英语缩略词“SNIR”经常作为“Signal to Noise and Interference Ratio”的缩写来使用,中文表示:“信噪比和干扰比”。本文将详细介绍英语缩写词SNIR所代表英文单词,其对应的中文拼音、详细解释以及在英语中的流行度。此外,还有关于缩略词SNIR的分类、应用领域及相关应用示例等。
“SNIR”(“信噪比和干扰比)释义
- 英文缩写词:SNIR
- 英文单词:Signal to Noise and Interference Ratio
- 缩写词中文简要解释:信噪比和干扰比
- 中文拼音:xìn zào bǐ hé gān rǎo bǐ
- 缩写词流行度:23477
- 缩写词分类:Miscellaneous
- 缩写词领域:Unclassified
以上为Signal to Noise and Interference Ratio英文缩略词SNIR的中文解释,以及该英文缩写在英语的流行度、分类和应用领域方面的信息。
英文缩略词SNIR的扩展资料
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Using the technique the mixing vector of array elements must be exactly estimated so as to eliminate the interference user as possible, increase the signal to noise and interference ratio of the output signal and improve detection precision of the system.
在智能天线中需要确定估计阵元之间的组合权值以尽可能地抑制干扰,增大输出信号的信干噪比,提高系统的性能。
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The signal to noise ratio and signal to interference ratio is derived.
指出多波束DICANNE系统输出的信噪比、干扰噪声比。
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Combined the characteristics of TD-SCDMA, the corresponding algorithms based on Maximum Signal to Noise Ratio criterion and Maximum Signal to Interference and Noise Ratio criterion are investigated thoroughly.
结合TD-SCDMA系统的特点,深入研究了最大信噪比(MSNR)准则和最大信干噪比(MSINR)准则的下行波束赋形算法。
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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。
上述内容是“Signal to Noise and Interference Ratio”作为“SNIR”的缩写,解释为“信噪比和干扰比”时的信息,以及英语缩略词SNIR所代表的英文单词,其对应的中文拼音、详细解释以及在英语中的流行度和相关分类、应用领域及应用示例等。
