Wireless InSite software analyzes wireless communication systems, wireless networks, sensors, radars, and other devices that transmit or receive radio waves. It simulates wireless propagation and communication channel characteristics in complex urban, indoor, rural, and mixed environments.
Predictive Simulation for Telecommunications and Wireless Networks:
Please see Remcom’s website for a comparison of Propagation Models included in each version.
|Outdoor mmWave Planning||Indoor mmWave Analysis|
|Beamforming Simulations||WiFi Device Performance|
Wireless InSite's unique collection of features simplifies the analysis of even the most complex and massive problems.
X3D Propagation Model X3D is a 3D propagation model with no restrictions on geometry shape or transmitter/receiver height. This accurate model includes reflections, transmissions and diffractions along with atmospheric absorption. Supports frequencies up to 100 GHz.
Diffuse Scattering Capture effects of scattering on complex impulse response and cross-polarized received power for mmWave applications.
MIMO Simulations the X3D model provides a unique ray tracing capability for simulating MIMO antennas for 5G, WiFi and other applications. Wireless InSite MIMO simulates the detailed multipath of large numbers of MIMO channels while overcoming the increased level of computations required for traditional ray tracing methods.
Fast Ray-Based Methods 2D site-specific propagation models designed for urban and rough terrain applications.
Empirical Propagation Models Suite of empirical models designed for urban and indoor analysis.
Feature Import Support for KMZ, COLLADA, SHP, and DXF formats for building and object import. The Geospatial Abstraction Library is used for terrain import in DTED, DEM, and TIFF formats.
Antennas Import simulated antennas from XFdtd or create textbook antennas for use in SISO, MIMO and Massive MIMO transmitter and receivers.
Materials Electrical properties of the scene can be defined down to the facet level. An installed database of materials includes metal, earth, concrete, brick, wood, glass, etc. at various frequencies.
Outputs Users have quick access to outputs such as received power, propagation paths, path loss etc. These ASCII-based files can be plotted in the tool or easily post-processed externally.
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