Ⅰ. RSRP Reference Signal Received Power (RSRP) is a key metric in the 5G wireless communication system, which indicates the power level of the signal received by the terminal (UE) from the wireless cell, and plays a crucial role in determining the quality of the wireless link between the user terminal (UE) and the 5G (UE) base station.5G(NR) RSRP Definition and Measurement in Wireless Networks See:
* RSRP Measurement and Filtering in 5G
* RSRP Measurement Characteristics in 5G(NR)
* RSRP Measurement and Mapping in 5G(NR) Networks
* What is the use of RSRP and RSRQ in 5G?
* RSRP,RSSI,RSRQ and SINR Measurement in 5G
Ⅱ.RSRP and Min RSRP Reference Signal Received Power (RSRP) is measured in dBm (decibels), and the higher the measurement, the stronger the signal. Min RSRP (Minimum Reference Signal Received Power) is defined by the operator as the signal strength that ensures a stable and efficient connection between the user's device and the 5G(NR) network.Min RSRP as a threshold also defines the minimum acceptable strength of the received signal that is required for a reliable connection between the terminal and the network.
Ⅲ.RSRP and Network Coverage RSRP is one of the key metrics when measuring the coverage of a wireless network; typically a higher Min RSRP indicates better network coverage and a stronger, more stable signal. This is particularly important to ensure reliable data transmission and reception, minimize the risk of connection interruptions, and optimize the overall performance of 5G(NR) networks. The specific Min RSRP value in an existing network may vary depending on the network configuration, deployment scenario and service provider. Depending on factors such as population density, urban or rural environments, and the specific use cases they cater to, different regions and operators may have different Min RSRP requirements.
Ⅳ.Min RSRP and User Experience Setting and maintaining Min RSRP levels is critical to ensuring a consistent and high-quality user experience in 5G networks. It helps prevent issues such as signal degradation, dropped connections, and slow data speeds, all of which are important considerations for delivering reliable and efficient 5G services. In addition, a robust RSRP ensures that the 5G network can effectively support applications that require low latency and high data rates, such as augmented reality, virtual reality and critical industrial automation.