Abstract
The effect of technological developments, İoTs and Cyber-Physical Systems are begun to use at manufacturing. This alteration led to the start of the revolution Industry 4.0. (Wang and Zhou, 2015). In other words, the main elements of Industry 4.0 are İoTs and Cyber-Physical
Systems. The smart factory is born with the integration of these applications (Bartodziej, 2017:35). The smart factory is called aU-Factory (ubiquitous factory), a factoryof- things, a real-time factory, or an intelligent factory of the future also. Like its name, there is no consensus about a clear definition of the smart
factory. Combinations of the definitions there occurs a definition as "a factory system which is combining ubiquitous computing technology as autonomous, sustainable and reconfigurable production, by using software, hardware with networked; to solve problems dynamic, agile
and flexible style (Radziwona etc,2014:1185-1188).
The aim of the study, to explain what the smart factory concept is and
how useful it is. Therefore, many international studies are sought to
clarify the core of smart factories.