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基于AD与TRIZ的病区巡护机器人功能集成设计 被引量:5

FUNCTIONAL INTEGRATION DESIGN OF PATROL ROBOT BASED ON AD AND TRIZ
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摘要 为应对高质量医疗需求的增长和医护资源逐渐减少的问题,设计出运用于医院病区的巡护机器人。以AD为流程框架,映射用户域与功能域,运用TRIZ分析矛盾,最后结合最小信息公理优选设计方案。用集成方法可以有效提高设计效率与质量。得到三维装配模型。通过运用集成方法,进行病区巡护机器人功能集成创新设计,解决了功能矛盾,实现了医疗服务体验升级,为将来相关设计方向提供参考和思路。 In order to cope with the increasing demand for high quality medical care and the gradual reduction of medical resources,a patrol robot used in hospital ward was designed. By studying the current situation in China and the previous research, the user activity behavior was described,and the user domain was compared with the functional domain. Based on the AD design process,TRIZ is used as an analysis tool to deal with the contradictions and conflicts in the mapping. Finally, the scheme is optimized by combining the minimum axiom in the information axiom. it using Solidworks to obtain a three-dimensional assembly model. The integration method can effectively improve the design efficiency and quality. Conclusion The innovative design of patrol robot in ward can better solve the functional contradiction and upgrade the medical experience,which can provide reference and ideas for the future.
作者 石元伍 齐廉恒美 SHI YUANWU;QI LIANHENGMEI
机构地区 湖北工业大学工业设计学院
出处 《设计》 2019年第8期131-133,共3页 Design
关键词 集成模型 功能创新 医疗服务机器人 AD方法 TRIZ矛盾冲突 病区巡视 Integration model Functional innovation Medical service robot AD method TRIZ conflict Ward inspection
分类号 TB47 [一般工业技术—工业设计]
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  • 1刘心雄,赵巍.医疗产品的工业设计研究[J].机械设计与研究,2005,21(6):85-86. 被引量:20
  • 2Allan M, Williams C K I. Object localisation using the generative template of features[J]. Computer Vision and Image Under- standing, 2009, 113(7): 824-838.
  • 3薛樱花 田国会 李国栋 等.智能空间中的服务机器人物品搜寻与操作.高技术通讯,:815-821.
  • 4Sharkey P M, Murray D W, Vandevelde S, et al. A modular head/eye platform for real-time reactive vision[J]. Mechatronics, 1993, 3(4): 517-535.
  • 5Sharkey P M, Murray D W, McLauchlan P E et al. Hardware development of the Yorick series of active vision systems[J]. Microprocessors and Microsystems, 1998, 21(6): 363-375.
  • 6Davison A J. Mobile robot navigation using active vision[D]. Oxford, UK: Oxford University, 1998.
  • 7Henrik I C. The AUC robot camera head[R]. Aalborg, Denmark: Laboratory of Image Analysis, Aalborg University, 1995.
  • 8杜春红.基于主动视觉的机器人行为控制技术研究[D].天津:河北工业大学,2004.
  • 9Vezhnevets V, Sazonov V, Andreeva A. A survey on pixel-based skin color detection techniques[C]//Proceedings of Graphicon. 2003: 85-92.
  • 10Yang J M, Kim J H. Sliding mode control for trajectory tracking of nonholonomic wheeled mobile robots[J]. IEEE Transactions on Robotics and Automation, 1999, 15(3): 578-587.

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2019年 第8期

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