Fuzzy Logic Approach to Enhance Energy Conversion in Solar Powered Vehicles
Fuzzy Logic Approach to Enhance Energy Conversion in Solar Powered Vehicles
The mounting demands for fossil fuels, the ensuing global energy crisis, the inadequacy and limitations of solar vehicle to answer the needs of the hour is where the roots of the paper takes origin. The idea of solar vehicles as a potential solution is acknowledged, and enhancing the vehicle to match the performance of the conventional vehicles is the challenge that researches are trying to outwit.
Conventional photovoltaic technology is based on harnessing the sunŠ²Šā¢s rays within a flat substrate, typically comprised by single or poly-crystalline silicon material. This arrangement is easy to design and manufacture; the only problem is that the efficacy of this technology relies on its position relative to the sun. Traditional but expensive solutions to this challenge involve motorized frames that follow the sunŠ²Šā¢s path throughout the day, requiring energy and maintenance in order to work properly. The paper proposes the idea of implementing fuzzy logic and fuzzy set approach as a potential solution to this need.
A microcontroller controlled fuzzy logic system is implemented to maintain the solar panel of the vehicle in motion at the MPP (Maximum Power Point) used in conjunction with a mechanical tracking at any point of time. A solar sensor is employed to return the co-ordinates of the sunŠ²Šā¢s position in terms of two angle co-ordinates, which constitutes the input to the system fuzzy control system. These input variables are mapped