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On April 21st, the 2026 Global 6G Technology and Industry Ecosystem Conference opened in Nanjing. As a platform for the transformation of 6G technologies and the incubation of industrial technologies, the Purple Mountain Group, a subsidiary of New Industry Group, jointly with investment and incubation enterprises such as Ziwemei Technology and Zijinxingyu, focused on the main line of “technology verification and scenario incubation”. At this conference, they showcased 5 landmark application scenarios, aiming to verify the key technical indicators of 6G through practical scenarios, and provide scientific basis for future investment in 6G industries and the industrialization of technologies.
I. 6G Technology + Low-altitude Airway Holographic Sand Map Scenario: Establishing a 6G Low-altitude Sensing and Control System
In response to the airspace management challenges brought about by the explosive growth of the low-altitude economy, this scenario has created a 6G low-altitude airway holographic sand map in the pilot flight segment of “Sand Ship to Purple Mountain Science and Technology City”. It deeply integrates the 6G millimeter-wave sensing and communication integrated private network and high-precision positioning capabilities, enabling full-process real-time monitoring of the flight status of unmanned aircraft and 3D airway autonomous intelligent planning. This effectively addresses the pain points of insufficient positioning accuracy and high dependence on manual operation in traditional models, and builds a “sensing and communication integrated” low-altitude traffic management model. This application systematically verifies core indicators such as high concurrent access of equipment, enhanced uplink large bandwidth, and millisecond-level low latency transmission, establishing the implementation path of the “communication – sensing – computing” integrated technology. The future value lies in providing a solid network foundation for the large-scale development of the low-altitude economy, as well as providing a replicable model for the safe management and digital intelligence upgrade of urban air traffic. It is a key support for promoting the low-altitude economy from “taking off” to “being managed and operated well”.
II. 6G Technology + Holographic Remote Live Streaming Scenario: Reconstructing the “Unbounded” Communication Experience of Cross-Domain Interaction
To break through the limitations of time and space, this scenario constructs a cross-regional holographic remote live streaming scenario based on 6G technology between Beijing and Nanjing. Relying on 6G millimeter-wave wireless networks and deterministic CENI networks, real-time holographic presentation of 4K ultra-high-definition images from the collection end in Beijing to the display end in Nanjing is achieved, with the end-to-end latency controlled within 800 milliseconds. By creating an immersive remote interaction experience, it directly compares and highlights the overwhelming advantages of the 6G technology network in ultra-high-definition quality and low latency, breaking the communication barriers of traditional two-dimensional screens. This application effectively validates the advantages of the 6G technology network in terms of large bandwidth deterministic transmission, anti-weak network encoding and decoding, and low-latency dynamic frame tracking technology. It not only provides a new technical path for remote medical care, remote education, and high-end business meetings, but also verifies the advanced nature of 6G in supporting ultra-high-definition holographic communication, breaking geographical barriers, and reconstructing remote collaboration models.
III. 6G Technology + 8K VR Immersive Conference Experience Scenario: Unleashing a New Era of Panoramic Interaction
Focusing on the pain points of traditional exhibitions such as “weak sense of participation in different locations” and “flat information transmission”, this scenario deployed a 6G technology + VR + 8K immersive conference system at the main venue of the Shanghai Qinhuai International Cultural Exchange Center. Through the cooperation of 8K panoramic cameras and the 6G millimeter wave private network, real-time 360° capture of the conference site and immersive presentation on VR terminals were achieved. The end-to-end transmission delay was as low as millisecond level, allowing remote participants to experience the immersive feeling of “being present at the scene”, changing the traditional one-way viewing mode of meetings. This application successfully verified the technical capabilities of the 6G millimeter wave network in stable transmission of ultra-large bandwidth (Gbps), multi-path concurrent access, and deterministic low latency. In the future, it has significant value in promoting the transformation from “flat viewing” to “immersive experience”, and reconstructing the forms of exhibitions, live events, and education training industries.
IV. 6G Technology + AIEDGE Football Goalkeeper Scenario: Efficient Integration of Communication and AI Edge Computing Power
To visually demonstrate the control capabilities of 6G technology over the dynamic physical world, this scenario employs the 6G technology + AIEDGE football goalkeeper robot system, creating a complete process from capturing high-speed shots to the mechanical arm’s millisecond-level rescue. Utilizing the large bandwidth and low latency characteristics of millimeter wave communication, it achieves a millisecond-level response of “high-speed visual acquisition – edge preprocessing – AI trajectory prediction – real-time motion control”, vividly demonstrating the extreme speed and precise control of human-machine collaboration. This application, as a typical “high real-time + strong closed-loop control” scenario, effectively validates the characteristics of 6G millimeter wave technology in ultra-low air latency, large uplink bandwidth, edge AI computing power, and high-reliability transmission. This technological breakthrough not only showcases the application potential of 6G + AI in intelligent sports, but also provides key technical validation for future vertical industries such as industrial automation, remote precision surgery, and operations in dangerous environments that are extremely sensitive to latency. It is a crucial step towards achieving “the intelligent connection of all things”.
V. 6G Technology + Intelligent Traffic Signal System Scenario: Integrated Development of Vehicle, Road and Cloud for Smart Connectivity Support
In response to the challenges of limited traditional fiber deployment and insufficient stability of wireless networks in intelligent transportation, this scenario has established a millimeter-wave high-bandwidth wireless network demonstration zone in the Purple Mountain Science City. By leveraging the large bandwidth and low latency advantages of millimeter-wave technology, it enables real-time transmission of traffic signal data within milliseconds (<20ms) and implements networked transformation. It constructs a highly reliable and secure transportation neural network. This application validates the beamforming capability, link tracking stability, and physical one-way transmission security mechanism of millimeter-wave in complex urban scenarios. The future value lies in providing a low-cost and highly reliable roadside communication solution for the “vehicle-road-cloud integration” national strategy, effectively supporting the large-scale application of autonomous driving and the digital and intelligent transformation of smart city traffic governance. It is an indispensable “nerve ending” for building future intelligent transportation infrastructure.
