# Algorithm for value range mapping

My question perhaps belongs to general ability test or something like that. It is not directly related to Embedded devices.

I have been given a variable resister which can rotate infinitely and is of `10Ω`. ADC is set for value range 0 to 1023 sampling. By which I've to control light luminosity/intensity.

The ADC value range is divided into 32 steps for `1024/32` levels of brightness. The issue is the pot has to be rotated 16 times to get to extremities. Which is very harassing. Now its time when I can't change the pot hardware but the firmware.

I'll choose a range window within the [0 1023], say of 32 steps. Lets ignore the ADC noise for now.

Then we have 32 steps in that 32 step windows.

If I start from 0, the intensity will be increasing till 32. The 32 is max intensity possible. Then if I rotate more, the intensity should remain maximum at 32 all the way till 1023.

And as soon as it is started to decrease from 1023, I will have decrease in intensity till ( 1023-32 ) and will remain at 0 intensity all the way till 0.

• if I rotate back from any place it should follow the above explained moving window rule.

Pseudo code:

``````void processADC_data()
{

// If Noise
/*

*/

if (IsInceasing)
{

// Extrimity has to be handled
if (!HasPerformedIncreased)
{
HasPerformedIncreased = true;
HasPerformedDecrease = false;
}
else if (HasPerformedIncreased)
{
if(IsCrossingLimit)
{
IsCrossingLimit = false;
}
else
{
}
}

}
else
{
// Extrimity has to be handled
if (!HasPerformedDecrease)
{
HasPerformedDecrease = true;
HasPerformedIncreased = false;
}
else if (HasPerformedDecrease)
{
if(IsCrossingLimit)
{
IsCrossingLimit = false;
}
else
{
}
}

}