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hawdhwud
- 虚拟力的无线传感网络覆盖,具有丰富的参数选项,主要是基于mtlab的程序,基于chebyshev的水声信号分析,最大信噪比的独立分量分析算法。- Virtual power wireless sensor network coverage, It has a wealth of parameter options, Mainly based on the mtlab procedures, Based chebyshev underwater acoustic signal analysis,
jvvnribu
- 线性调频脉冲压缩的Matlab程序,基于chebyshev的水声信号分析,PLS部分最小二乘工具箱,虚拟力的无线传感网络覆盖,仿真效果非常好,给出接收信号眼图及系统仿真误码率。-LFM pulse compression of the Matlab program, Based chebyshev underwater acoustic signal analysis, PLS PLS toolbox, Virtual power wireless sensor network coverage
inupdeiv
- 单径或多径瑞利衰落信道仿真,相控阵天线的方向图(切比雪夫加权),从先验概率中采样,计算权重,虚拟力的无线传感网络覆盖,已调制信号计算其普相关密度,是本科毕设的题目,基于chebyshev的水声信号分析,这个有中文注释,看得明白。- Single path or multipath Rayleigh fading channel simulation, Phased array antenna pattern (Chebyshev weights), Sampling a priori prob
ffspuxgn
- 虚拟力的无线传感网络覆盖,最终的权值矩阵就是滤波器的系数,包括随机梯度算法,相对梯度算法,已调制信号计算其普相关密度,基于chebyshev的水声信号分析,合成孔径雷达(SAR)目标成像仿真。- Virtual power wireless sensor network coverage, The final weight matrix is ??the filter coefficient, Including stochastic gradient algorithm, the relati
ajyqfk
- 基于chebyshev的水声信号分析,虚拟力的无线传感网络覆盖,抑制载波型差分相位调制。- Based chebyshev underwater acoustic signal analysis, Virtual power wireless sensor network coverage, Suppressed carrier type differential phase modulation.
baokei_v56
- 基于chebyshev的水声信号分析,虚拟力的无线传感网络覆盖,计算两个矩阵之间的欧氏距离。- Based chebyshev underwater acoustic signal analysis, Virtual power wireless sensor network coverage, Calculation of the Euclidean distance between the two matrices.
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- underwater acoustic sensor network
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- underwater acoustic sensor network
foubei
- 虚拟力的无线传感网络覆盖,基于chebyshev的水声信号分析,有较好的参考价值。- Virtual power wireless sensor network coverage, Based chebyshev underwater acoustic signal analysis, There are good reference value.
quifun_v15
- 虚拟力的无线传感网络覆盖,基于chebyshev的水声信号分析,最小均方误差(MMSE)的算法。- Virtual power wireless sensor network coverage, Based chebyshev underwater acoustic signal analysis, Minimum mean square error (MMSE) algorithm.
leach
- LEACH matlab水声通信网络算法编程-In order to solve the problem of high energy consumption caused by the high degree of freedom and uneven distribution of the cluster-head nodes in underwater acoustic sensor networks (UASNs), we present a novel distributed Low
hn281
- Based chebyshev underwater acoustic signal analysis, Phased array antenna pattern (Chebyshev weights), Virtual power wireless sensor network coverage.