Gaganpreet Singh

Explore how 5G NR defines the Physical Resource Block (PRB) in the time-frequency grid, its relationship with numerology, and how it impacts data transmission efficiency.

Explore how 5G NR defines minimum and maximum channel bandwidths based on numerology, subcarrier spacing, and resource blocks for efficient radio design.

Understand 5G NR FR1 maximum transmission bandwidth configuration. Learn how subcarrier spacing (SCS) and channel bandwidth define resource blocks and system capacity.

Explore the transmitter architecture of CP-OFDM with optional DFT-Spreading. Learn how Transform Precoding, Subcarrier Mapping, and CP Insertion shape LTE and 5G uplink transmission.

Discover how OFDM symbols form the foundation of LTE and 5G wireless communication. Learn how subcarriers, phase, and amplitude work together for efficient data transmission.

Learn how channel bandwidth, transmission bandwidth, and resource blocks define spectrum efficiency in modern 5G and LTE networks. Explore their roles in data throughput and network performance.

Explore how 5G NR Bandwidth Parts (BWPs) enhance spectral efficiency, reduce power consumption, and enable flexible bandwidth allocation for diverse 5G services.

Explore how 5G NR subcarriers and numerology define frequency flexibility, efficiency, and performance in 5G networks, supporting diverse use cases from IoT to URLLC.

Supplementary Uplink (SUL) boosts 5G and LTE uplink coverage by using an additional low-frequency band for uplink transmission, improving network efficiency and user experience.

Supplementary Downlink (SDL) boosts LTE and 5G performance by adding extra downlink carriers. Learn how SDL enhances data capacity, coverage, and user experience.