This initiative aims to reach the goal of energy usage and reshape the grid stability with the help of peak shaving, sharing the load, and an ANN-based forecasting method. The module comprises a solar photovoltaic (PV) array coupled to a LANDSMAN converter with the control via RBFNN MPPT controller. Although a unidirectional converter is preferred for active power, a bidirectional battery is installed and equipped with a LANDSMAN converter so that a three- phase inverter can be connected to the grid. Demand side management is made possible by introducing the ANN technique for predicting the maximum demand that will shift the appliances to off condition when the amount of demand becomes higher than the capacity of the grid. With the help of a PWM rectifier, the AC-DC conversion of the WECS with DFIG is done and a rectifier control is accomplished through a PI controller. Similarly, consumers might cut down their electricity bills by changing the time of electricity consumption and the amount of energy used, which allows them to save on some costs. The energy system is noticeably changing before the consumption of energy reduces from high to low hours peak improving global efficiency. Load sharing and demand regulation systems ensure logical energy utilization, and therefore, these elements maintain the stability of the grid. Furthermore, the demand-side system strengthens consumers' awareness and walks the talk by providing immediate data and tariffs for shifting the load. The project brings consumers into the management of energy on an active basis by creating an environment in which people highly consider energy conservation. Lastly, the project will be carried out and outcomes will be delivered in MATLAB 2021a /Simulink software.