"China now has a nationwide standalone 5G network. Unlike the non-standalone variants that have been rolled out in many European countries, standalone 5G runs entirely on a new 5G core and is no longer dependent on existing 4G infrastructure. This enables lower latency, network slicing, and more efficient processing of large data streams. These characteristics are essential for the large-scale deployment of AI applications."
"According to Ekholm, this technical foundation gives China a strategic advantage. Companies can develop and roll out new applications more quickly, based in part on compact language models that run locally or in edge environments. This shortens the step from experiment to widespread implementation. In Europe, this development is slower because the network infrastructure has been modernized to a lesser extent."
"The emergence of new devices and AI-driven hardware is significantly increasing the pressure on telecom networks. Think of augmented reality glasses that continuously process and stream real-time information, or industrial applications in which sensors and AI models permanently exchange data. Such scenarios require stable connections with high capacity and minimal latency."
China maintains a technological lead in 5G deployment through its nationwide standalone 5G network, which operates independently of 4G infrastructure and enables lower latency, network slicing, and efficient data processing. This foundation accelerates AI application development and deployment compared to Europe's non-standalone 5G variants. The emergence of AI-driven hardware, including augmented reality devices and industrial sensors, creates unprecedented demands on telecom networks requiring high capacity and minimal latency. Telecom providers including Ericsson and Nokia are developing next-generation 6G technology specifically designed for AI-intensive workloads, recognizing that future networks must be optimized beyond speed alone.
Read at Techzine Global
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