liomnis Osorio Laurencio
SMC
Simulations Monte Carlo
- Code
by Liomnis Osorio Laurencio
Temp FV
Calculate the temp of module FV with data weather from Cuba
- Jupyter
by Liomnis Osorio Laurencio