# how to find max value with less iterations

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);
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);
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);
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.

-
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
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

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.

-
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

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 ...

-

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 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);
}
``````
-
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. – PRV 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. – PRV 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;
}
``````
-
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. – PRV 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" – PRV 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. – PRV Nov 9 '12 at 7:48