The system is a structure that brings together different elements and produces results that they cannot produce when they are separate. These elements; parts, people, software, hardware, facilities, techniques and technologies, documents, policies etc. elements.
System Engineering enables the design, production, maintenance and termination of complex systems or subsystems that constitute these systems, especially considering economic fluctuations and time, cost, quality, productivity and ethical constraints.
In today's world, complex systems are often;
- Technical,
- Biological,
- Sociological,
- Environmental,
- Industrial,
- Political,
- Financial and Economic
as a result of at least a few of the systems. Especially economic fluctuations affect all systems in terms of cost, time, quality, efficiency and ethics.
Systems Engineering programs address, analyze or design the whole using all the basic concepts, tools and methods required for the analysis of functionally complex systems.
With the System Engineering approach, the whole system is taken as a whole rather than focusing separately on the parts that make up the system, and problems or problems can be detected and resolved faster by an interdisciplinary approach.
The System Engineering approach defines the functional and conceptual structure as a whole and elaborates the whole function as much as the end user. It also monitors and manages processes from design to finishing (scrapping or destroying).