Where is LabVIEW used ?


Countless Applications

Engineers and scientists implement NI LabVIEW applications in many industries worldwide, including automotive, telecommunications, aerospace, semiconductor, electronic design and production, process control, biomedical, and others. The flexibility and scalability of LabVIEW make it well-suited for initial research and design phases all the way up to large scale manufacturing test processes. By using the single, integrated LabVIEW environment throughout the phases of the design cycle to interface with real-world signals, analyze data for meaningful information, and share results and applications, you can boost productivity throughout your organization.

Test and Measurement

LabVIEW is an industry-standard development tool for test and measurement applications. With more than 1,400 instrument drivers, LabVIEW leads the industry in instrument control software solutions, giving you a consistent development and execution environment for your entire system. In addition to LabVIEW, National Instruments TestStand test management software reduces test development time and simplifies maintenance. NI designed TestStand to automate a wide variety of test systems. TestStand is a ready-to-run test executive that organizes, controls, and executes your automated prototype, validation, or production test systems. TestStand is completely customizable, so you can modify and enhance it to match your specific functional test, electronic test, and automated test needs.

Process Control and Factory Automation

In process control and factory automation applications, many engineers look to LabVIEW for high-speed, high-channel-count measurement and control. For large, sophisticated industrial automation and control applications, the LabVIEW family includes the LabVIEW DSC Module, designed specifically for monitoring large numbers of I/O points, communicating with industrial controllers and networks, and providing PC-based control.

Machine Monitoring and Control

LabVIEW is ideal for machine monitoring and predictive maintenance applications that need deterministic control, vibration analysis, vision and image processing, and motion control. With the LabVIEW platform of products, including the LabVIEW Real-Time Module for real-time deterministic control and the LabVIEW DSC Module, you can create powerful machine monitoring and control applications quickly and accurately.

Research and Analysis

The built-in LabVIEW measurement analysis library provides everything you need in an analysis package. Scientists and researchers use LabVIEW to analyze and compute real results for research applications in the biomedical, aerospace, and energy industries, among others. Some of the available functions for signal generation and processing, digital filtering, windowing, curve fitting, and limit mask testing are listed on page 50. For specialized analysis, such as joint time­f r e q u e n c y analysis, wavelets, and model-based spectral analysis, LabVIEW offers the specially designed Signal Processing Toolset.

Control Design

The product development cycle from design to production can be reduced using LabVIEW. By integrating LabVIEW closely with top design software and hardware, it is easier to take real-world measurements throughout all phases of the design process. In creating a new product, iteration on models, prototypes, and tests is necessary before arriving at a finished design. Reducing time spent in this iterative process results in shorter time to market. With the integration of LabVIEW tests into the modeling and prototyping stages of development, real-world data can be compared to theoretical models earlier and more easily, resulting in fewer design iterations to achieve the final product.


Just as LabVIEW revolutionizes industry, it also dramatically affects traditional academic research and teaching. A LabVIEW-based laboratory makes researchers more productive and improves the way students learn. Rather than focusing on sometimes-tedious methods of gathering data, educators and students can focus on results and concepts. Students still learn methodology, but spend the majority of their time executing their experiments instead of building them.


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Benefits of learning MATLAB and LabVIEW: Benefits of Learning MATLAB and LabVIEW: This page outlines the advantages and applications of learning MATLAB and LabVIEW in different branches of Engineering. Students are strongly reccommended to go through this page before registration.

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