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Acquisition Control Data Motion Advanced Topics in Labwindows/Cvi by Shahid F. Khalid, Take virtual instrumentation to the next level with high-level programming.High-level programming with LabWindows/CVILive data display via Internet or intranet sourcesProgrammatic creation and control of GUIsData acquisition and VXI device communicationGraph control, table control, function panels, instrument drivers, and Open GL Unleash the true power of LabWindows/CVI when you employ the rich features of this programming environment. In this follow-up to his "LabWindows CVI Programming for Beginners," Shahid F. Khalid presents the sophisticated techniques that allow experienced users to make the most of this virtual instrumentation powerhouse. The flexibility of LabWindows/CVI software means that you can build virtual instrumentation using Microsoft Visual Basic and Visual C++ as well as ANSI C. "Advanced Topics in LabWindows/CVI" focuses on the use of C in an open software architecture. It is a project-oriented guide that will teach you to build applications using the more complex features of this programming environment. Applications include: Live data acquisition via Internet or intranet sources using Data Socket technologyGUI controls created and manipulated in real timeAdvanced features of graph and table controls3-D data plotting with Open GLCommunications with VXI devices using VISACreating and using function panels and instrument drivers The material is organized to present information with maximum clarity, keeping the reader in mind. For convenience, each chapter concludes with an explanation of the purpose and prototype of the library functions under discussion. "Advanced Topics in LabWindows/CVI" will give students and working professionals the tools to build andautomate sophisticated virtual instrumentation for a world of applications.About the CD: The accompanying CD-ROM includes a demo version of LabWindows/CVI 6.0 that is included as a component of Measurement Studio and all the projects in the book in complete, ready-to-run form.
Scada: Supervisory Control And Data Acquisition Scada: Supervisory Control And Data Acquisition
Programmable automation controller - A programmable automation controller (PAC) is a compact controller that combines the features and capabilities of a PC-based control system with that of a typical programmable logic controller (PLC). PACs are most often used in industrial settings for process control, data acquisition, remote equipment monitoring, machine vision, and motion control. Process control network - A Process Control Network (PCN) is a communications network that is used to transmit instructions and data between control and measurement units and Supervisory Control and Data Acquisition (SCADA) equipment.These networks have, over the years, used many of the technologies and topologies utilised in other network applications. National Oceanographic Data Center - The National Oceanographic Data Center (NODC) manages the acquisition, ingest processing, quality control and long-term preservation of oceanographic data. Oceanographic data in digital form is sorted, categorized and assigned unique identification numbers at ingest (non-digital data and information are normally incorporated in the NOAA Library, but are always considered for future conversion to digital form to support modern access and retrieval methodologies). Data acquisition - Data acquisition is the sampling of the real world to generate data that can be manipulated by a computer. Sometimes abbreviated DAQ, data acquisition typically involves acquisition of signals and waveforms and processing the signals to obtain desired information. acquisitioncontroldatamotion |
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