This paper deals with the arrow of complexification of engineering. We claim that the complexification of engineering consists in (a) that shift throughout which engineering becomes a science; thus it ceases to be a (mere) praxis or profession; (b) becoming a science, engineering can be considered as one of the sciences of complexity. In reality, the complexification of engineering is the process by which engineering can be studied, achieved and understood in terms of knowledge, and not of goods and services any longer. Complex engineered systems and bio-inspired engineering are so far the two expressions of a complex engineering.
The process engineering simulation (PES) market is at an inflection point. Artificial intelligence, advanced analytics, and cloud computing are disrupting this market by changing the engineering workflow. Cloud computing accelerates the opportunities for improvement in design and operations, enabling engineering organizations to create value from Industrie 4.0-type agility and digitization by Software-as-a-Service (SaaS) models. Process engineering is moving beyond traditional engineering designs to asset lifecycle optimization. SaaS leverages the respective strengths of both engineering simulation and cloud infrastructure providers to transform simulation to a higher value agile service, to provide scalable web access for legacy software, and to allow users to retain valuable intellectual property (IP) for engineering.
Automotive vehicles & design is the work involves in the growth of the appearance, and to some scope the ergonomics, of motor vehicles or more specially road vehicles. This most usually referred to automobiles but moreover refers to buses, motorcycles, trucks, vans, and coaches. The practical outline and improvement of an ongoing engine vehicle is typically done by an extensive group from a few distinct orders required inside car building. Car configuration is prepared by fashioners who often have a workmanship foundation and a degree in transportation outline or mechanical plan. The mechanical engineering field requires an understanding of core areas including dynamics, mechanics, materials science, thermodynamics, structural analysis, and electricity.