AIGC驱动的功能创新设计过程与实践OA
该文提出一种AIGC驱动的功能创新设计过程.首先对现有产品进行系统功能分析,明确系统组成要素的核心功能和相互影响关系,然后结合用户洞察工具识别现有产品功能的不足,再运用TRIZ理论和工具,融合AIGC技术进行分析和改进,最后将该模型应用于中性电极的创新设计,成功提出并验证解决热损伤问题的方案.对中性电极的改进创新,证明AIGC驱动的功能创新设计过程的有效性.
This paper proposes an AIGC-driven functional innovation design process.First,a systematic functional analysis of existing products is conducted to clarify the core functions of system components and their interrelationships.Then,user insight tools are employed to identify deficiencies in the current product functions.Subsequently,TRIZ theory and tools are applied,integrated with AIGC technology,for analysis and improvement.Finally,this model is applied to the innovative design of a neutral electrode,successfully proposing and validating a solution to address the issue of thermal damage.The improvements and innovations achieved for the neutral electrode demonstrate the effectiveness of the proposed AIGC-driven functional innovation design process.
陈志;傅欢欢
宝施医疗用品(深圳)有限公司,广东 深圳 518005宝施医疗用品(深圳)有限公司,广东 深圳 518005
通用工业技术
中性电极TRIZAIGC医疗器械开发热损伤
neutral electrodeTRIZAIGCmedical device developmentthermal damage
《科技创新与应用》 2026 (9)
45-48,53,5
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