《实时测量与控制模块》(LabVIEW Real Time)v8.0[ISO]

《实时测量与控制模块》(LabVIEW Real Time)v8.0[ISO]
  • 片  名  《实时测量与控制模块》(LabVIEW Real Time)v8.0[ISO]
  • 简  介  发行时间: 2005年制作发行: NI
  • 类  别  软件
  • 小  类  行业软件


  • 详细介绍中文名: 实时测量与控制模块英文名: LabVIEW Real Time资源格式: 光盘镜像版本: v8.0发行时间: 2005年制作发行: NI地区: 美国简介:
    未通过安全和安装测试,使用后果自负与本论坛无关
    软件版权归原作者及原软件公司所有,如果你喜欢,请购买正版软件
    注:此链接下载转自:TLF论坛(网站)
    内容简介:
    LabVIEW Real-Time模块是用于LabVIEW开发系统的附加组件。 该软件为特定的实时目标编译和优化LabVIEW 图形化代码。 在用于Windows的LabVIEW实时(Real-Time)模块(ETS)中,您可以为所有的NI实时硬件目标开发和配置应用程序,包括PXI、Compact FieldPoint、FieldPoint、PCI插入式板卡以及经认证的桌面计算机。用于这些目标的嵌入式RTOS是可以为嵌入式代码提供最大可靠性的单个内核。
    LabVIEW 8 RT模块将LabVIEW带入了实时测量与控制应用中。工程师们利用这一模块在一台主机上开发LabVIEW应用程序,然后将它们下载到一个运行实时操作系统的硬件设备上工作。
    LabVIEW RT(实时)使用指南克服了以往存在的种种困难,帮助用户更快速更容易地搭建系统。LabVIEW在为每个工程师都提供实时功能的努力上又跨出了一步。
    National Instruments LabVIEW 8 dramatically simplifies the development of distributed systemsbydelivering distributed intelligence, a collection of technologies that simplify the development of processes running across applications and among remote devices. The new LabVIEW Project streamlines your application and system management with tools that help you manage all the files in your large application, simplify the challenges of team software development, and organize all your hardware targets. Additionally, NI LabVIEW continues to deliver improved Express technology for instrument control, data acquisition, and data storage. Regardless of what types of systems you build or how much LabVIEW experience you have, you can use the new features in LabVIEW 8 to design, control, and test applications faster and easier
    Georgia Tech Develops Haptic Devices Using NI LabVIEW Real-Time, PXI
    Author(s):
    Benjamin Black, Georgia Institute of Technology; Wayne Book, Georgia Institute of Technology
    Tndustry:
    Machines/Mechanics, Research, University/Education
    Product:
    LabVIEW Real-Time, PXI/CompactPCI
    The Challenge:
    Investigating teleoperation methods for master and slave robots.
    The Solution:
    Using National Instruments LabVIEW Real-Time and PXI to control both an energetically passive master robot and an active slave robot, as well as manage communications between the two.
    The master haptic interface control program reads the encoders, translates their angles into an x-y position, reads the analog force sensors, translates their x-y data into a global x-y coordinate system, commands forces to the output brake channel.
    Haptics, also known as “force feedback teleoperation,” attempts to provide environmental interactions through a robotic system. Users mimic these interactions with robotic arms. By varying the amount of force these haptic devices exhibit, a user can achieve the sensation of interacting with the actual system. Haptic robotics can be viewed as a high-tech, multidimensional, force feedback computer input device - a not-too-distant cousin of the joystick or a mouse.
    Active and Passive Haptic Devices
    Haptic devices can be active or passive. The delineation is made by considering whether energy is added to the system (active) or removed from the system (passive). Active haptic robots have joints with motors; hydraulic actuators; or some other form of actuator that creates motion, adds energy, and reflects virtual forces. Instead of motors, passive haptic devices have brakes or dampers that provide the user with feedback forces. The passive haptic robot can
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