5G KPIs, or Key Performance Indicators, are metrics used to measure the performance of a 5G network. They are important for ensuring that the network is meeting the needs of its users and that it is able to support the latest 5G use cases
✅1.Data throughput: This is the maximum amount of data that can be transferred over the network in a given amount of time. 5G networks are capable of much higher data throughput than 4G networks, with theoretical peak speeds of up to 100 Gbps. This means that 5G networks can support a wider range of applications, including streaming high-definition video, downloading large files.
✅2.Latency: This is the time it takes for a data packet to travel from one point to another on the network.
✅3.Reliability: This is the likelihood that a data packet will be successfully delivered without errors. Reliability is important for all applications, but it is especially important for mission-critical applications, such as medical imaging and financial trading. 5G networks are designed to be more reliable than 4G networks, with a target reliability of 99.999%.
✅4.Availability: This is the percentage of time that the network is available for use. it is especially important for business-critical applications. 5G networks are designed to be more available than 4G networks, with a target availability of 99.9%.
✅5.Energy efficiency: This is the amount of energy consumed by the network per unit of data transferred. 5G networks are designed to be more energy-efficient than 4G networks, with a target energy efficiency of 100%.
✅6.Packet loss: This measures the percentage of data packets that are not successfully delivered to their destination.
✅7.Jitter: This measures the variation in the time it takes for data packets to travel from one point to another on the network.
✅8.User experience: This measures the overall quality of the user experience on the network, taking into account factors such as latency, throughput, and reliability.
✅9.Security: This measures the ability of the network to protect user data from unauthorized access or use.
✅10.Time synchronization error: The maximum absolute time difference between IoT sensors and cloud applications
✅11.Request timeout error: When cloud application gives time out error due to packet loss or latency
✅12.Incoming frame rate from Network: Average estimated number of frames that are received
✅13.Decoding frame rate: Average number of decoded frames in the client
✅14.Average receive time: Average time that an encoded frame needs to be completed since the first packet was sent from the server
✅15.Average decoding time: Average time that a reassembled frame needs to be decoded in the client
✅16.Video feed latency: Live feed transmission latency
✅17.Video resolution: Indicates the resolution at which video is rendered.
