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Narrowing the set of complex systems' possible design solutions derived from the set-based concurrent engineering approach

机译:缩小从基于集合的并行工程方法派生的复杂系统的可能设计解决方案的集合

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Nowadays, complex systems are dominating our contemporary as well as professional lives. These modern technical products are considered as mechatronic systems which incorporate mechanics with electronics, software, and control in various domains mainly transport, medicine, and robotics. The development of these modern technical products is thus so tough. Hence, mechatronics' critical challenges are to be not only well understood but also supported by practical models and tools in order to overcome this difficulty. Moreover, using the traditional design method which is point based is inefficient as it leads to a huge decrease in the innovation potential through limiting the design space to few solutions, an important increase in the cost of the product as well as production delay due to the great number of iterations. Some product development practices have shifted from using the "fixed-point design" approach to the "set-based design" one. Indeed, the set-based concurrent engineering widely considers a set of possible solutions and then shrinks the number of possibilities in order to converge toward a final solution. Yet, since this approach is too difficult to be put into action, a small number of industries in the field of mechatronics use the set-based concurrent engineering concept. Accordingly, this work aims to develop a novel method for the purpose of facilitating the development of a complex product based on the set-based concurrent engineering method and its implementation in an industrial setting by developing an algorithm to find the set of possible solutions to the design problem and narrow this set to merge toward the final solution. Finally, this algorithm is implemented using "Python" language.
机译:如今,复杂的系统主导着我们的当代生活和职业生活。这些现代技术产品被视为机电一体化系统,在机械,电子,软件和控制等领域结合了机械学,主要涉及运输,医学和机器人领域。因此,这些现代技术产品的开发是如此艰巨。因此,机电一体化的关键挑战不仅要得到很好的理解,而且还要有实用的模型和工具来支持,以克服这一困难。而且,使用传统的基于点的设计方法效率低下,因为通过将设计空间限制在很少的解决方案中,这会导致创新潜力的极大降低,产品成本的显着增加以及由于制造成本而导致的生产延迟大量的迭代。一些产品开发实践已从使用“定点设计”方法转变为“基于集合的设计”方法。实际上,基于集合的并发工程广泛考虑了一组可能的解决方案,然后缩减了可能性的数量,以便收敛到最终解决方案。但是,由于这种方法很难实施,因此机电一体化领域的少数行业使用基于集合的并行工程概念。因此,这项工作旨在开发一种新颖的方法,以便通过开发一种算法来找到一套可行的解决方案,从而简化基于基于集合的并行工程方法的复杂产品的开发及其在工业环境中的实现。设计问题并缩小范围以合并为最终解决方案。最后,该算法使用“ Python ”语言实现。

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