方差F和均值F被用来调整量化间隔以使嵌入的水印更好地适应于载体图像。
Method difference F and mean value F are applied to adjust the quantization gap to make the embedded watermark adapt to the Yu carrier image much better.
每个预测值被量化成以 256分之一间隔的0 到 100之间的数(100*0/255 100*1/255 … 100*255/255).
Each prediction is quantized to one of the 256 evenly spaced numbers between 0 and 100 (100*0/255, 100*1/255,...,100*254/255, 100*255/255).
根据量化时延原理的短时间间隔精确测量方法,在时频测量领域有着广泛的用途。
By the way of quantifying delay time, an accurate short time interval measurement method can be completed.
这个时间的量化参数,采集间隔,在一个数据在模拟输出产生后至被模拟输入信号读取。
This parameter quantifies the time, measured in sample intervals, between when a sample of data is generated on analog output and when it is read on the analog input.
该系统采用了量化时延原理进行短时间间隔比对,对测量数据进行卡尔曼滤波处理。
The quantized time delay method is adopted for comparison of short time intervals, and a Kalman filtering algorithm …
我们采用基于时钟的粗计数器来量化被测时间间隔中与时钟同步的部分;
The time-interval could be divided into two parts, namely clock synchronized part and clock unsynchronized part.
采用基于门延时的精细计数来量化被测时间间隔中与时钟不同步的部分,这样时间量就被转换成了数字量。
Both coarse count and fine count which base on the clock and gate delay separately were used to quantify them. Thus, time variable were converted into digital variable.
提出一种改进方法,即在量化测量原理的基础上,利用细测与粗测相结合的方法来测量精密时间间隔。
This paper introduces a method of fine measurement combined with coarse measurement to measure precision time interval.
提出一种改进方法,即在量化测量原理的基础上,利用细测与粗测相结合的方法来测量精密时间间隔。
This paper introduces a method of fine measurement combined with coarse measurement to measure precision time interval.
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