Enhancing Wearable Device Transmission on Reactive Power Management Using Linearized AC Models

Abstract

This study introduces an innovative approach to enhance the transmission capabilities of wearable devices through reactive power management using linearized AC models. The research presents an estimated AC framework tailored for optimizing power scheduling in wearable devices, with a particular emphasis on integrating renewable energy sources such as solar and wind power. The complexity of the AC Transmission Expansion Planning (AC-TEP) issue is addressed by simplifying the simulation model, focusing on the interplay between circuit layout, bus voltage capabilities, and the incorporation of renewable energy sources. The operational costs, including primary energy expenditure and the management of voltage and frequency stability, are key considerations in the model. The research employs scenario analysis to address uncertainties in wind availability and power demand, utilizing thresholding techniques to minimize discrepancies.