期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
A Triple Human-Digital Twin Architecture for Cyber-Physical Systems
1
作者 Duansen Shangguan Liping Chen +2 位作者 Chang Su Jianwan Ding Chan Liu 《Computer Modeling in Engineering & Sciences》 SCIE EI 2022年第6期1557-1578,共22页
With the development of information and communication technology and the advent of the Internet of Things(IoT)era,cyber-physical system(CPS)is becoming the trend of products or systems.The deep integration and real-ti... With the development of information and communication technology and the advent of the Internet of Things(IoT)era,cyber-physical system(CPS)is becoming the trend of products or systems.The deep integration and real-time interaction between the physical world and the virtual world expand system functions.Although there are some CPS implementation guidelines,the virtual world is still relatively abstract compared to the concrete physical world that can be touched through the IoT.Besides that,human is a non-negligible CPS endogenous interactive intelligent component.In this paper,we propose a triple human-digital twin architecture,where the physical objects and the digital twins that are the projections of the physical entities establish the cornerstone of human functioning together.And the hierarchically distributed digital twins grow dynamically with the physical entities along the lifecycle.Furthermore,the interaction and collaboration among the physical objects,the digital twins,and the humans in their respective worlds(the expected world,the interpreted world,and the physical world)integrate the full value chain of the products in anticipation of seamless synergy.Finally,we present a power management digital companion platform for the lunar probe to demonstrate the efficacy of the architecture. 展开更多
关键词 cyber-physical systems digital twin human factors systems architecture COLLABORATION
下载PDF
基于信息物理融合的骨折复位机器人系统构建
2
作者 傅卓鑫 孙昊 +2 位作者 陈建文 郭悦 陈金 《计算机应用》 CSCD 北大核心 2021年第5期1533-1538,共6页
针对骨折治疗中传统复位方法(手法复位、牵引复位、手术复位)存在的二次损伤、肌能失调、患肢僵硬、破坏血运及术后矫正动态性能差等问题,提出了一种人-机-物融合的信息物理系统(CPHS)用于指导机器人的复位动作。首先,从CPHS的数字孪生... 针对骨折治疗中传统复位方法(手法复位、牵引复位、手术复位)存在的二次损伤、肌能失调、患肢僵硬、破坏血运及术后矫正动态性能差等问题,提出了一种人-机-物融合的信息物理系统(CPHS)用于指导机器人的复位动作。首先,从CPHS的数字孪生、信息感知、系统集成、手术流程、模拟复位等方面论证了并联机器人信息物理系统的构成,将机器人的高定位精度及可重复性与微创方法有效结合,从而指导医生完成仿真规划及术中监控等一系列操作;其次,根据临床骨折复位过程,在机器人操作下对5组不同骨折姿态的模拟骨折病例进行了复位实验;最后,计算出每组实验复位后的移位残余及角度误差,并与传统复位方法的相应数据进行对比。实验结果表明,CPHS骨折复位机器人相较于传统复位方法,在骨折复位过程和患者术后康复上均有着明显的优势。 展开更多
关键词 并联骨折复位机器人 信息物理融合系统 数字孪生 传统复位方法 模拟复位
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部