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IEEE PIMRC 2021 : Workshop on eXtended Reality (XR) for 5G and Beyond (5G-XR Pro) | |||||||||||||
Link: https://pimrc2021.ieee-pimrc.org/workshop-on-extended-reality-xr-for-5g-and-beyond-5g-xr-pro/ | |||||||||||||
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Call For Papers | |||||||||||||
Submission link: https://edas.info/N28429
SCOPE eXtended Reality (XR) is an umbrella term that brings AR (Augmented Reality), VR (Virtual Reality) and MR (Mixed Reality) under one term. XR is expected to become a new killer application in the 5G era and it is predicted that there will be over 100 million XR users by 2025 and 1 billion by 2030. Within 3GPP, many XR use cases have been identified such as 3D messaging, immersive 6DoF, immersive online gaming, remote assistance, real-time 3D communication, online shopping, and holographic communication. A common feature of these XR applications is the Real-Time Broadband Communication (RTBC). For example, growing resolution and frame rate will increase the downlink rate from 50~100 Mbps to 0.5~1 Gbps, and for strong-interaction applications and cloud rendering, the latency will be lowered from 100 ms to 5~10 ms. Furthermore, holographic communication requires nearly 50~100 Gbps peak rate and ms-level latency. Obviously, XR poses higher requirements of both capacity and latency on 5G networks and drives the evolution of 5G technologies. This workshop will mainly consider the air interface technologies which may help achieve the requirements for these XR applications. This workshop provides the opportunity for attendees from both academia and industry to exchange views on advanced XR technologies for 5G and beyond. TOPICS OF INTEREST (including but are not limited to) XR quality evaluation metric/methodology Use cases, requirements, and standardization of 5G XR in 3GPP Coordination and cross-layer design for 5G XR Unequal error protection (UEP) techniques QoE or source aware based transmission Multi-stream transmission with different QoS requirements Time sensitive scheduling with broadband transmission for 5G Machine learning based video transmission Joint source and channel coding XR including AR/VR/MR mobility Advanced power saving techniques for XR devices Low-complexity advanced scalable video coding for XR Holographic and haptic communication GENERAL CHAIRS Dr. Peiying Zhu, Huawei Technologies, Canada Prof. Eckehard Steinbach, Technical University of Munich, Germany TPC CHAIRS Prof. Ning Wang, University of Surrey, UK Mr. Shaobo Wang, Huawei Technologies, China INVITED TALKS On the Challenges of Delivering Next-Generation XR Applications in the Internet, by Dr. Gwendal Simon, Huawei France Networking for Holographic Teleportation Applications, by Prof. Ning Wang, University of Surrey, UK Optimal Wireless Streaming for 360 VR Video, by Prof. Ying Cui, Shanghai Jiao Tong University, China TPC MEMBERS Hwan-Joon (Eddy) Kwon, Senior Director at Qualcomm Chi-Hsuan Hsieh, Research Expert at MediaTek Gwendal Simon, Research Expert at Huawei Ying Cui, Professor at Shanghai Jiao Tong University Liang Zhou, Professor at Nanjing University of Posts and Telecommunications Shengyue Dou, Research Expert at Huawei Wei Zhang, Professor at Xidian University Yuejun Wei, Research Expert at Huawei |
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