Today, power line communication technology (PLC) is widely used especially for smart grid applications. However, in order for this technology to be more widespread and operable, it needs to be continuously developed and improved with new techniques. For this reason, it is an important issue to integrate artificial intelligence applications, which accelerate many fields and offer a different perspective, into PLC systems. The aim of this research is to examine the use of artificial intelligence applications in power line communication technology and systems. PLC is a communication technology that enables data and power transmission over the same medium. This technology has been used for telemetry, control, alarm signals, emergency communications and low data rate applications since the 1920s. Today, PLC is widely used in various industries such as intelligent automation control, industrial automation, automation and multimedia control systems. While one-way energy flow and communication are provided in the traditional network, two-way energy and data transfer, which is one of the requirements of the smart grid, can be realized more effectively with the use of artificial intelligence technology. Thus, in the modern network, every important unit in the PLC system can be controlled and the system can be optimized through intelligent analysis to increase efficiency. On the other hand, with the continuous development of artificial intelligence technology, PLC technology is also developing and the system is getting smarter day by day. For this reason, artificial intelligence-based PLC applications are taking place more and more in the literature day by day, especially in smart grid-based studies. In the studies carried out, various applications have been developed by ensuring that artificial intelligence and PLC technology work in a coordinated manner, and it has been observed that high efficiency and accuracy in communication is achieved with the use of artificial intelligence. As a result, in this study, various studies and applications in this context were examined, and predictions were made about how applications could be developed in which areas in the future.