6G telecommunications network: The new race in the high-tech world | VTV24

6G Technology Overview and Capabilities
📌 6G aims to achieve terabit speeds and near-zero latency, creating an infrastructure that connects everything from the ground to space.
🌠 The technology moves beyond connecting people and machines to intelligent services, facilitating concepts like digital twins and spatial coverage expansion.
🤝 Key improvements over 5G include speeds potentially 100 times faster (up to 1 TB/second) and latency below 1 millisecond (ms), enabling real-time applications like remote surgery and autonomous vehicles.
🧠 Artificial Intelligence (AI) will serve as the coordinating brain of the 6G network, responsible for forecasting demand, allocating resources, and self-optimizing the system for stability and energy efficiency.

Core Technological Advancements
📡 6G leverages Terahertz (THz) waves for extremely high-frequency data transmission, requiring a denser infrastructure deployment than 5G.
👓 A core feature is the ability to create highly realistic virtual interactions (like the Doraemon 'Anywhere Door' concept) requiring synchronization accuracy beyond 5G capabilities.
🧍 The technology supports real-time digital replicas and ultra-precise virtual models, such as digital twins of the human body for remote healthcare.

Global Race and Geopolitical Implications
🇨🇳 China announced the completion of its first 6G testing phase, incorporating over 300 key technical advances, and plans to set international standards by 2027 and commercialize around 2030.
🇺🇸 The U.S. views 6G as a new national security infrastructure, promoting investment from companies like Qualcomm and building tech alliances with Japan, South Korea, and Europe to secure the supply chain and design capabilities for 6G chips.
🇰🇷 South Korea aims for trial commercialization around 2028, emphasizing AI-operated wireless networks and investing heavily in the Tera band and integrated Sensing models.
🇪🇺 The EU focuses on digital infrastructure autonomy through the 6G SNS program, aiming to reduce reliance on external equipment and maintain a proactive role in global standardization.

Industrial Applications and Implementation Examples
🏭 6G enables the realization of "lights-out factories" (fully automated facilities) with over 90% automation demonstrated in tests in Quanzhou, China.
☕ In Yunnan province, advanced machine vision integrated via high-speed networks precisely sorts specialty coffee beans by color, size, and defects.
🧪 Testing in Beijing includes the development of hologram communication prototypes and road testing robots, shifting focus from individual technologies to comprehensive scenario solutions.
📈 Industrial integration involves using smart sensors and IoT to optimize energy and materials, leading to increased processing efficiency and lower energy consumption in manufacturing.

Key Points & Insights
➡️ China has established the main technical directions for 6G, integrating it into its five-year development plan alongside AI and quantum technology.
➡️ The primary differentiator of 6G is the integration of AI as the network's core orchestrator and the utilization of Terahertz spectrum for massive data transfer.
➡️ The 6G race is fundamentally a competition to define global digital infrastructure leadership for decades to come, heavily intertwined with national security interests.
➡️ Key targets for global players include setting standards (China aiming for 2027) and achieving early commercialization (South Korea targeting 2028).

📸 Video summarized with SummaryTube.com on Jan 28, 2026, 15:09 UTC