Final answer:
Model-driven engineering allows engineers to understand and predict system behavior, evaluate design options, and reduce development time and costs.
Step-by-step explanation:
Model-driven engineering refers to the practice of using mathematical or physical models to design and analyze engineering systems. One of the claimed benefits of model-driven engineering is that it helps engineers better understand and predict the behavior of a system before building a physical prototype. By using models, engineers can evaluate the cost, feasibility, and performance of different design options.
For example, engineers can use mathematical models to simulate the flow of air around a car and optimize its aerodynamics, leading to increased fuel efficiency. Models can also be used to evaluate the structural stability of buildings, optimize the design of mechanical systems, and simulate the behavior of complex electrical circuits.
Overall, model-driven engineering allows engineers to make more informed decisions, reduce development time and costs, and improve the overall performance and reliability of engineering systems.