* 0x3D Angle (rad/s)
* 0x3E Angle (rad/s)
* 0x3F Angle (rad/s) LSB
- * free
* 0x40 Position x (m) MSB
* 0x41 Position x (m)
* 0x42 Position x (m)
* 0x91 Motor 2 switch
* 0x92 Motor 3 switch
* 0x93 Motor 4 switch
+ * 0x94 Front Handicap
+ * 0x95 Aft Handicap
* free
* 0xA0 Reset reason
* 0xA1 TLE Error status
#define TWI_RESET TWCR &= ~((1 << TWSTO) | (1 << TWEN)); TWI_ACK
#define TWI_NAK TWCR = (1<<TWINT) | (1<<TWEN) | (1<<TWIE)
-#define KP 0.009
-#define KI 0.051429
-#define KD 0.000378
+#define KP 0.045
+#define KI 2.298
+#define KD 0.0004
#define PID_T 0.01
-#define STEP_PER_M 3376.1 // wheel diameter=12cm, encoder=48cpr, gear ratio=1:34
-#define WHEEL_DIST 0.252
+// wheel diameter=12cm, encoder=48cpr, gear ratio=1:34, real wheel diameter: 0.12454m
+#define STEP_PER_M_AVG 4171.4
+#define STEP_PER_M_LEFT (STEP_PER_M_AVG)
+#define STEP_PER_M_RIGHT (STEP_PER_M_AVG)
+#define WHEEL_DIST 0.36923 // Real: 0.252
enum mode {
MOTOR_MANUAL,
static volatile float cur_speed_lin=0;
static volatile float cur_speed_rot=0;
static volatile uint8_t count_test=0;
+static volatile uint8_t front_handicap=0;
+static volatile uint8_t aft_handicap=0;
+static volatile uint8_t error_state=0;
ISR(TWI_vect)
{
break;
case 0x2B: // Left speed wish LSB
tmp_speed.i = tmp_speed.i << 8 | TWDR;
- speed1_wish = tmp_speed.f*STEP_PER_M;
- speed2_wish = tmp_speed.f*STEP_PER_M;
+ speed1_wish = tmp_speed.f*STEP_PER_M_LEFT;
+ speed2_wish = tmp_speed.f*STEP_PER_M_LEFT;
motor1_mode = MOTOR_PID;
motor2_mode = MOTOR_PID;
TWI_ACK;
break;
case 0x2F: // Right speed wish LSB
tmp_speed.i = tmp_speed.i << 8 | TWDR;
- speed1_wish = tmp_speed.f*STEP_PER_M;
- speed2_wish = tmp_speed.f*STEP_PER_M;
+ speed1_wish = tmp_speed.f*STEP_PER_M_RIGHT;
+ speed2_wish = tmp_speed.f*STEP_PER_M_RIGHT;
motor1_mode = MOTOR_PID;
motor2_mode = MOTOR_PID;
TWI_ACK;
motor4_switch = TWDR;
TWI_ACK;
break;
+ case 0x94: // Front Handicap
+ front_handicap = TWDR;
+ cmd_vel.bUpdate = 1;
+ TWI_ACK;
+ break;
+ case 0x95: // Aft Handicap
+ aft_handicap = TWDR;
+ cmd_vel.bUpdate = 1;
+ TWI_ACK;
+ break;
case 0xff: // bootloader
bootloader = TWDR;
default:
TWI_ACK;
break;
case 0x48: // Position angle MSB
- TWDR = pos_y.i>>24;
+ TWDR = angle.i>>24;
TWI_ACK;
break;
case 0x49: // Position angle
- TWDR = pos_y.i>>16;
+ TWDR = angle.i>>16;
TWI_ACK;
break;
case 0x4A: // Position angle
- TWDR = pos_y.i>>8;
+ TWDR = angle.i>>8;
TWI_ACK;
break;
case 0x4B: // Position angle LSB
- TWDR = pos_y.i;
+ TWDR = angle.i;
TWI_ACK;
break;
case 0xA0: // Reset reason
TWI_ACK;
break;
case 0xA1: // TLE Error status
- TWDR = ~((PIND & 0x40)>>3 | (PINB & 0x07)) & 0xf;
+ TWDR = error_state;
TWI_ACK;
break;
case 0xA2: // count test
static int16_t m3_old=SHRT_MIN;
static int16_t m4_old=SHRT_MIN;
+ error_state = ~((PIND & 0x40)>>3 | (PINB & 0x07)) & 0xf;
+
+ // if error and running: stop
+ if (motor1_mode == MOTOR_PID && bit_is_set(error_state, 0) && m1_old != 0) motor1 = 0;
+ if (motor2_mode == MOTOR_PID && bit_is_set(error_state, 1) && m2_old != 0) motor2 = 0;
+ if (motor3_mode == MOTOR_PID && bit_is_set(error_state, 2) && m3_old != 0) motor3 = 0;
+ if (motor4_mode == MOTOR_PID && bit_is_set(error_state, 3) && m4_old != 0) motor4 = 0;
+
+ // if we start motor in error state: start with full power
+ if (motor1_mode == MOTOR_PID && bit_is_set(error_state, 0) && m1_old == 0 && motor1 != 0) motor1 = 255;
+ if (motor2_mode == MOTOR_PID && bit_is_set(error_state, 1) && m2_old == 0 && motor2 != 0) motor2 = 255;
+ if (motor3_mode == MOTOR_PID && bit_is_set(error_state, 2) && m3_old == 0 && motor3 != 0) motor3 = 255;
+ if (motor4_mode == MOTOR_PID && bit_is_set(error_state, 3) && m4_old == 0 && motor4 != 0) motor4 = 255;
+
if (m1_old != motor1) { // update only when changed
if (motor1 == 0) {
// stop
new_speed3 = pos3_diff/PID_T;
new_speed4 = pos4_diff/PID_T;
- diff_left_m = (pos1_diff + pos2_diff)/(2*STEP_PER_M);
- diff_right_m = (pos3_diff + pos4_diff)/(2*STEP_PER_M);
+ diff_left_m = (pos1_diff + pos2_diff)/(2*STEP_PER_M_LEFT);
+ diff_right_m = (pos3_diff + pos4_diff)/(2*STEP_PER_M_RIGHT);
angle_diff = (diff_right_m - diff_left_m) / WHEEL_DIST;
angle_new = angle.f + angle_diff;
if (angle_new > 2*M_PI) angle_new-=2*M_PI;
- else if (angle_new < 2*M_PI) angle_new+=2*M_PI;
+ else if (angle_new < -2*M_PI) angle_new+=2*M_PI;
translation = (diff_left_m + diff_right_m)/2.0;
pos_x_new = pos_x.f + cos(angle_new)*translation;
speed_l = (new_speed1+new_speed2)/2;
speed_r = (new_speed3+new_speed4)/2;
- tmp_speed_lin = (speed_l + speed_r)/(2.0*STEP_PER_M);
- tmp_speed_rot = (speed_r - speed_l)/(M_PI*WHEEL_DIST*STEP_PER_M);
+ tmp_speed_lin = (speed_l + speed_r)/(2.0*STEP_PER_M_AVG);
+ tmp_speed_rot = (speed_r - speed_l)/(M_PI*WHEEL_DIST*STEP_PER_M_AVG);
// copy from tmp
cli();
} else {
int16_t e = speed1_wish - speed1;
esum1+=e;
- motor1 += KP*e + KI*PID_T*esum1 + KD/PID_T*(e - eold1);
+ motor1 = KP*e + KI*PID_T*esum1 + KD/PID_T*(e - eold1);
eold1 = e;
if (motor1 > 255) motor1 = 255;
} else {
int16_t e = speed2_wish - speed2;
esum2+=e;
- motor2 += KP*e + KI*PID_T*esum2 + KD/PID_T*(e - eold2);
+ motor2 = KP*e + KI*PID_T*esum2 + KD/PID_T*(e - eold2);
eold2 = e;
if (motor2 > 255) motor2 = 255;
} else {
int16_t e = speed3_wish - speed3;
esum3+=e;
- motor3 += KP*e + KI*PID_T*esum3 + KD/PID_T*(e - eold3);
+ motor3 = KP*e + KI*PID_T*esum3 + KD/PID_T*(e - eold3);
eold3 = e;
if (motor3 > 255) motor3 = 255;
} else {
int16_t e = speed4_wish - speed4;
esum4+=e;
- motor4 += KP*e + KI*PID_T*esum4 + KD/PID_T*(e - eold4);
+ motor4 = KP*e + KI*PID_T*esum4 + KD/PID_T*(e - eold4);
eold4 = e;
if (motor4 > 255) motor4 = 255;
DDRB = (1 << 3);
DDRC = (1 << 7) | (1 << 6) | (1 << 5) | (1 << 4) | (1 << 3) | (1 << 2);
DDRD = (1 << 7) | (1 << 5) | (1 << 4) | (1 << 3) | (1 << 2);
+ // Pullup TLEs EF
+ PORTB = (1 << 0) | (1 << 1) | (1 << 2);
+ PORTD = (1 << 6);
bootloader = 0x00;
setup_uart(9600);
speed_wish_right = angle*M_PI*WHEEL_DIST/2 + speed;
speed_wish_left = speed*2-speed_wish_right;
- speed_wish_left*=STEP_PER_M;
- speed_wish_right*=STEP_PER_M;
+ speed_wish_left*=STEP_PER_M_LEFT;
+ speed_wish_right*=STEP_PER_M_RIGHT;
- speed1_wish = speed_wish_left;
- speed2_wish = speed_wish_left;
- speed3_wish = speed_wish_right;
- speed4_wish = speed_wish_right;
+ if (aft_handicap > 0) {
+ speed1_wish = speed_wish_left * (100-aft_handicap)/100.0;
+ speed4_wish = speed_wish_right * (100-aft_handicap)/100.0;
+ } else {
+ speed1_wish = speed_wish_left;
+ speed4_wish = speed_wish_right;
+ }
+ if (front_handicap > 0) {
+ speed2_wish = speed_wish_left * (100-front_handicap)/100.0;
+ speed3_wish = speed_wish_right * (100-front_handicap)/100.0;
+ } else {
+ speed2_wish = speed_wish_left;
+ speed3_wish = speed_wish_right;
+ }
motor1_mode = MOTOR_PID;
motor2_mode = MOTOR_PID;
motor3_mode = MOTOR_PID;