[1] |
刘骏,常江,高杨 .5G 广播技术研究分析 [J]. 广播与电视技术,2019(5):25-28.
|
[2] |
RATKAJ D,MURPHY A. Definition of use cases. Requirements and KPIs,www.5g-xcast.eu/
|
[3] |
Prasad A,Uusitalo M A,Navrátil D,et al. Challenges for enabling virtual reality broadcast using 5G small cell network[C]//Proceedings of 2018 IEEE Wireless Communications and Networking Conference Workshops(WCNCW). Piscataway:IEEE Press,2018:220-225.
|
[4] |
薛凯心,李爽,曾庆军 . 5G NR 组播广播技术(二)——5G NR MBS 技术在应急广播及关键任务中的应用[J]. 广播与电视技术,2022(6):10-15.
|
[5] |
高杨,冯景锋 . 构建基于“5G 通信 +5G 广播”的智慧广电新型网络 [J]. 广播与电视技术,2020(1):12-18.
|
[6] |
张文军,黄一航,何大治,等 . 5G 高新视频的双频段协同传输 [J]. 中国传媒大学学报(自然科学版),2021(1):11-16.
|
[7] |
3GPP. Architectural enhancements for 5G multicast-broadcast services:TS 23.247 V17.4.0[S]. 2022.
|
[8] |
3GPP. Multimedia broadcast/multicast service(MBMS)improvements; MBMS operation on demand:TS 26.849 V12.0.0[S]. 2014.
|
[9] |
秦鹏太,李爱华,姜怡,等 . 5G-Advanced 核心网技术综述 [J]. 移动通信,2022(1):58-66.
|
[10] |
ARANITI G,RINALDI F,SCOPELLITI P,et al. A dynamic MBSFN area formation algorithm for multicast service delivery in 5G NR networks[J]. IEEE Transactions on Wireless Communications,2020,19(2):808-821.
|
[11] |
CARBALLO GONZÁ LEZ C,PUPO E F,RUISÁNCHEZ D P,et al. From MFN to SFN:performance prediction through machine learning[J]. IEEE Transactions on Broadcasting,2022,68(1):180-190.
|
[12] |
张宇,解伟 . 5G NR 组播广播综述 [J]. 广播与电视技术,2022(8):19-25.
|
[13] |
GONZÁLEZ C C,PUPO E F,MONTALBAN J,et al. Hybrid terrestrial-airborne connectivity for unicast/
broadcast services beyond 5G[C]//Proceedingsof2023 IEEE International Symposium on Broadband Multimedia Systems and Broadcasting(BMSB). Piscataway:IEEE Press,2023:1-6.
|
[14] |
HAN S,LI Z Q,WANG S J,et al. Non-Orthogonal Broadcast and Unicast Joint Transmission for multi-satellite joint communication[C]//Proceedings of 2023 IEEE International Symposium on Broadband Multimedia Systems and Broadcasting(BMSB). Piscataway:IEEE Press,2023:1-6.
|
[15] |
林宝军,李东俊,王欣刚,等 . 卫星广播电视加快实现天地一体化 [J]. 广播电视网络,2022(7):20-25.
|