Video – Sony DVP S9000ES User Manual

9

DVD Technical Notes

Video

Fig. 8: Detection and correction of block noise. On the left is the DVD block structure. In the center, a pair of blocks, showing

the Activity Calculation Area. Across the bottom are sample readings. The first is a step characteristic of block noise, which

gets corrected to a gradual slope. In the center are random variations, which are passed uncorrected. On the right is a large step

characteristic of a legitimate picture edge. This also passes uncorrected.

border as the Vertical Correlation

Coefficient Area. A larger area,

extending five pixels to the left and

right of the border is the Activity

Calculation Area.

Small, random-seeming changes at the

border are determined to be legitimate

variations in the signal. These are not

changed. Moderate changes arranged

in a line along block borders are deter-

mined to be block noise and are

corrected. However, when the image

hardly changes within five pixels of

the border and undergoes a big change

right at the border, this is considered

to be a legitimate edge in the picture,

and it passes uncorrected.

After detecting block noise, Sony’s MPEG Image Processor must

determine the appropriate corrective action. The correction area

extends four pixels on either side of the border. Correction

consists of smoothing the step of block noise into a more natural,

gradual slope.

For even greater sophistication, the Block Noise Reduction

system takes advantage of the same motion detection engine as

described above for Field Noise Reduction. In essence, the

motion detector tells the Block Noise Reduction circuit, “a car is

approaching the block edge.” When the car arrives, the Block

Noise Reduction system already knows that it’s a legitimate

picture edge and will pass it through without correction.

While we have described Block Noise Reduction for the vertical

block edges, the system works equally well for horizontal block

edges. The result is a comprehensive solution to even subtle

picture errors caused by block noise. Images are clearer and

more natural. The subtle gradations captured by today’s best

cinematographers are rendered with a greater precision and care.

The soft shadows that define a cheekbone, a fold of cloth or a

footprint in the sand come through with effortless clarity.

You can match the operation of Block Noise Reduction to the

condition of each DVD. An on-screen menu offers eight

settings, ranging from 0 (off) to 7 (maximum).

The third and final function of Sony’s MPEG Image Processor is

Clear Frame. As many disappointed VHS users already know,

when you hit the Pause button on a VCR, you see only the

information for a single field. Much of the vertical resolution is

lost. DVD players can perform far better in still mode, because

DVD can present both fields together to represent the entire

video frame.

However, as we discovered in the discussion of 525P outputs, the

parameters of film-originated DVDs are quite different from

those of video-originated DVDs.

• Film-originated DVDs do best with frame pause, because both

video fields represent the same slice of time. The two fields

blend together perfectly for a full-resolution still image.

• Video-originated DVDs capture two fields that represent

different slices of time, 1/60 second apart. To accommodate

Fig. 9: Thanks to motion detection, the Block Noise Reduction circuit “knows” when a

car is approaching the edge of a block and does not try to correct the picture edge.

Clear Frame Still Image Performance