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I am changing the phase of signal from 0 to 360 by each degree to get max voltage value.Because if i change phase of the signal the voltage also changes.I have the fallowing code to find max value.

void Maxphase(float *max, unsigned int *index) 
{
*max = 0.0;
float value;
unsigned int i, data;
for (i=0;i<=360;i++) 
{              
    phaseset(i); 
    delay_ms(100);
    data = readvalue(); 
    value = voltage(mux1);    
    if(value > *max)   //find max value 
    { 
        *max = value;    //max voltage 
        *index = i;   
    }  
}                           
}

from the above code I am getting Max value(voltage) after 38 sec(360*100) because for every read operation my device needs 100ms delay. This is too large, I can't change hardware thus i want to get the max value within 2 to 3 sec by optimizing software. then I have tried with the fallowing code.

void Maxphase(float *max1, unsigned int *index1) 
{
  max = 0.0;
  float value;
  unsigned int i,j,data;
  for (i=0;i<=360;i+=10) 
   {              
    phaseset(i); 
    delay_ms(100);
    data = readvalue(); 
    value = voltage(mux1);    
    if(value > max)   //find max value 
    { 
        max = value;    //max voltage 
        index = i;   
    }  
   }    
   *max1=max;
   *index1=index;
   for (i=*index1-9;i<=*index1+9;i+=1) 
     {       
     j=i;       
    phaseset(j); 
    delay_ms(100);
    data = readvalue(); 
    value = voltage(mux1);    
    if(value > *max1)   //find max value 
    { 
        *max1 = value;    //max voltage 
        *index1 = i;   
    }  
    }                         
}

I have reduced time from 45 sec to 7 sec. i have reduced iterations 360 to 54(54*100). I want to reduce it 7 sec to 2 sec.

Can any one help me with better algorithm that i can get max value from (0 to 360) with in 2 sec.

I have measured the voltage values using scope by changing phase. I have written below how it vary voltage with phase.

Phase (degree)     voltage(max)
  0             0.9mv

 45             9.5mv

 90             9.0mv

135             0.9mv

180             292mv

225             601mv

270             555mv

315             230mv

360             0.9mv

I am new to C programming. Can anyone provide sample code for the best algorithm.

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1  
You could start by only measuring at {0,90,180,270), than interpolate in the quadrant between the top 2 values {180,270} -> 225. etc: binary search. –  wildplasser Nov 7 '12 at 14:21
    
What are you doing ? There might be a better way to get the max voltage, needed phase can probably be calculated based on some formula instead of using a simple trial/error. –  SS 'Kain' Nov 7 '12 at 14:31
    
@wildplasser I believe your comment is the correct approach, you should post it as an answer. –  Lundin Nov 7 '12 at 14:40
1  
Is it likely to vary? I mean you have measured it and printed the values which implies that you think it is stable. So why do you need to search the whole domain (0..360)? –  William Morris Nov 7 '12 at 14:44
    
By the way, the <= in your for loop is a bug. (i=0;i<=360;i+=10). You should only check 0-360, you are currently checking 0-370. –  Lundin Nov 7 '12 at 14:52

4 Answers 4

If you can be sure that there is only a single highest point on your 360 degrees you can do a recursive divide and conquer.

You start by looking e.g. at 0, 180, 270. Let's say you find the answer is that 180 + 270 together have the highest value. Than you start by looking in at 210.... Which side is higher? And so on ...

share|improve this answer

Golden section search is probably what you are after. It is effective, but still pretty simple.

If you want something even faster and more sophisticated, you can use Brent's method.

share|improve this answer
    
I don't think these are the right algorithms. AC voltage can be described as a sine wave, so data is of deterministic nature. –  Lundin Nov 7 '12 at 14:38
    
@Lundin: The OP didn't mention AC voltage, and the voltage values don't go negative, but there may be a mathematical relationship that could be taken advantage of. –  Vaughn Cato Nov 7 '12 at 14:45
    
Voltage and phase are terms that only occur together in AC voltage supplies. –  Lundin Nov 7 '12 at 14:48
    
Where did you get this from? @Lundin –  alk Nov 7 '12 at 15:00
    
@alk Fundamental knowledge about electronic power supplies? –  Lundin Nov 7 '12 at 15:03

Exploiting the various comments and suggestions here, I present this untested piece of code. I don't know whether this works at all or is an improvement over the existing source, but it was fun to try, anyway:

extern void phaseset(int);
extern void delay_ms(int);
extern float readvalue();
extern float voltage(int);
extern int mux1;

float probe(int phase)
{
    float data;
    phaseset(phase);
    delay_ms(100);
    data = readvalue(); /* data is ignored? */
    return voltage(mux1); /* mux1? */
}

/* helper routine, find the max in a given range [phase1, phase2] */
void maxphase_aux(int phase1, float vol1, int phase2, float vol2, int *phaseret, float *volret)
{
    float xvol1 = 0, xvol2 = 0;
    int xphase1 = -1, xphase2 = -1;

    /* test the voltage in the middle */
    int phasem = abs(phase2 - phase1) / 2;
    float volm = probe(phasem);

    if (volm > vol1 && volm > vol2) {
        /* middle point is the highest so far,
         * search left and right for maximum */
        *volret = volm;
        *phaseret = phasem;

        maxphase_aux(phase1, vol1, phasem, volm, &xphase1, &xvol1);
        maxphase_aux(phase2, vol2, phasem, volm, &xphase2, &xvol2);
    } else if (volm < vol1 && volm > vol2) {
        /* vol1 is the highest so far,
         * search between volm and vol1 for maximum */
        maxphase_aux(phase1, vol1, phasem, volm, &xphase1, &xvol1);
    } else if (volm > vol1 && volm < vol2) {
        /* vol2 is the highest so far,
         * search between volm and vol2 for maximum */
        maxphase_aux(phase2, vol2, phasem, volm, &xphase2, &xvol2);
    } else {
        /* not possible? */
        return;
    }

    if (xvol1 > volm) {
        *volret = xvol1;
        *phaseret = xphase1;
    }

    if (xvol2 > volm) {
        *volret = xvol2;
        *phaseret = xphase2;
    }
}

void maxphase(int *phaseret, float *volret)
{
    float v0 = probe(0);
    float v360 = probe(360);
    maxphase_aux(0, v0, 360, v360, phaseret, volret);
}
share|improve this answer
    
I have tried to understand but i am confusing about function "void maxphase_aux(int phase1, float vol1, int phase2, float vol2, int *phaseret, float *volret)". Can you give some little bit description about how this code works. –  ramjaya Nov 7 '12 at 15:53
    
@user1759248 I added some comments to clarify the working. As I already said, I don't know whether this works. There are likely some bugs in it. –  Olaf Dietsche Nov 7 '12 at 16:06
    
Thanks for your code. I will try to understand and i will test it. –  ramjaya Nov 7 '12 at 16:08

UPDATE: 2012-11-10.

#include <stdio.h>
#include <string.h>
#include <math.h>

#define FAKE_TARGET 89
unsigned fake_target = FAKE_TARGET;

float probe_one(unsigned int phase);
void Maxphase(float *max, unsigned int *index);

void Maxphase(float *max, unsigned int *index)
{

unsigned int aim, idx, victim;

struct best {
    unsigned pos;
    float val;
    } samples[4] = {{0, 0.0}, };

    for (aim = 0;aim < 360;aim += 90) {
        idx=aim/90;
        samples[idx].pos = aim;
        samples[idx].val = probe_one(samples[idx].pos);
        if (!idx || samples[idx].val < samples[victim].val ) victim = idx;
        }

        /* eliminate the weakist postion, and rotate the rest,
        ** such that:
        ** samples[0] := lower boundary.
        ** samples[1] := our best guess
        ** samples[2] := upper boundary
        ** samples[3] := scratch/probe element
        */
    fprintf(stderr, "Victim=%u\n", victim );
    switch(victim) {
    case 0: samples[0] = samples[1]; samples[1] = samples[2]; samples[2] = samples[3]; break;
    case 1: samples[1] = samples[3]; samples[3] = samples[0]; samples[0] = samples[2]; samples[2] = samples[3]; break;
    case 2: samples[2] = samples[1]; samples[1] = samples[0]; samples[0] = samples[3]; break;
    case 3: break;
    }


        /* Calculation is easier if the positions are increasing.
        ** (We can always perform the modulo 360 if needed)
        */
    if (samples[0].pos > samples[1].pos ) samples[1].pos  += 360;
    if (samples[1].pos > samples[2].pos ) samples[2].pos  += 360;

    while( 1) {
        int step;

        step = samples[2].pos - samples[0].pos;
        if (step < 3) break;

        do    {
            fprintf(stderr, "\n[%u %u %u] Diff=%d\n"
            , samples[0].pos , samples[1].pos , samples[2].pos , step);
            if (step > 0) step++; else step--;
            step /= 2;
            aim = (samples[0].pos + step ) ;
                /* avoid hitting the middle cell twice */
            if (aim %360 != samples[1].pos %360) break;
            step += 1;
            aim = (samples[0].pos + step ) ;
            if (aim %360 != samples[1].pos %360) break;
            step -= 2;
            aim = (samples[0].pos + step ) ;
            break;
            } while(0);

        fprintf(stderr, "Step=%d Aim=%u, Idx=%u\n",step, aim,idx );

        samples[3].pos = aim;
        samples[3].val = probe_one( samples[3].pos );

        victim= (samples[3].pos > samples[1].pos ) ? 2 : 0;
        if (samples[3].val > samples[1].val) idx= 1; else idx = victim;

        fprintf(stderr, "Victim=%u, TargetIdx=%u\n", victim, idx );
                /* This should not happen */
        if (samples[3].val < samples[victim].val) break;
        if (idx != victim) samples[2-victim] = samples[idx];
        samples[idx] = samples[3];
        }

    *max = samples[1].val;
    *index = samples[1].pos % 360;
}
float probe_one(unsigned int phase)
{
    float value;

#ifdef FAKE_TARGET
    int dif;
        dif = fake_target-phase;
    if (dif < -180) dif = 360+dif;
    else if (dif > 180) dif = 360-dif;
        /* value = 1.0 / (1 + pow(phase-231, 2)); */
        value = 1.0 / (1 + pow(dif, 2));
        fprintf(stderr, "Target = %d: Probe(%d:%d) := %f\n", fake_target, phase, dif, value );
        sleep (1);
#else
    unsigned int data;
    phase %= 360;
    phaseset(phase);
    delay_ms(100);
    data = readvalue();  // what is this ?
    value = voltage(mux1);
#endif

return value;
}

int main(int argc, char **argv)
{
float value;
unsigned int index;

if (argv[1]) sscanf (argv[1], "%u", &fake_target);
fake_target %= 360;

Maxphase(&value, &index) ;
printf("Phase=%u Max=%f\n", index, value );
return 0;
}
share|improve this answer
    
I am confusing about your code can you give me some more explanation, which method is used. When i run your code in CodeVision AVR i am getting error like "undefined symbol fprintf". If i remove fprintf then i am getting warning like "local variable "frist" is used before its set. –  ramjaya Nov 8 '12 at 13:13
    
It is just plain ordinary binairy search. If your platform does not have stdout: that is your problem. BTW: the code is not right yet: it fails if the two best points are positions at different sides of the 0/360/northpole. I am working on it. BTW: do you have enough memory on your target machine ? –  wildplasser Nov 8 '12 at 18:47
    
How much memory, I think i have enough memory. what does it mean "it fails if the two best points are positions at different sides of the 0/360/northpole" –  ramjaya Nov 8 '12 at 20:02
    
The new version uses a float array of 360 cells. (not strictly needed, but convenient. It would cost 360*sizeof(float) bytes, probably on the stack. (instead of the 3*8 in the current version, which is minimal). BRB in about three hours. –  wildplasser Nov 8 '12 at 20:08
    
I haven't seen any changes in the code,You said i am going to update with in three hours. –  ramjaya Nov 9 '12 at 7:48

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