1) amplitude resolution
幅度分辨率
1.
In this paper,at first we analyze the effect of the offset error in paper [1] on the input signal s spectra,then explain the principle of increasing the amplitude resolution,and derive the additional signal spectra representation with sinusoid input.
本文首先分析了文献[1]中的偏置误差对输入信号频谱的影响,说明了提高幅度分辨率的基本原理,然后推导出了输入信号为正弦信号时附加信号的频谱表达式,提出了两种提高该系统的幅度分辨率的方法。
2) pulse height resolution
脉冲幅度分辨率
3) amplitude resolution
幅值分辨率
4) RMA(radiometric multiresolution analysis)
幅度统计多分辨率分析(RMA)
5) MR-MQAM
多分辨率M进制正交幅度调制
1.
By using the moment-generating function-based analysis approach, the average Bit Error Rates(BER) for Multiresolution M-ary Quadrature Amplitude Modulation(MR-MQAM) in Multiple Input Multiple Output(MIMO) Nakagami fading channels is described.
使用矩生成函数方法分别推导了Nakagami衰落信道上多分辨率M进制正交幅度调制(MR-MQAM)的平均误比特率(BER)闭合表达式,发送和接收分别采用选择合并/最大比合并(SC/MRC)和正交空时分组编码(OSTBC)。
6) depth resolution
深度分辨率
1.
Discharge conditions at which depth profile analysis of tinplate had good depth resolution were selected by researching spectrometric behaviors of tinplate at different discharge conditions.
通过研究不同放电条件下镀锡钢板的光谱行为,确定了具有较好深度分辨率的放电条件,建立了镀锡钢板的辉光放电发射光谱定量深度分析方法。
2.
In order to rise the depth resolution of SIMS, it is important to decrease the two kinds of the effects that described above by the possibility.
因此,为了提高SIMS分析的深度分辨率,必须注意克服这两种影响因素。
3.
In this calculation,the multi- variate regression weight coefficients are extended to convolutional operators with specific time length to improve the depth resolution,which is proposed by Daniel P.
对该方法提高分辨率的原理做了详细的讨论,给出了该算法在胜利油田 ken-71地区采用常规地面地震数据和测井数据,预测得到的目标区域的拟孔隙度参数的分布,结果显示使用该方法深度分辨率可达8~10m。
补充资料:高分辨电子显微镜(见高分辨电子显微术)
高分辨电子显微镜(见高分辨电子显微术)
high resolution electron microscope
高分辨电子显微镜high resolution eleetronmieroseope见高分辫电子显微术。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条