Ausgreen Solar Solutions Research & Development Team
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Updated
Oct 25, 2020
Ausgreen Solar Solutions Research & Development Team
This is a prototype of a landing page for a solar power installation service website.
Notes about my solar experiments
Bifacial PV modeling with SolarFarmer
Documentation page for the Mobile version of The Beach Lab
Solar powered Tricycle rover follows waypoints
Beehive online monitoring based on the ESP32, SIM800L and others sensors.
Solar panel characterization and experiments with Arduino and Python.
ESP8266 NodeMCU Based Solar Powered WiFi Weather Station - Record Temperature (x2), Humidity, Pressure, Rain, and Voltage
Improved modeling of PV solar power for trackers on sloping terrain. Available online: https://doi.org/10.1109/JPHOTOV.2021.3114599
Not for Public use
Web-based IoT project to monitor power produce from solar panel
solar powered humidity and temperature senor with 433 MHz transmitter
This Python script calculates the estimated time required to charge a 12-volt car battery using a solar panel. It considers the solar panel's power, the battery's capacity, and the system's overall efficiency to provide an estimated charging time.
Developed an ensemble voting model that included Random Forests, Linear Regression, Orthogonal Matching Pursuit, and Gradient Boosting Regressor to predict future solar power generated by a solar plant in India at 98.7% accuracy. Placed 1st at the Virginia Tech Computational Modeling & Data Analytics Fall 2022 Data Competition.
Scraper for Solivia Monitoring
A project on reading the voltage and current form solar panel using the STM32 microcontroller. Also includes additional sensors like Temperature and Light.
A raspend based application for reading out current values of my PV units inverters via Modbus-TCP and serve them via HTTP as JSON.
This QuickApp monitors your SolarEdge managed Solar Panels. The QuickApp has (child) devices for current Power, solar Power, lastday, lastmonth, lastyear and lifetime energy.
The IoT EcoBoard v3 is microcontroler based on the processor ATSAMD21G18 ARM Cortex M0 at 48Mhz with 3V3 logic, as the Arduino Zero. The chip has 256K of FLASH and 32K of RAM. It's fully compatible with Arduino and Adafruit libraries.
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