Comparison of Condition Numbers and Ranks of the MIMO Channel at 77 GHz Carrier Frequency

“… Scattering Model: This model is intended to simulate signal scattering caused by environmental barriers. Scattering can result in considerable multipath propagation in millimeter wave systems, which can cause interference and signal deterioration [ 14 , 15 , 16 , 17 ]. …”

“…Then, the author analyzes different deployment scenarios of massive MIMO (e.g., cell-free, IoT, etc.). It can also benefit from realistic data representing the transmission gain after deploying massive 5G MIMO antennas into the 5G network [ 17 ]. The author uses NYUSIM software to analyze the performance of MIMO channels at 77 GHz under different configurations.…”

Investigating UAV-Based Applications in Indoor–Outdoor Sports Stadiums and Open-Air Gatherings for Different Interference Conditions beyond 5G Networks

“… Scattering Model: This model is intended to simulate signal scattering caused by environmental barriers. Scattering can result in considerable multipath propagation in millimeter wave systems, which can cause interference and signal deterioration [ 14 , 15 , 16 , 17 ]. …”

“…Then, the author analyzes different deployment scenarios of massive MIMO (e.g., cell-free, IoT, etc.). It can also benefit from realistic data representing the transmission gain after deploying massive 5G MIMO antennas into the 5G network [ 17 ]. The author uses NYUSIM software to analyze the performance of MIMO channels at 77 GHz under different configurations.…”

Investigating UAV-Based Applications in Indoor–Outdoor Sports Stadiums and Open-Air Gatherings for Different Interference Conditions beyond 5G Networks

Performance evaluation of 2×2 and massive 8×8 MIMO at 28 GHz and 60 GHz for Dhaka City

Comparison of Rank and Condition Number of an Urban Micro (UMi) Channel at 2.4 and 5.8 GHz