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Learn about using commercial off-the-shelf (COTS) technology as you walk through the most advanced technologies for applications in aerospace and defense during this four-part webcast series.
The key goals haven’t changed: protect and equip those entrusted with the mission the best way possible, counter the evolving threats, and do this within the constraints of a challenging economy. What does change is the technology to help you achieve those goals. Whether you are looking for innovative approaches to quickly prototype a new design, improve your component and systems testing, or ensure system uptime and readiness, better awareness of the latest technologies can help you deliver solutions with greater performance and reduced costs.
Protect and equip those entrusted with the mission the best way possible, counter the evolving threats, and do this within the constraints of a challenging economy. Better awareness of the latest technologies can help you deliver solutions with greater performance and reduced costs.
It takes a sophisticated combination of hardware and software to design and test RADAR systems. Learn how to simulate the front end of a RADAR system in software and prototype the same system using physical hardware to accelerate the testing of new RADAR technology.
Learn how you can use NI software defined radio (SDR) platforms, based on COTS technology, and an integrated software toolchain, featuring high levels of abstraction, to design, prototype, and test military communications systems while shortening development cycles and reducing costs.
With the appropriate software and advances in analog-to-digital converters, high-speed data buses, and high-performance computing, modular test systems can be configured to create software-based tests or measurements and the user interface for RF test requirements. Learn about PXI-based software-defined synthetic instrumentation (SDSI) architectures and the performance, size, cost, and the software development associated with the implementation of various measurement modes for RF and microwave applications.