The process for individuating TRIZ Inventive Principles: deterministic, stochastic or domain-oriented?

IF 1.8 Q3 ENGINEERING, MANUFACTURING
Design Science Pub Date : 2021-06-04 DOI:10.1017/dsj.2021.12
Y. Borgianni, Lorenzo Fiorineschi, F. S. Frillici, F. Rotini
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引用次数: 7

Abstract

Abstract Although TRIZ is widely acknowledged as a powerful aid to improve efficacy and efficiency of the creative design process, practitioners diffusedly experience difficulties in the selection of the most suitable tool. Such an issue represents a severe limitation in consideration of the large number of tools TRIZ offers. Here, Inventive Principles (IPs) are acknowledged as the most popular TRIZ technique, and their conjointly use with the Contradiction Matrix makes the selection of the appropriate IP a sufficiently supported task. However, the reliability of the Contradiction Matrix is often questioned and an agreement on a solid and reliable procedure for the selection of IPs is far from being reached. In such a context, the paper investigates the recurrence of IPs to solve contradictions, with reference to a classification framework that takes into consideration the nature of the problem to be solved and the technical-scientific domain it belongs to. The outcomes of the analysis reveal that leveraged IPs are considerably related with the technical-scientific domain and the nature of the problem to be solved. The found relationships are worth delving into and translating into selection guidelines.
个性化TRIZ发明原则的过程:确定性,随机还是面向领域?
虽然TRIZ被广泛认为是提高创意设计过程效能和效率的有力工具,但从业者普遍在选择最合适的工具方面遇到困难。考虑到TRIZ提供的大量工具,这样的问题代表了一个严重的限制。在这里,创造性原则(IP)被认为是最受欢迎的TRIZ技术,它们与矛盾矩阵的结合使用使得选择合适的IP成为一项充分支持的任务。然而,矛盾矩阵的可靠性经常受到质疑,对选择知识产权的坚实可靠程序的协议远未达成。在此背景下,本文参照考虑待解决问题的性质及其所属的科技领域的分类框架,考察知识产权解决矛盾的反复出现。分析结果表明,杠杆式ip与技术-科学领域和待解决问题的性质有很大关系。这些发现的关系值得深入研究,并转化为选择指南。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Design Science
Design Science ENGINEERING, MANUFACTURING-
CiteScore
4.80
自引率
12.50%
发文量
19
审稿时长
22 weeks
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