International Conference on Artificial Intelligence and Data Processing (IDAP), Malatya, Türkiye, 28 - 30 Eylül 2018
Since the beginning of the Industrial Revolution, the concept of Industrial Revolution in the 4th/Industry 4.0 which is a new turning point in the technologies used, is in every field as well as in the energy field which is considered as the key point of all revolutions. It is aimed that energy generation, transmission and distribution are more efficient and highly reliable together with the next generation software and hardware which is the result of this concept. It has been seen that existing networks can not be enough to achieve this goal. At this point, flexible, reliable, clean, sustainable and highly efficient electric energy due to smart grids come into play. However, due to the increase in demand for electricity due to increase in population and industrialization, the dependence of electric energy on production resources, the availability of renewable energy sources in a dispersed geographical structure and the loss and leakage are becoming more important in our country. The Cyber-Physical System, the Internet of Things, M2M (machine to machine), etc components are used in the energy field, especially in intelligent network systems, resulting in intensive use of technology at every stage from power generation to end-user distribution point. This includes better system operation, reduced costs, increased energy efficiency, reduced greenhouse effect, reduced downtime with reduced downtime, reduced loss /leakage rates, improved energy quality, better management of production and storage systems, intelligent meter reading and load management and real-time supply-demand management. Industry 4.0 / 4. Industrial Revolution and smart grids have many common aspects such as optimization, automation, efficient use and management of energy, intelligent production, everything internet. In this study, the development process of the Industrial 4.0 revolution in the world and in our country will be examined and the interaction with these process smart grids will be examined.