The integration is facilitated by the introduction of new software simulation tools that work in tandem with systems to create an efficient mechatronics pathway. Getting electromechanical design right the first time requires teamwork and coordination across multiple segments and disciplines of the engineering process. Mechatronics design focuses on systematic optimization to ensure that quality products are created in a timely fashion. Modeling, simulation, analysis, virtual prototyping and visualization are critical aspects of developing advanced mechatronics products. The field of mechatronics allows the engineer to integrate mechanical, electronics, control engineering and computer science into a product design process. Mechatronics is the synergistic combination of mechanical and electrical engineering, computer science, and information technology, which includes the use of control systems as well as numerical methods to design products with built-in intelligence. The technological advances in digital engineering, simulation and modeling, electromechanical motion devices, power electronics, computers and informatics, MEMS, microprocessors, and DSPs have brought new challenges to industry and academia. The importance of mechatronics is evidenced by the myriad of smart products that we take for granted in our daily lives, from the cruise control feature in our cars to advanced flight control systems and from washing machines to multifunctional precision machines. Competing in a globalized market requires the adaptation of modern technology to yield flexible, multifunctional products that are better, cheaper, and more intelligent than those currently on the shelf.
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