Build Wireless Networks and Systems with Software Defined Radio

Download the latest edition of NI's Wireless Research Handbook, which includes research examples from around the world and across a wide range of advanced wireless research topics. This comprehensive look at next-generation wireless systems will offer you a more in-depth view of how prototyping can enhance research results.

Applications include:

• Flexible Waveform Shaping Based on UTW-OFDM for 5G and Beyond
• Flexible Real-Time Waveform Generator for Mixed-Service Scenarios
• In-Band Full-Duplex SDR for MAC Protocol with Collision Detection
• Bandwidth-Compressed Spectrally Efficient Communication System
• World-Leading Parallel Channel Sounder Platform
• Distributed Massive MIMO: Algorithm for TDD Reciprocity Calibration
• Wideband/Opportunistic Map-Based Full-Duplex Radios
• An Experimental SDR Platform for In-Band D2D Communications in 5G
• Wideband Multichannel Signal Recorder for Radar Applications
• Passive and Active Radar Imaging
• Multiantenna Technology for Reliable Wireless Communication
• Radio Propagation Analysis for he Factories of the Future

About the SDR and Wireless Research Team

With a common goal of rapidly moving from theory to prototype, NI established lead user programs to accelerate next-generation research in controls, mechatronics, robotics, and wireless communications. Established in 2010, the wireless communications lead user program includes numerous research institutions examining advanced wireless system concepts. Many researchers around the world are making significant contributions in advancing wireless technologies through standardization and commercialization based on the foundational work completed by the lead user program.