Mechatronics design is a multidisciplinary engineering field that involves integrating different domains, such as: The mechatronics design approach uses a model-based approach that relies heavily on modeling and simulation. The prototyping step accounts for unmodeled errors, and their effects are absorbed into the design. Mechatronics design involves the following steps: - Think about how the required function can be realized by combining different subsystems according to a Systems Engineering approach (V-model) - Use a model-based approach that relies heavily on modeling and... Show more Mechatronics design is a multidisciplinary engineering field that involves integrating different domains, such as: The mechatronics design approach uses a model-based approach that relies heavily on modeling and simulation. The prototyping step accounts for unmodeled errors, and their effects are absorbed into the design. Mechatronics design involves the following steps: - Think about how the required function can be realized by combining different subsystems according to a Systems Engineering approach (V-model) - Use a model-based approach that relies heavily on modeling and simulation - Account for unmodeled errors in the prototyping step - Absorb the effects of unmodeled errors into the design - Use an integrated system engineering approach to trace customer requirements through to a finished design - Use open interfaces to other tools - Use physics-based simulation capability to quickly create and validate alternative design concepts early in the development cycle Show less
Mechatronics design is a multidisciplinary engineering field that involves integrating different domains, such as:
The mechatronics design approach uses a model-based approach that relies heavily on modeling and simulation. The prototyping step accounts for unmodeled errors, and their effects are absorbed into the design.
Mechatronics design involves the following steps: - Think about how the required function can be realized by combining different subsystems according to a Systems Engineering approach (V-model) - Use a model-based approach that relies heavily on modeling and simulation - Account for unmodeled errors in the prototyping step - Absorb the effects of unmodeled errors into the design - Use an integrated system engineering approach to trace customer requirements through to a finished design - Use open interfaces to other tools - Use physics-based simulation capability to quickly create and validate alternative design concepts early in the development cycle
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