搜索资源列表
MIMO-SNR
- MIMO信道容量,可以计算天线数变化时的遍历容量,并且发射端未知CSI。-erodic capacity vs snr
MIMO-ol-cl
- 可以计算和比较MIMO开环和闭环系统的信道容量,可以看出闭环比开环系统更大的容量。-ol vs cl comparison
mimo
- 在不同信噪比下,对几种典型系统(MIMO)进行系统容量的仿真-At different signal-to-noise ratios, several typical systems (MIMO) are simulated for system capacity
sucre-protocol-master
- MIMO(Multiple-Input Multiple-Output)技术指在发射端和接收端分别使用多个发射天线和接收天线,使信号通过发射端与接收端的多个天线传送和接收,从而改善通信质量。它能充分利用空间资源,通过多个天线实现多发多收,在不增加频谱资源和天线发射功率的情况下,可以成倍的提高系统信道容量,显示出明显的优势、被视为下一代移动通信的核心技术。(MIMO (multiple-input multiple-output) technology refers to the transmit
tianxian
- mimo 天线选择对信道容量的影响,降序天线选择方法,(The influence of MIMO antenna selection on channel capacity, and the method of descending antenna selection)
Capacity Analysis of NOMA
- Dr. Zhang发表的一篇关于《毫米波大规模MIMO系统中NOMA的容量分析》,这篇文章中将NOMA,毫米波和大规模MIMO技术进行了融合,并且讨论了系统容量的增量。(the Capacity Analysis of NOMA With mmWave Massive MIMO Systems is mainly talk about the combining of NOMA, mmWave and massive MIMO into the converged systems, at the
MIMO_Detection
- 实现MIMO检测 MIMO(Multiple-Input Multiple-Output)技术指在发射端和接收端分别使用多个发射天线和接收天线,使信号通过发射端与接收端的多个天线传送和接收,从而改善通信质量。它能充分利用空间资源,通过多个天线实现多发多收,在不增加频谱资源和天线发射功率的情况下,可以成倍的提高系统信道容量,显示出明显的优势、被视为下一代移动通信的核心技术(The technology refers to transmitting and receiving antennas a
MIMOchannel matlab
- 很经典的关于mimo信道模型和信道容量的源码(Very classic about MIMO channel model and channel capacity of the source code)
capasity of SCM
- 该文件建立了SCM信道模型,并且分析了SCM信道容量(set up the SCM channel model, and analyse the capacity of the SCM channel model)
CH2
- 此程序记录了不同状况下的MIMO系统容量的计算方法(This procedure records the calculation of MIMO system capacity under different conditions)
ergodic capacities
- MIMO信道中中断概率为1%和10%的遍历容量编程(the 1% and 10% outage capacities for each of the antenna configurations specified in a) over the same SNR range)
waterfilling
- 在程序中,任意产生一个mimo的信道矩阵,分别使用注水法和等增益算法求出信道容量。结果得到子信道的功率分配,进行作图。(A channel matrix of MIMO is generated randomly, and the channel capacity is calculated by water filling algorithm and equal gain algorithm respectively. Power allocation of subchannels is o
MIMO_channel_cap_ant_sel_optimal
- MIMO系统中采用最优天线选择方案的MIMO信道容量(MIMO channel capacity using optimal antenna selection scheme in MIMO system)
MU_Taylor_23D_CdR
- 比较了2D MIMO 和3D MIMO中的信道容量,与简化的Taylor信道容量的对比(Comparing the channel capacity in 2D MIMO and 3D MIMO with the simplified Taylor channel capacity)
SU_DiffSNRThree2
- 比较了单用户情况下,3D MIMO的容量与Taylor简化的容量进行对比(Comparing the single-user case, 3D MIMO's capacity is compared to Taylor's simplified capacity)
Taylor_3D_SUMU_DR_Capacity
- 3D MIMO下,比较了单用户和多用户下Taylor简化的容量(In 3D MIMO, the simplified capacity of Taylor under single-user and multi-user comparison is compared)
MIMO_power_allocation
- 基于注水定理的MIMO最优功率分配实现信道容量的最大化(Optimal power allocation of MIMO based on water-filling scheme)
MIMO信道容量累计概率分布
- 2发2收,4发4收,MIMO信道容量累计概率分布中断容量和遍历容量。
OFDM-MIMO系统的simulink仿真
- MIMO技术可以大大提高信道容量及系统可靠性,OFDM技术则可以将有限的无线频谱资源更大化、更高效的利用。基于OFDM技术并采用多天线技术来对空间域资源进行合理利用,即OFDM-MIMO技术。OFDM-MIMO技术已经成为当今无线通信系统的关键技术。对OFDM-MIMO通信系统进行建模仿真,分析系统在信号传输过程中的性能将为我们更好的理解通信技术基本原理并把握通信领域的发展趋势。
MIMO信道仿真
- Matlab程序,仿真MISO,SISO,SOMI,MIMI容量和概率的关系