The rapid development and widespread use of artificial intelligence (AI) systems is posing new challenges for electricity ...

With legacy load forecasting models struggling with unpredictable events that are becoming ever more common, power-hungry AI ...

Electric utilities globally are being compelled to upgrade their existing distribution and transmission systems due to the rising demand for load by residential, commercial, and industrial customers.

Edge computing and AI are revolutionizing utility operations by enabling real-time, autonomous decision-making at the grid edge, improving reliability, reducing costs, and supporting renewable ...

Modernizing the electric grid involves more than upgrading control systems with sophisticated software—it requires embedding sensors and automated controls across the entire system. It’s not only the ...

Smart Grid technology arrived with a bang more than two decades ago, but the first implementations often overpromised and underdelivered. Smart Grid 2.0, however, integrates new technologies to ...

One of the expectations that industries have with the fast-paced development and application of smart grids and Internet of Things (IoT) technologies is how these will help in improving electrical ...

This shows part of the display Duke Energy Progress transmission personnel see in a new control center that will open this week. The facility is meant to help Duke make the grid more reliable and ...

India’s power system is rapidly decentralizing as electricity demand, rooftop solar, electric vehicles, and distributed ...

Smart grid communication technologies integrate advanced digital communication systems with traditional power networks, transforming them into dynamic, responsive infrastructures that facilitate ...