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The assessment of performance parameters for body-worn wireless devices typically involves numerous iterations and variability. RF propagation simulation empowers engineers to test a multitude of varied, real-world use cases in far less time, and at lower cost, than in situ testing alone.
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In this example, Remcom uses XFdtd to demonstrate the performance of a MU-MIMO WiFi router with antenna arrays for 2.4, 5, and 6-7 GHz ranges. The maximum coverage possible with different antenna array combinations is discussed to demonstrate the performance capabilities of the device.
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Explore human radar modeling for sensing applications, validating methods with NIST data and demonstrating real-world use cases like child presence detection and indoor monitoring.
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Learn how Wireless InSite 4.0 simulates dynamic RF environments with moving transceivers, on-body propagation, lunar terrain modeling, and time-based outputs for next-gen wireless systems.
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Wireless InSite enables engineers to simulate time-based mobility, lunar propagation, and wideband ray-tracing for analyzing moving devices, vehicles, radar coverage, and lunar RF systems.
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Wireless InSite® Wireless Mobility
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Wireless InSite simulates dynamic wireless mobility, modeling device and vehicle movement to predict multipath effects, coverage variations, and communication performance across complex, time-varying environments.
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