NTT Docomo和庆应义塾大学通过低延迟切片和配置资助实现了5G上稳定的高保真机器人远程作，实现了实时触摸反馈。 NTT Docomo and Keio University achieved stable, high-fidelity robot teleoperation over 5G using low-latency slicing and Configured Grant, enabling real-time touch feedback.

通过使用低延迟切片和配置授权技术的商业5G网络, NTT Docomo和凯奥大学实现了世界上第一个稳定,高保真的机器人远程操作. NTT Docomo and Keio University have achieved the world’s first stable, high-fidelity robot teleoperation using a commercial 5G network with low-latency slicing and Configured Grant technology. 该系统能够实时传输触摸感,如阻力和质感,通过预先分配网络资源,减少潜伏和紧张。 The system enables real-time transmission of touch sensations like resistance and texture, reducing latency and jitter by pre-allocating network resources. 这一突破使得即使在拥挤的情况下也能够精确、可靠地遥控机器人,从而克服过去的无线限制。 This breakthrough allows precise, reliable remote control of robots even under congestion, overcoming past wireless limitations. 该演示证实了手术、灾害应对和工业应用的实际可行性。 The demonstration confirms practical viability for applications in surgery, disaster response, and industry. 将在2026年巴塞罗那的MWC展示成果,并计划进一步开发技术,供现实世界使用。 Results will be shown at MWC Barcelona 2026, with plans to further develop the technology for real-world use.