Optimal scattering devices location for multi-user MIMO beamforming.

机译：多用户MIMO波束成形的最佳散射设备位置。

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This report investigates optimal scattering devices location in a Multiple-Input Multiple-Output (MIMO) wireless deterministic channel using a transmitter beamforming technique. The purpose of this study is to find the best location for the active scatter elements in a defined system so that the wasted power is eliminated while the power at the desired receiver antenna is maximized. The transmitter beamforming technique is employed to control the radiated power dedicated to the desired specific location with 40dBm suppression to the other undesired receiver antennas. We built a line of sight (LOS) channel model then chose the best scatter location to complete the system with convex optimization solver (CVX) at the transmitter antennas. The composite transfer function (CTF) along with the channel state information (CSI) generates orthogonal beams which are sent to the receiver antennas. This process allows for frequency reuse at the same time. A multi-user MIMO system is implemented with Quadrature Phase Shift Keying (QPSK) modulation with all signals transmitted with the same frequency and at the same time. The Bit Error Rate (BER) performance is analyzed with the use of MATLAB.

机译：该报告调查了使用发射器波束成形技术在多输入多输出（MIMO）无线确定性信道中的最佳散射设备位置。这项研究的目的是在定义的系统中找到有源散射元件的最佳位置，以便消除浪费的功率，同时最大化所需接收器天线的功率。使用发射机波束成形技术来控制专用于所需特定位置的辐射功率，同时抑制其他不希望的接收机天线40dBm。我们建立了视线（LOS）信道模型，然后选择最佳散射位置，以在发射器天线处使用凸优化求解器（CVX）来完善系统。复合传递函数（CTF）与信道状态信息（CSI）一起生成正交波束，该波束被发送到接收器天线。此过程允许同时重复使用频率。通过正交相移键控（QPSK）调制实现多用户MIMO系统，所有信号均以相同的频率和时间发送。使用MATLAB分析了误码率（BER）性能。

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作者
Lu, Xueying.;
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California State University, Long Beach.;

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授予单位 California State University, Long Beach.;
学科 Electrical engineering.;Communication.;Environmental engineering.
学位 M.E.E.
年度 2016
页码 62 p.
总页数 62
原文格式 PDF
正文语种 eng
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专利

1. Optimal Design of Energy-Efficient Multi-User MIMO Systems: Is Massive MIMO the Answer? [J] . Bjornson Emil, Sanguinetti Luca, Hoydis Jakob, Wireless Communications, IEEE Transactions on . 2015,第6期

机译：节能的多用户MIMO系统的优化设计：大规模MIMO是否是答案？
2. Optimum Power Allocation for Single-User MIMO and Multi-User MIMO-MAC with Partial CSI [J] . Soysal A., Ulukus S. IEEE Journal on Selected Areas in Communications . 2007,第7期

机译：具有部分CSI的单用户MIMO和多用户MIMO-MAC的最佳功率分配
3. Channel Estimation for Finite Scatterers Massive Multi-User MIMO System [J] . Vanidevi M., Selvaganesan N. Circuits, systems, and signal processing . 2017,第9期

机译：有限散射体大规模多用户MIMO系统的信道估计
4. Optimal Scattering Devices Location for Multi-User MIMO Beamforming [C] . Xueying Lu, Hen-Geul Yeh, Donald Chang IEEE International Systems Conference . 2020

机译：多用户MIMO波束成形的最佳散射设备位置
5. Feedback Reduction Techniques and Fairness in Multi-User MIMO Broadcast Channels with Random Beamforming. [D] . Pugh, Matthew Owen. 2011

机译：具有随机波束成形的多用户MIMO广播信道中的反馈减少技术和公平性。
6. User Oriented Transmit Antenna Selection in Massive Multi-User MIMO SDR Systems [O] . Shida Zhong, Haogang Feng, Peichang Zhang, 2020

机译：大规模多用户MIMO SDR系统中的用户导向发射天线选择
7. Optimal Design of Energy-Efficient Multi-User MIMO Systems: Is Massive MIMO the Answer? [O] . Björnson, Emil, Sanguinetti, Luca, Hoydis, Jakob, 2015

机译：节能的多用户MIMO系统的优化设计：大规模MIMO是否是答案？

Optimal scattering devices location for multi-user MIMO beamforming.

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