信道容量

  • 网络Channel capacity
信道容量信道容量
  1. 多普勒频移对CDMA系统信道容量影响的分析

    Analysis of Doppler Shift Effect on Channel Capacity of CDMA System

  2. OFDM系统最大信道容量时域均衡算法研究

    Study on Time Domain Equalization for Maximizing Channel Capacity in OFDM System

  3. 衰落相关对分布式MIMO信道容量的影响

    Effect of Fading Correlation on Channel Capacity of Distributed MIMO Systems

  4. 双向中继对秩亏MIMO信道容量的影响

    Impact of Bi-directional Relays on the Capacity of Rank-Deficient MIMO Channels

  5. 基于最小速率的MIMO多接入信道容量和最优功率分配策略

    Minimum-Rate Capacity and Optimal Power Allocation for MIMO Fading Multiaccess Channels

  6. 天线阵结构对非视距室内MIMO信道容量的影响

    Antenna Array Structures Effect on Capacity of Indoor NLOS MIMO Channel

  7. 多径衰落下基于多码检测的多天线CDMA信道容量分析

    Capacity of MIMO CDMA Based on Multi-Code Detection under Multi-Path Fading Channel

  8. MIMO系统各态历经信道容量的分析与仿真

    Analysis and simulations for ergodic capacity channel of MIMO systems

  9. 单声线水声MIMO信道容量的研究

    Study of the underwater acoustic MIMO capacity for single sound path channel

  10. 天线相关性对莱斯衰落下的MIMO相关信道容量的影响

    Effect of antenna correlation on MIMO correlated channel capacity under Rice fading

  11. 极化分集时MIMO系统的信道容量

    Channel Capacity of MIMO Wireless Systems in the Presence of Polarization Diversity

  12. 分布式MIMO系统天线选择对信道容量的影响

    The Effect on Channel Capacity of Antenna Selection in Distributed MIMO System

  13. 用椭圆模型分析微小区MIMO信道容量

    Analysis of the MIMO Channel Capacity of Micro-Cell Using Elliptical MIMO Channel Model

  14. MIMO系统中空时分组编码的信道容量

    Channel Capacity of Space-Time Block Codes in MIMO System

  15. 基于OFDM的宽带MIMO信道容量研究

    Capacity of broad - band OFDM-based MIMO systems

  16. 基于MIMOOFDM技术的无线局域网信道容量研究

    WLAN Channel Capacity Investigation Based on MIMO_OFDM Technology

  17. 分布式无线通信系统的MIMO信道容量研究

    MIMO Channel Capacity for Distributed Wireless Communication System

  18. MIMO中继信道容量分析

    Capacity of MIMO Relay Channel

  19. MIMO系统的信道容量分析

    Analysis of MIMO Channel Capacity

  20. 仿真结果表明,采用多根天线的MIMO技术确实具有成倍增加信道容量的潜力。

    Simulation results reveal that MIMO using multiple antennas surely has the potential to multiple channel capacity .

  21. MIMO技术在提高信道容量和信道可靠性的同时OFDM提高了系统的频带利用率。

    MIMO Technique can improve capacity and reliability of channels , while OFDM can improve utilization of frequency-band .

  22. 但早期的3G标准都是上下行信道容量基本对称的系统,存在严重技术缺陷。

    Initial 3G standards are the systems of symmetric up / down-link capacity , existing serious technical limitations .

  23. 根据其数学模型,分析了MIMO系统的信道容量,并与一些典型系统进行了对比。

    Compared with some typical systems , the results of channel capacity analysis of MIMO channel are given .

  24. 多用户MIMO-OFDM系统低速率CSI反馈方法及信道容量分析

    Low Rate CSI Feedback and Capacity Analysis in Multiuser-MIMO-OFDM System

  25. 本文由MIMO无线通信信道容量的表达式,给出一种估算式。

    A new approximate expression for the argotic capacity of multiple-input multiple-output ( MIMO ) wireless channels is presented .

  26. Turbo码以其接近信道容量的纠错能力而在卫星通信中有广阔的应用前景。

    For its near Shannon limit error correcting capability , Turbo codes may be suitable for satellite communication systems .

  27. 其次,介绍了MIMO技术及其信道容量和空时编码的基本概念和分类;

    Next , basic principles and capacity of MIMO , the theory of space-time block codec are presented in detail ;

  28. MIMO可以线性地提高系统的信道容量,突破了单输入单输出信道的仙农容量极限。

    MIMO can linearly increase the volume of the system , breaks through the traditional Shannon Limit of SISO channel .

  29. MIMO技术可以在不增加发射功率与系统宽带的前提下,大幅度地提高系统的信道容量与频谱利用率。

    Without increasing the transmit power and system bandwidth , MIMO technology can greatly improve channel capacity and spectral efficiency .

  30. MIMO-OFDM信道容量特性及仿真分析

    Characteristics and emulation analysis of MIMO-OFDM channel capacity