摘要
本文重点研究TRIZ方法的现代工程应用意义和软件系统设计策略。通过对软件发展史进行分析,得出软件领域创新的一系列关键进化趋势,预测未来软件领域的发展方向。重点结合无人机案例,查找技术系统矛盾,应用TRIZ的技术系统进化法则,对技术系统发展趋势进行预测,最后提出一种控制系统参考架构,来展示显著提升无人机作业能力的技术创新方法。
The paper focuses on the modern engineering application significance of TRIZ approachandstrategies to design software systems. Though analysis on the software development history, a series of criticalevolution trends in software innovation field are obtained, to make predictions on where the software science islikely to evolve in the future. The unarmed aerial vehicle case is highlighted to check the technical system con-tradiction, and the technicalevolution lawof TRIZ is adopted to predict the development trend of technical sys-tem. Finally, a referentialarchitecture for the control system is put forward to display the technically innovativemethod which can significantly improve the operation capability of unarmed aerial vehicle.
出处
《创新科技》
2016年第7期40-44,共5页
Innovation science and technology
关键词
进化法则
技术系统
技术矛盾
无人机
evolution law
technical system
technical contradiction
unarmed aerial vehicle
