What is Upscaling?
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Receivers with Upscaling give a clearer picture... how?
Many standard definition satellite receivers and DVD players too have the mysterious term 'upscaling' in the products features. What is it and why does it matter?
Older Tube type displays
The Cathode Ray Tube (CRT) made up the picture elements by scanning three beams of electrons through a mask of roughly one million holes, to land on red, green or blue phosphors. The old technology was ok up to 32 inch displays, but had production problems in size and costs above that size. Also the displays became inaccurate at the edges causing colour fringing and poor focus. In addition overscanning and incorrect adjustment of width and height often meant viewers didnt have the full picture. Scanning was always done at 625 Lines, interlaced, irrespective of the inputs actual digital resolution.
Digital Displays LCD, plasma and DLP Projectors
When digital tvs entered the market they differed in one important respect to the older tube type tvs; they had a fixed resolution ie. they had a fixed number of pixels ( smallest possible part of a picture display ) , this is usually given as the tvs native resolution. Illumination of the pixel is controlled by sending signals to a combination of column and row, addressing just one pixel. The Native Resolution then of the tv is determined by the number of rows and columns, typical tvs are
480 = 720 columns and 480 rows
720 = 1280 columns and 720 rows
1080 = 1920 columns and 1080 rows
The letters i or p always follow the resolution figure. The digital display is progressive ( p ) , the i indicates 'interlace' . Older tube tvs used this clever technique called interlacing or sending the odd numbers lines, then interlacing them with the even numbered lines, this cut down the rate at which the frames were sent out by half, the persistance of vision and decay of illumination of the phosphors ensured the previous lines were visible just long enough to stop flicker. Digital displays can easily switch from i interlaced to p progressive scanning.
So what happens if your tv is 720p resolution, but the incoming signal is 480i? or any other combination? The final picture displayed must be interpolated to fit the native resolution. A mathematical process is applied to the incoming signal so it is displayed properly. Not so easy with the older tube type tv, high power electronic switching was used to change the scanning width and or height; but with digital displays the solution is much better.
Extra bits are introduced to fill up the available pixels, or taken away if the display resolution is lower than the signal resolution. Digital electronics is perfect for this process, mathematical algorithms can change the incoming signal to match the tv display in microseconds. Many other computer peripherals also use interpolation, printers and scanners for example.
As an example, consider the processing which must take place to convert an input image in 4:3 format 720X480 resolution from a DVD, to display on a fixed pixel display unit 16:9 format 1920X1080 pixels. There are about 6 times as many pixels to fill, as there are coming from the input. To achieve this digital FIR filters are used. These are mathematical algorithms. The design of these is critical to the quality of the output. As time has progressed, circuitry has become much better at doing this, more complex of course, but better too at dealing with some of the side effects of upscaling, like jagged edges, motion adaptive noise reduction and mosquito noise.
Quality of the picture
By taking into account the pixels surrounding the ones to be changed, the quality can be maintained or improved, the more pixels that are evaluated and brought into the algorithm, the smoother the end product will be. Diagonal lines in particular become less ragged. The more complex of course the higher the cost and the more time it takes to output the picture, although advances in electronics have made this less important, few things in the modern world become cheaper, electronics is one of those few.
Analogue to Digital Conversions
The output from a DVD or SD standard definition receiver for cable or satellite is usually Scart or composite video, these are analogue signals, basically a varying voltage approximately 1volt peak to peak representing luminance signal, with sync, sound and colour modulated onto the carrier. This has been standard since tv was invented, but is of course useless for digital tv. The ridiculous process of getting a DVD disc signal to Digital tv display, involves taking the digital signal from the laser, converting to analogue for the scart output, then inside the tv it is reconverted back to digital again so that it is suitable to control the rows and columns type display. HD systems avoid these conversions altogether, so no digital noise is introduced and the result accurately shows the output from the original picture signal. HDMI cables carry only digital signals
Where does the interpolation take place?
In most cases the input device, satellite, DVD player etc. will have the electronics to perform these functions built in. But the TV has to have similar circuitry, so it can always manage signals without external help. The best quality tvs have very high performance FIR filters taking a very large number of the surrounding pixels into account when ‘drawing’ the picture and this may represent much of the extra cost of the tv.
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