1. Simulation Of Massive MIMO Beamforming In An Urban Small Cell

    This webinar uses Wireless InSite’s MIMO simulation capability to predict the multipath and channel characteristics for a Massive MIMO system in an urban small cell.  Beamforming techniques are applied to the simulation results in order to predict the beams to several mobile devices and observe how the beams change as one device moves along a route through the city. 

  2. Intro to Wireless InSite MIMO

    Wireless InSite MIMO accurately predicts multipath and efficiently simulates even the large arrays present in Massive MIMO systems.  This webinar demonstrates Wireless InSite with a special focus on the MIMO capability.  Topics include selecting MIMO antennas and requesting and viewing MIMO output.

  3. Detailed Indoor Channel Modeling with Diffuse Scattering For 5G Millimeter-Wave Wireless Networks

    This webinar demonstrates Wireless InSite’s diffuse scattering capability.  An indoor office environment is used to show specific key effects of diffuse scattering, including its impact on complex impulse response and increased cross-polarization of received signals.

  4. Design And Assessment Of A 5G Base Station Using Massive MIMO For Fixed Wireless Access

    Fixed Wireless Access is a key application expected to benefit from 5G networks.  This webinar demonstrates how modeling and simulation can be used to assist system designers, first in the design of a complex antenna array for a base station, and then to assess its potential performance in the field.  The overall objective is to demonstrate a simulation-based methodology for designing systems and antennas and evaluating these designs when placed within realistic environments for their intended application.

  5. Beamforming Simulations To Evaluate Opportunities And Challenges For 5G mmWave And FD-MIMO

    In this webinar, Wireless InSite is used to simulate FD-MIMO systems to simulate FD-MIMO systems and review some of the real-world challenges that beamforming systems face in their attempts to gather accurate channel state information that is critical to their success.