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Radar and communications system extends signal range at millimeter-wave frequencies
An MIT Lincoln Laboratory team developed and demonstrated the wideband selective propagation radar (WiSPR), a radar and communications system that extends signal range at millimeter-wave frequencies. The system will enable U.S. Army units to conduct their missions more effectively.
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Radar and communications system extends signal range at millimeter-wave frequencies
An MIT Lincoln Laboratory team developed and demonstrated the wideband selective propagation radar (WiSPR), a radar and communications system that extends signal range at millimeter-wave frequencies. The system will enable U.S. Army units to conduct their missions more effectively.
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https://news.mit.edu/2025/radar-communications-system-extends-signal-range-millimeter-wave-frequencies-0502Radar and communications system extends signal range at millimeter-wave frequencies
An MIT Lincoln Laboratory team developed and demonstrated the wideband selective propagation radar (WiSPR), a radar and communications system that extends signal range at millimeter-wave frequencies. The system will enable U.S. Army units to conduct their missions more effectively.
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10- titleRadar and communications system extends signal range at millimeter-wave frequencies | MIT News | Massachusetts Institute of Technology
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- descriptionAn MIT Lincoln Laboratory team developed and demonstrated the wideband selective propagation radar (WiSPR), a radar and communications system that extends signal range at millimeter-wave frequencies. The system will enable U.S. Army units to conduct their missions more effectively.
- keywordsMIT Lincoln Laboratory, Transportation Safety and Resilience Group, Mechanical Engineering Group, Airborne Radar Systems and Techniques Group, Integrated RF and Photonics Group, Homeland Protection Systems Group, Advanced Capabilities and Systems Group, ISR Systems and Technology, Wideband Selective Propagation Radar (WiSPR), U.S. Army Rapid Capabilities and Critical Technologies Office, U.S. Army Test and Evaluation Command, phased arrays, millimeter-wave (mmWave), radio-frequency integrated circuits (RFICs), electronically scanned arrays, Greg Lyons, Christopher Serino, David Conway, Marc Viera
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- og:descriptionAn MIT Lincoln Laboratory team developed and demonstrated the wideband selective propagation radar (WiSPR), a radar and communications system that extends signal range at millimeter-wave frequencies. The system will enable U.S. Army units to conduct their missions more effectively.
- og:site_nameMIT News | Massachusetts Institute of Technology
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