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Every day, students, educators and academic researchers find new and exciting ways to use National Instruments products. These written and video case studies are a few examples of how graphical system design is being used to add hands-on learning and relevance to education while accelerating innovation and discovery in academic research.
"We used NI CompactDAQ and LabVIEW to create a solution that simultaneously acquires and logs data as well as synchronizes I/O-channels, far exceeding our expectations."
"Teaching NI tools in our undergraduate courses is producing postgraduate research students who can deliver practical instrumentation, control, and communication solutions from day one. For them, the challenge is the research and not the tools that are needed to deliver it."
"The combination of LabVIEW and CompactRIO delivered the computational power required for our low-level control and kinematic calculations, as well as the determinism and reliability required for our safety-critical operational logic."
"The tacit learning gained from the new ‘hands-on’ approach by the University of Leeds helps not only to reinforce the core subject matter, but it forces the students to learn to deal with success and failure whilst learning about teamwork in a technical context."
"Overall, NI products simplified the whole setup. We quickly brought together hardware and software from many manufacturers into an incredibly compact, powerful and cost-effective tokamak."
"We are excited to have a single, accessible platform that we can use for every lab in the course with NI myRIO. It combines the out-of-the-box nature of NI myDAQ with the performance of industry-grade technology from NI."
"The highly technical challenges involved in operating a full-scale robotics test bed in real time, integrated with a full nonlinear flight dynamics environment, could only be addressed using the real-time NI hardware and software."
"The traditional approach for integrating numerous hardware targets required expertise in several programming languages and tools. However, with LabVIEW we created both Windows-based and FPGA applications in a single, unified development environment. We created and modified FPGA applications without requiring expertise in highly complex hardware description languages."
"CompactRIO offered a rugged, reliable, stand-alone platform, enabling our team to conduct prolonged testing, which would not have been possible on a traditional computer."
"We can use the LabVIEW platform to acquire data with NI myDAQ and use advanced algorithms with the LabVIEW MathScript RT Module to process data, all with one unified user interface. Using seamless hardware integration, we can run our processes on a host PC or deploy to an embedded target such as NI CompactRIO or NI Single-Board RIO."
"The NI platform saved us at least one year of programming time and one year of hardware development time. By using the NI Single-Board RIO platform, we have the flexibility to choose different devices when machine requirements change and we can add on additional components."
"Existing commercially available systems can perform many of the same actions as our system, but they are not nearly as configurable as our custom-built application, which we developed on the same machine that actually runs the experiment."
"Integration with LabVIEW gives us more functionality for logging, monitoring, and analysis, and we can display and save results in the same application with the LabVIEW MathScript routine"
"LabVIEW has a promising role in future clinical trials because of its flexibility and ability to communicate with various medical devices and computing environments."
"The National Instruments platform provided configuration and control flexibility from the software level that was important to us."