subchannel

网络  次通道; 子频道; 子信道; 子通道; 副航道

计算机



双语例句

  1. The disadvantage is that the System z I/ O architecture specifies that only one I/ O operation can be active at any time on a specific target device ( UCB or DASD subchannel).
    缺点是,SystemzI/O架构规定,一个特定的目标设备(UCB或DASD子通道)上每次只能有一个活动的I/O操作。
  2. After this, the clients interact directly with the partitions and even keep this routing table up to date through subchannel interactions during the normal transaction process.
    然后,客户机与分区直接交互,并通过普通事务过程中的子通道交互及时更新这个路由表。
  3. Optimal subchannel, rate and power allocation for OFDM-based two-tier Femtocell networks
    基于OFDM的双层Femtocell网络中子信道、速率和功率的最优分配
  4. Research on Application of Subchannel Power Control in the DT-OFDM System for Satellite Communications in Ka Band
    子信道功率控制在Ka频段DT-OFDM系统中的应用研究
  5. Variable-rate algorithm of subchannel based on multi-user diversity MIMO-OFDM system
    多用户MIMO-OFDM系统的子信道可变速率算法
  6. Study of Spacial Subchannel in MIMO/ OFDM Based on User Fairness
    基于用户公平性的MIMO-OFDM空间子信道分配算法
  7. Good properties of wavelet packet functions ensure that the system can suppress multipath interference, inter subchannel interference ( ICI) and multiple access interference ( MAI) effectively.
    小波包函数的一系列优良性质,使系统能有效地抗多径干扰,抑制子信道串扰、多址干扰等。
  8. A novel adaptive subchannel allocation algorithm is proposed for multi-user MIMO-OFDM system.
    针对多用户MIMO-OFDM系统,提出自适应子信道分配算法。
  9. Using the new subchannel SNR definition, I derive a nonlinear function of TEQ taps that measures channel capacity. Based on the nonlinear function, I propose the optimal maximum-bit-rate ( MBR) TEQ and near-optimal minimum-ISI ( Min-ISI) method.
    利用此定义推出关于TEQ抽头的信道容量非线性函数,进而提出基于此非线性函数的最优最大比特率(MBR)TEQ算法,和次最优Min-ISI算法。
  10. Single-pass mixed lattice method and chan-2 code for subchannel analysis of reactor
    反应堆子通道分析中的一步混合网方法及CHAN-2程序
  11. Subchannel allocation algorithm for adaptive orthogonal frequency division multiplexing system
    一种自适应正交频分复用系统的子载波分配算法
  12. A new pre coding structure for Filtered Multitone ( FMT) is designed according to the minimum mean square error ( MMSE) criterion, while the precoding is performed on a per subchannel basis.
    提出滤波多音调制(FMT)中的一种分数间隔预编码技术,给出了基于最小均方误差准则(MMSE)的分数间隔子信道滤波器设计。
  13. In order to deduce the transmitter complexity and the impact caused by non-linearity, we introduce antenna selection into the subchannel allocation algorithm and propose a joint adaptive subchannel allocation and antenna selection algorithm.
    为了降低发送端的硬件复杂度以及非线性因素的影响,将自适应信道分配和发送天线选择相结合,提出联合自适应子信道分配和天线选择算法。
  14. Joint Spreading Sequence and Subchannel Dynamic Allocation in Multicarrier CDMA System
    多载波码分多址系统联合特征码与子信道动态分配
  15. On the basis of traditional TEQ design structure and algorithm, the important is to present the equalizer design that maximizes channel capacity of a DMT system, meanwhile develop a subchannel Signal-to-Noise Ratio ( SNR) model.
    在分析传统TEQ设计算法和结构的基础上,重点提出最大信道容量的DMT系统均衡器设计算法,进一步提出新的子信道SNR模型。
  16. In broadband Orthogonal Frequency Division Multiplexing ( OFDM) system over mobile fading channels, each individual subchannel has its own attenuation, which has different channel capacity.
    在宽带移动OFDM(正交频分复用)系统中,不同的子信道经受不同的信道衰落,具有不同的传输能力。
  17. Spatial subchannels in multiuser multiple-input multiple-output/ orthogonal frequency-division multiplexing ( MIMO/ OFDM) systems were invested. With the goal of maximizing overall data throughput the criteria of subcarrier allocation was derived and an adaptive spatial subchannel allocation algorithm was proposed.
    对多用户MIMO/OFDM系统空间子信道进行了研究,以获取最大的系统吞吐量为目标,推导了子载波分配准则,提出了一种自适应空间子信道分配算法,并给出了相应的算法流程。
  18. In the multi-carrier modulation of DMT communication system, both time domain and frequency domain equalizers are used to compensate for the magnitude and phase distortion within each subchannel.
    在多载波DMT通信系统中,同时采用时域均衡器和频域均衡器来补偿各个子信道的幅度和相位失真。
  19. Design of subchannel;
    子通道设计;
  20. In adaptive we propose an algorithm that performs joint subchannel and power allocation.
    在自适应过程中,用到了子信道和功率联合分配算法。
  21. Adaptive Subchannel Allocation for MC-CDMA System
    自适应子信道分配的多载波CDMA系统
  22. Nonuniform Subchannel Divided for Discrete Multicarrier Modulation
    离散多载波调制中信道的非均匀分割
  23. It proposes an improved Dynamic Frequency Selection scheme, in which traffic allocation unit and scheduling information delivery are selected by subchannel domain, modulation and coding domain, subcarrier domain.
    提出了一种优化的动态频率选择方案,该方案是对资源分配单元和调度信息传递在子信道域、调制编码域和子载波域的三维选择。
  24. By using an auction, radio resource such as subchannel, time slot and transmit power can be allocated rationally.
    通过拍卖,子信道、时隙、传输功率等这些无线资源可以得到合理的分配。
  25. Therefore, the dissertation then focuses on the subchannel frequency domain equalization algorithms in FMT system.
    因此,论文随后重点研究了FMT系统的子信道频域均衡算法。
  26. Compared with the traditional method where each subchannel selects modulation scheme independently, the novel selection scheme can achieve higher throughput and use less signaling bits.
    相比传统的各个子信道独立选择调制方式的方法,该算法可以使用较少的信令实现较高的吞吐量性能。
  27. However, the output of the OFDM system is the superposition of the subchannel signals, among which the orthogonality strict requirs.
    然而,OFDM系统的输出信号是多个相互覆盖的子信道的叠加,它们之间的正交性有严格的要求。
  28. After the combination of MIMO with OFDM, MIMO can be applied in every subchannel, and the degrees of freedom in frequency, space and user domain can be obtain simultaneously, which promote the system performance greatly.
    在多用户移动通信系统中将OFDM与MIMO相结合,可在OFDM的每个子信道上进行MIMO处理,获得频域、空域和用户域的自由度,带来巨大的性能提升。
  29. The proposed algorithm takes into account the constraints of subchannel maximum transmit power and the minimum target signal to interference plus noise ratio ( SINR), so as to maximize the energy efficiency. And the power control problem is solved by augmented Lagrange multiplier method.
    该算法考虑子信道最大发射功率、最小目标信干噪比(SINR,SignaltoInterferenceplusNoiseRatio)等约束条件,以最大化能量效率为目标,并通过增广拉格朗日乘子法进行求解。