Dynamic Power Control for NOMA Transmissions in Wireless Caching Networks

Fu Yaru; Wen Wanli; Zhao Zhongyuan; Quek Tony Q. S.; Jin Shi; Zheng Fu-Chun

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Dynamic Power Control for NOMA Transmissions in Wireless Caching Networks

机译：无线缓存网络中NOMA传输的动态功率控制

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摘要

Non-orthogonal multiple access (NOMA) technique is capable of improving the efficiency of delivering and pushing contents in wireless caching networks. However, due to the differences of the data volume and the channel condition, the static power control schemes cannot fully explore the potential of NOMA. To solve this problem, dynamic power control for NOMA transmissions in wireless caching networks is studied in this letter, which can be adjusted based on the status of content transmissions. In particular, we focus on minimizing the transmission delay with the considerations of each user's transmission deadline and the total power constraint. An iterative algorithm is first proposed to approach the optimal solution of dynamic power control. Then a deep neural network (DNN)-based method is designed to keep a balance between the performance and the computational complexity. Finally, Monte-Carlo simulations are provided for verifications.

机译：非正交多址访问（NOMA）技术能够提高无线缓存网络中传递和推送内容的效率。然而，由于数据量和信道条件的差异，静态功率控制方案无法充分挖掘NOMA的潜力。为了解决这个问题，本文研究了无线缓存网络中NOMA传输的动态功率控制，可以根据内容传输的状态进行调整。特别地，我们专注于最小化传输延迟，同时考虑到每个用户的传输截止日期和总功率约束。首先提出一种迭代算法来逼近动态功率控制的最优解。然后，设计了一种基于深度神经网络（DNN）的方法，以在性能和计算复杂性之间保持平衡。最后，提供了蒙特卡洛模拟以进行验证。

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来源
《Wireless Communications Letters, IEEE》 |2019年第5期|1485-1488|共4页
作者
Fu Yaru; Wen Wanli; Zhao Zhongyuan; Quek Tony Q. S.; Jin Shi; Zheng Fu-Chun;
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作者单位

Singapore Univ Technol & Design Dept Informat Syst Technol & Design Singapore Singapore;

Southeast Univ Natl Mobile Commun Res Lab Nanjing 210096 Jiangsu Peoples R China;

Beijing Univ Posts & Telecommun Key Lab Universal Wireless Commun Minist Educ Beijing 100876 Peoples R China;

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正文语种 eng
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关键词
Content caching; deep learning approach; delay minimizing; NOMA; dynamic power allocation;

机译：内容缓存;深度学习方法;延迟最小化;诺玛动态功率分配;

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1. QoS-Oriented Dynamic Power Allocation in NOMA-Based Wireless Caching Networks [J] . Yue Yin, Miao Liu, Guan Gui, Wireless Communications Letters, IEEE . 2021,第1期

机译：基于NOMA的无线缓存网络中的QoS导向动态功率分配
2. Resource Allocation for Wireless Power Transmission Over Full-Duplex OFDMA/NOMA Mobile Wireless Networks [J] . Zhang Xi, Wang Fei IEEE Journal on Selected Areas in Communications . 2019,第2期

机译：通过全双工OFDMA / NOMA移动无线网络进行无线功率传输的资源分配
3. Energy Efficient Buffer-Aided Transmission Scheme in Wireless Powered Cooperative NOMA Relay Network [J] . Lan Xiaolong, Zhang Yongmin, Chen Qingchun, IEEE Transactions on Communications . 2020,第3期

机译：无线动力协作诺马继电器网络中的节能缓冲辅助传输方案
4. Resource Allocation for Wireless Power Transmission over Full-Duplex NOMA Mobile Wireless Networks [C] . Fei Wang, Xi Zhang IEEE Global Communications Conference . 2019

机译：全双工诺马马移动无线网络上无线电力传输的资源分配
5. Transmission Control Algorithms in Power-Controlled Wireless Ad Hoc Networks. [D] . Sadeghi, Pouriya. 2009

机译：功率控制的无线Ad Hoc网络中的传输控制算法。
6. RF Energy Harvesting and Information Transmission Based on NOMA for Wireless Powered IoT Relay Systems [O] . Ashish Rauniyar, Paal Engelstad, Olav N. Østerbø 2018

机译：基于NOMA的无线电力IoT中继系统的射频能量收集和信息传输
7. Joint Optimization on Trajectory, Cache Placement, and Transmission Power for Minimum Mission Time in UAV-Aided Wireless Networks [O] . Tingting Lan, Danyang Qin, Guanyu Sun 2021

机译：在UAV辅助无线网络中的最小任务时间的轨迹，缓存放置和传输功率的联合优化

Dynamic Power Control for NOMA Transmissions in Wireless Caching Networks

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