Fixed Wireless Access (FWA): Fixed Wireless Access is a type of wireless communication that provides high-speed internet access to fixed locations, such as homes or businesses, without the need for physical cables like fiber-optic or DSL. Instead, it utilizes wireless technologies to deliver internet connectivity.
Antenna Setup: FWA involves the installation of fixed antennas on buildings or towers. These antennas communicate with a nearby base station to establish a wireless connection.
Frequency Bands: FWA systems use various frequency bands, including both licensed and unlicensed spectrum. Higher frequency bands often provide higher data rates but may have shorter range and poorer penetration through obstacles.
Last-Mile Connectivity: FWA is often used as a last-mile solution, bridging the gap between the service provider's network and the end user's location.
Line of Sight (LOS): In some cases, FWA requires a clear line of sight between the transmitting and receiving antennas to ensure a stable and reliable connection.
4G Technology: 4G, or the fourth generation of mobile communication technology, is a standard for wireless communication that succeeded 3G. It provides faster data transfer rates, improved voice communication, and supports a variety of multimedia applications.
LTE (Long-Term Evolution): LTE is a key technology within 4G. It offers significantly higher data rates compared to 3G, making it suitable for applications such as video streaming, online gaming, and other data-intensive tasks.
High Data Rates: 4G networks can provide download speeds in the range of several megabits per second (Mbps) to over 100 Mbps, depending on network conditions and the specific technology deployed.
Low Latency: 4G networks typically have lower latency compared to previous generations, which is essential for real-time applications such as online gaming and video calls.
Advanced Technologies: 4G incorporates advanced technologies such as Multiple Input Multiple Output (MIMO), Orthogonal Frequency Division Multiplexing (OFDM), and advanced modulation schemes to optimize spectral efficiency and enhance overall performance.
