超越控制,智领工厂负载整合, 联网管理, 系统优化英特尔:刘锦
主题演讲
英特尔与大家一起与迈向更智慧的自动化未来
Intelligent, Connected Electronics Factory
英特尔在工业自动化
英特尔对工业自动化OEM的价值
英特尔对工业自动化最终用户的价值
英特尔技术在工业自动化领域的应用
英特尔虚拟化技术支持负载整合方案Intel® Virtualization Technology
应用概况 – PAC/IPC/HMIProgrammable Automation Controller (PAC)Industrial PC/HMI
Programmable Automation Controller (PAC) Environment
PAC Basics
A programmable microprocessor-based device that is used for discrete manufacturing, process control and remote monitoring applications. Designed for use in rugged, industrial environments, PACs combine the functions of a programmable logic controller (PLC) with the greater flexibility of a PC. They are also more easily set up for data collection and integration with the companys business applications than PLCs.
工厂环境中的Industrial PC/HMI
应用概况 – 机器视觉Machine Vision
工厂环境中的机器视觉
应用概况 – 机器控制Machine Control
工厂环境中的运动控制
Software Ecosystem
Resources
Ready-to-deploy tools
Ready-to-deploy/Integrate toolsGreen Power ManagementInstant Back to WorkEasy ReimageRemote Drive MountingRemote Drive EraseEnhanced Remote Repair with Microsoft Windows PEEnhanced Remote Repair with WinREand much more, visit the link!
放飞风筝需要娴熟的技能,Festo公司凭借其“空中自动化风筝”首次证实运用机电学原理可以实现风筝全程自动化控制。这是其在运用流动气流核心技术上的新发展。
“空中自动风筝”包含两个分别用机电控制器操纵的双线风筝。运用伺服电机和人造风,这两个风筝就可以实现室内自动化操作。各风筝线通过快速开关阀连接到Festo公司生产的DMSP射流臂,它可以缩短风筝线的长度。如果风筝断线,通过射流臂收缩风筝线就可以使其平稳飞行。It takes a fair amount of skill to fly a kite. With its Sky_liner project, Festo has become the first company to demonstrate that fully automated control can be achieved with the aid of mechatronics, thus linking a new development to its core competency of automation using moving air.
Sky_liner consists of two two-line kites, each of which is controlled using a mechatronic control unit. The two kites are operated automatically indoors, using servo motors and artificial wind. Each line is connected via fast-switching valves to a fluidic muscle DMSP from Festo, which shortens the line and counterbalances the kite by contracting when the kite breaks away.
It takes a fair amount of skill to fly a kite. With its Sky_liner project, Festo has become the first company to demonstrate that fully automated control can be achieved with the aid of mechatronics, thus linking a new development to its core competency of automation using moving air.
Sky_liner consists of two two-line kites, each of which is controlled using a mechatronic control unit. The two kites are operated automatically indoors, using servo motors and artificial wind. Each line is connected via fast-switching valves to a fluidic muscle DMSP from Festo, which shortens the line and counterbalances the kite by contracting when the kite breaks away.