The university degree known as systems engineering allows the training of professionals capable of designing, programming, implementing and maintaining systems.
Systems engineering is a university degree that is responsible for the design , programming, implementation and maintenance of systems . Unlike other branches of engineering , this discipline does not deal with tangible products (civil engineers, for example, construct buildings), but with logical products.
Therefore, systems engineering involves the use of mathematical notions that allow the technological application of systems theories to be specified. It is an interdisciplinary science, which requires diverse knowledge to translate its designs into practical life.
Purpose of systems engineering
Systems engineering allows you to transform an operational need into a description of the performance parameters of a system, with its corresponding configuration. On the other hand, it enables the integration of related technical parameters so that the program and functional interfaces are compatible and the operation of the total system is guaranteed.
When carrying out their work, the specialist in this matter must ensure that the system complies with the principles of reliability , maintainability , security and efficiency , among others.
An expert in systems engineering has knowledge of mathematical notions.
Disciplines that support it
In addition to the above, we cannot ignore the fact that every professional in the systems engineering sector is working taking into account three fundamental disciplines or pillars. Thus, for example, there is the so-called cognitive systems engineering, which revolves around issues such as artificial intelligence , ergonomics, the management of programmers or the processing of information through human or non-human entities.
In the same way, systems engineering is also closely related to operations research and the so-called information systems, that is, the elements that function and work together with the clear objective of being able to help the tasks and activities of an organization. company. More specifically, they contribute to supporting these actions through the entry, storage, processing and subsequent output of information.
The three pillars mentioned above also become central axes of another discipline called computer systems engineering, which is responsible for thoroughly analyzing the existing reality in order to subsequently carry out the development and installation of complex computer systems. that are very useful.
Stages of a systems engineering project
The systems engineer is in charge of the different stages of a project linked to the systems. In this way, it analyzes the economic performance, the effectiveness of human resources and the technological use linked to its creations.
Specifically, the systems engineer can dedicate himself to the development and implementation of complex networks, the programming of computer applications and the management of databases, for example.
Vocational training
Various training proposals currently exist on systems engineering, as would be the case of several university master's degrees. In them, students will study the same applied, for example, to areas such as telephone systems, the generation of renewable energy or the automation of the manufacturing industry .
Professionals in systems engineering are in high demand today given the advancement of technology and the need for computerization that companies have.