# Difference between NXT-G visual programming and NXC C-like programming of Lego brick

I'm approaching to Lego NXT programming and I started from the very good site http://nxtprograms.com . In particular I followed instructions for the simple Segway with light sensor as balancing sensor (http://nxtprograms.com/NXT2/segway/index.html). I studied his (Dave Parker) NXT-G program and successfully replicated on his robot and on a simpler custom version (without the "driver"). Everything works, either his program and mine. I quite immediately switched to NXC programming because I already know the C lang and wanted to exploit the larger potentiality. I replicated the balancing algorithm quite well with the very same PID constants and calculations. The result is that the C program just doesn't work: the robot balances itself for 1 or 2 seconds, the oscillations are larger than those one with NXT-G and it falls down.

I compared the NXT-G and C base logics without finding any difference. So I wonder if something is wrong, in my program, with motor control. I suppose that the NXT-G graphical box controlling the motors does something more that simply invoke OnFwdSync(...)/OnRevSync(...). This would explain why my program produces large initial oscillations.

Does anybody have an example of NXC program driving that simple segway-lego or can explain why the motor control in my program fails ? In the bottom I've attached the source code of my program.

thanks.

``````#define KP 25
#define KI 1
#define KD 10
#define KO 0.5
#define LSAMPLE 100
//#include "MotorActions.nbc"

int balance(const int RIF)
{
int output = 0;
int previous_error = 0;
int error = 0;
int I = 0;
int D = 0;
int counter = 0;
int actual;

while (true)
{
actual = SENSOR_3;
error = actual - RIF;
counter++;
I += error;
D = (error - previous_error);
previous_error = error;
/**
*  Compute de PID compensation
*/
output = KO * (KP * error + KI * I + KD * D);
if ((output > 1000) || (output < -1000))
break;
if (output < 0)
OnFwdSync(OUT_BC, -output, 0);
else
OnRevSync(OUT_BC, output, 0);
}
return (counter);
}

{
int L = 0;
int ctr = 0;

while (ctr < LSAMPLE)
{
L += SENSOR_3;
ctr++;
Wait(10);
}
return (L / LSAMPLE);
}

{
int i = 0;
int RIF;
int count;

while (i++ < 3)
{
//PlaySound(SOUND_LOW_BEEP);
Wait(800);
}
Wait(400);
//PlaySound( SOUND_DOUBLE_BEEP );
SetSensorColorRed(IN_3);
ClearSensor(SENSOR_3);
RIF = SENSOR_3;
count = balance(RIF);
Off(OUT_BC);
}
``````
-
Probably unrelated to your problem but why do you create `RIF` and `count` inside `main` since you don't use them anytime after this ? –  Eregrith Aug 27 '12 at 10:06
Hi,count is actually not used (it was for debugging in a previous version). RIF is used as balance()'s argument. In addition read_light() was used in a prev version to get an avg value of the light over a second. All of this is in effect unrelated to the problem :-) Please also note that in this version I'm using the KO constant to reduce the output effect on the motors... but the program still doesn't balance the robot :-( –  user1131951 Aug 27 '12 at 12:38
What is the value of `SENSOR_3` ? Why is `#include MotorActions.nbc` commented ? –  Eregrith Aug 27 '12 at 14:47
SENSOR_3 provides the value of reflected light detected exactly in the moment the assignment "actual = SENSOR_3;" is executed. MotorActions.nbc is not needed anymore (it contained the OnFwdSync and OnRevSync). –  user1131951 Aug 27 '12 at 19:46
FOUND the problem: the OnFwdSync and OnRevSync functions must not be used; the simple OnFwd and OnRev funcs must be used instead. After that I also found the correct combination of parameter: KP=25, KI=0.25, KD=40. The combination of the 3 params depends, above all, on the speed of the balancing loop, that in the case of C language (nbc compiler) is faster than the code generated by the NXT-G visual IDE. They seems to not depend on the robot build structure. –  user1131951 Aug 27 '12 at 20:37