ZTE Corporation, a renowned entity in the ICT industry, has proudly introduced the first AI-enabled immersive communication prototype, leveraging the U6G band. This innovation achieves instantaneous ‘co-presence’ and multi-sensory interaction for participants across diverse locations, symbolizing a pivotal shift from traditional audio-visual connections to a fully immersive 3D experience.

Recognized for pushing technological boundaries, ZTE has redefined the interactive paradigm by upgrading traditional communication to multi-sensory synergy. This includes visual, auditory, and tactile integration, realized through precision haptic gloves. Attendees of the live demonstration experienced photorealistic 3D environments where they engaged with remote participants’ real-time expressions and actions. The technological advancement enables interactions like remote handshakes and collaborative tasks via the U6G network.

A groundbreaking leap in 6G core technology, the U6G band (6425–7125 MHz) hosts ZTE’s new 6G GigaMIMO prototype equipped with over 2000 antenna elements. This prototype validates its capacity to support ultra-HD video and multi-agent collaboration—cornerstones for future immersive services.

ZTE’s solution is underpinned by deep AI integration, optimizing communication for ultra-low latency and synchronized multi-sensory data even in high-demand environments. The system’s capability to produce real-life quality 3D digital humans in mere seconds marks an exponential improvement in computational efficiency, previously constrained by time-intensive modeling.

As immersive communication redefines human interaction, ZTE is dedicated to harnessing AI’s potential to boost innovation across sectors such as education, healthcare, and industrial collaboration. This initiative pledges to bridge socio-economic divides by transcending spatial limits to share resources inclusively and liberally. ZTE continues to collaborate globally, striving for the harmonious coexistence of humans and intelligent agents, shaping the future landscape of human-machine interaction.