FEDL87V2107-01
OKI Semiconductor
ML87V2107
• 4 Continuous Code Detection
If 4 continuous codes are detected to be the same and their low frequency differential data absolute values are
equal to or greater than the continuous code motion detection level 1/2(YMS[3:1]), the data is judged to have
much motion, and the 4 continuous code motion flag (YMT4) = 1 is set.
If the absolute value is less than the continuous motion detection level, the data is judged to have little motion, and
the 4 continuous code motion flag (YMT4) = 0 is set.
By setting YMDM( SUB:50h-bit[4]) = 1, the detection precision of the 4-continuous code motion flag can be
improved.
Table F2-1-3 (3) Luminance 4 Continuous Code Motion Detection
Motion detection condition
|∆LY| > 8
Motion flag (YMT4)
1
1
0
|∆LY| ≥ YMS[3:1]
|∆LY| < YMS[3:1]
• 5 Continuous Code Detection
If 5 continuous codes are detected to be the same and their low frequency differential data absolute values are
equal to or greater than the continuous code motion detection level 1/4 (YMS[3:2]), the data is judged to have
much motion, and the 5 continuous code motion flag (YMT5) = 1 is set.
If the absolute value is less than the continuous motion detection level, the data is judged to have little motion, and
the 5 continuous code motion flag (YMT5)=0 is raised.
By setting YMDM( SUB:50h-bit[4]) = 1, the detection precision of the 5-continuous code motion flag can be
improved.
Table F2-1-3 (4) Luminance 5 Continuous Code Motion Detection
Motion detection condition
|∆LY| > 4
Motion flag (YMT5)
1
1
0
|∆LY| ≥ YMS[3:2]
|∆LY| < YMS[3:2]
e Chrominance Level Motion Detection
From the differential data between fields, including chrominance signal motion and noise, the high frequency
component (∆HC) is filtered with the LPF, extracting only the low frequency differential data (∆LC).
Chrominance LPF: F(z) = (1/4)z-2 + (1/2)z0 + (1/4)z2
The low frequency differential data is assumed to have a large proportion of the motion component, so the
absolute value of that data (|∆LC|) is compared with the chrominance noise convergence level set in CNS[5:0] to
determine the amount of motion.
If the result shows that the differential absolute value is greater than the noise convergence level, the data is
judged to have a lot of motion, and the chrominance motion flag (CMT) = 1 is set.
If the differential absolute value is less than the noise convergence level, it is determined that there is not much
motion in the data, and the motion flag (CMT) = 0 is set.
This motion flag is used in adjacent pixel motion compensation.
Table F2-1-3 (5) Chrominance Level Motion Detection
Motion detection condition
|∆LC| > 64
Motion flag (CMT)
1
1
0
|∆LC| > CNS[5:0]
|∆LC| ≤ CNS[5:0]
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