Millimeter wave frequency bands are a proposed technology for supporting robust 5G mobile networks. Remcom contributed to an in-depth study published by the International Wireless Industry Consortium (IWPC), using Wireless InSite to analyze throughput in a complex urban scenario. These coverage results highlight potential obstacles and solutions for deployment of mmWave for 5G.
This presentation demonstrates ray-tracing and scattering simulations from WaveFarer combined with chirp Do...
Most Recent Flipbooks
In this whitepaper, we use Wireless InSite to provide a realistic assessment of radar altimeter interference due to emissions from 5G base stations.
This paper explores the application of machine learning for optimal deployment of 5G infrastructure, such as the position and the orientation of the antenna that help achieve the best signal coverage.
This paper investigates the accuracy of the finite-difference time-domain (FDTD) method for separately estimating coil conductor and radiative loss contributions.
Learn how WaveFarer uses ray-tracing to simulate virtual drive scenarios and predict radar returns as a system moves through an environment.
This article explores the effectiveness of massive MIMO beamforming at mitigating the challenges expected from using the expanse of spectrum available in the mmWave band.
This whitepaper introduces XFdtd’s transient EM/circuit co-simulation capability, which combines the strength of 3D full-wave electromagnetic simulation with the flexibility of circuit solvers.
This booklet explores the core numerical methods utilized in Remcom’s software products.
This article describes the modeling of a SATCOM link, specifically the use case of using a satellite overlay to extend service continuity to IoT devices in a poorly covered rural area.
This collection of application examples demonstrates how REmcom's EM simulation software solves challenges related to 5G and MIMO.
In this article, we demonstrate how XFdtd’s superposition and array optimization features simplify the process for understanding device performance by providing efficient validation of array coverage.
In this presentation, we analyze and optimize an aperture coupled 1x4 patch antenna array with a compact, fan-shaped feeding network for operation in 60 GHz band using XFdtd.
This presentation demonstrates ray-tracing and scattering simulations from WaveFarer combined with chirp Doppler analysis algorithms to assess radar performance for drive scenario simulations.
This article from the July 2019 issue of Microwave Journal introduces ESD simulation features in Remcom’s full wave electromagnetic simulation software package, XFdtd.
Our Waveguide Examples booklet showcases a collection of five different waveguide applications with downloadable project files.
In this article, a SAR analysis for an MRI system is presented using XFdtd.
This paper outlines the advantages of FDTD EM simulation for analyzing antenna-in-system designs that include both the antenna package and the automobile body features surrounding the device.
How does Wireless InSite differ from your current planning tools? Discover the ten cues that your organization may need a channel modeling tool like Wireless InSite for your network planning efforts.
Remcom’s Wireless InSite provides an efficient method to predict channel characteristics for large-array MIMO antennas in complex multipath environments.
In this presentation, an example showcasing Wireless InSite's novel diffuse scattering technique is applied to an office environment at 73 GHz and is compared against measurements.
This presentation summarizes XFdtd's collection of features to mitigate ESD risk.