智能制造背景下的感
知系统
智能制造背景下的感知系统
目录
摘要·······························································2
智能感知技术·······················································2
感知技术的必要性和紧迫
性·································
·········· 2
基于人体分析·······················································3
基于行为分析·······················································3
基于车辆分析·······················································4
基于图像分析·······················································4
智能感知技术在不同领域的应用·······································5
我国发展感知信息技术具备有利条件···································6
我国在发展感知技术方面的不足与改进方法·····························7
世界各国对于智能制造的发展动向·····································7
结束语·····························································9
参考文献···························································10
摘要:当前,以移动互联网、物联网、云计算、大数据、人工智能等为代表的
信息技术加速创新、融合和普及应用,一个万物互联智能化时代正在到来。感
知信息技术以传感器为核心,结合射频、功率、微处理器、微能源等技术,是
未来实现万物互联的基础性、决定性核心技术之一。尤其是,感知信息技术不
同于传统的计算和
技术/感知/智能/发展/万物/制造/核心/计算和/我国/分析·······················································4/
技术/感知/智能/发展/万物/制造/核心/计算和/我国/分析·······················································4/
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