mag auto align if idle
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parent
719b0fa7c5
commit
26353508aa
103
controller.ino
103
controller.ino
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@ -8,13 +8,20 @@
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//set boot0 back to 0 to run program on powerup
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//#define DEBUG
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uint8_t error=0;
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#define IMU_NO_CHANGE 2 //IMU values did not change for too long
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uint8_t imu_no_change_counter=0;
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#define PIN_LED PC13
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#define SENDPERIOD 20 //ms
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#define CONTROLUPDATEPERIOD 10
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long last_controlupdate=0;
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#define IMUUPDATEPERIOD 10 //ms
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long last_imuupdated=0;
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#define MAX_YAWCHANGE 90 //in degrees, if exceeded in one update intervall error will be triggered
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#include <IMUGY85.h>
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@ -24,8 +31,11 @@ long last_imuupdated=0;
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//in qmc5883L library read values changed from uint16_t to int16_t
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IMUGY85 imu;
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double ax, ay, az, gx, gy, gz, roll, pitch, yaw, mx,my,mz,ma;
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double ax, ay, az, gx, gy, gz, roll, pitch, yaw,mx,my,mz,ma;
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double old_ax, old_ay, old_az, old_gx, old_gy, old_gz, old_roll, old_pitch, old_yaw,old_mx,old_my,old_mz,old_ma;
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double setYaw=0;
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float magalign_multiplier=0; //how much the magnetometer should influence steering, 0=none, 1=stay aligned
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//from left to right. pins at bottom. chips on top
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@ -51,6 +61,7 @@ RF24 radio(PB0,PB1); //ce, cs
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// Radio pipe addresses for the 2 nodes to communicate.
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const uint64_t pipes[2] = { 0xF0F0F0F0E1LL, 0xF0F0F0F0D2LL };
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#define NRF24CHANNEL 75
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struct nrfdata {
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uint8_t steer;
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@ -97,6 +108,8 @@ void setup() {
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radio.begin();
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radio.setDataRate( RF24_250KBPS ); //set to slow data rate. default was 1MBPS
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radio.setChannel(NRF24CHANNEL); //0 to 124 (inclusive)
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radio.setRetries(15,15); // optionally, increase the delay between retries & # of retries
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radio.setPayloadSize(8); // optionally, reduce the payload size. seems to improve reliability
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@ -132,15 +145,17 @@ void loop() {
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digitalWrite(PIN_LED, !digitalRead(PIN_LED));
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done = radio.read( &lastnrfdata, sizeof(nrfdata) );
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if (lastnrfdata.speed==NRFDATA_CENTER && lastnrfdata.speed==NRFDATA_CENTER){ //arm only when centered
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armed=true; //arm at first received packet
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}
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//parse commands
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motorenabled = (lastnrfdata.commands & (1 << 0)); //check bit 0
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if (!motorenabled){ //disable motors?
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armed=false;
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}
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if (lastnrfdata.speed==NRFDATA_CENTER && lastnrfdata.speed==NRFDATA_CENTER){ //arm only when centered
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armed=true; //arm at first received packet
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}
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uint8_t calcchecksum=(uint8_t)((lastnrfdata.steer+3)*(lastnrfdata.speed+13));
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if (lastnrfdata.checksum!=calcchecksum){ //checksum not ok?
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@ -185,35 +200,54 @@ void loop() {
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}
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}
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if (error>0){ //disarm if error occured
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armed=false;
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}
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if (armed && nrf_delay>=MAX_NRFDELAY){ //too long since last sucessful nrf receive
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armed=false;
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}
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if (armed){
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//out_speed=(int16_t)( (lastnrfdata.y-TRACKPOINT_CENTER)*1000/TRACKPOINT_MAX );
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//out_steer=(int16_t)( -(lastnrfdata.x-TRACKPOINT_CENTER)*1000/TRACKPOINT_MAX );
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out_speed=(int16_t)( ((int16_t)(lastnrfdata.speed)-NRFDATA_CENTER)*1000/127 ); //-1000 to 1000
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out_steer=(int16_t)( ((int16_t)(lastnrfdata.steer)-NRFDATA_CENTER)*1000/127 );
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//Test Mag
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/*double yawdiff=(setYaw-180)-(yaw-180); //following angle difference works only for angles [-180,180]. yaw here is [0,360]
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yawdiff += (yawdiff>180) ? -360 : (yawdiff<-180) ? 360 : 0;
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//yawdiff/=2;
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int yawdiffsign=1;
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if (yawdiff<0){
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yawdiffsign=-1;
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if (millis()-last_controlupdate>CONTROLUPDATEPERIOD){
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last_controlupdate=millis();
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//out_speed=(int16_t)( (lastnrfdata.y-TRACKPOINT_CENTER)*1000/TRACKPOINT_MAX );
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//out_steer=(int16_t)( -(lastnrfdata.x-TRACKPOINT_CENTER)*1000/TRACKPOINT_MAX );
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out_speed=(int16_t)( ((int16_t)(lastnrfdata.speed)-NRFDATA_CENTER)*1000/127 ); //-1000 to 1000
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out_steer=(int16_t)( ((int16_t)(lastnrfdata.steer)-NRFDATA_CENTER)*1000/127 );
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//align to compass
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double yawdiff=(setYaw-180)-(yaw-180); //following angle difference works only for angles [-180,180]. yaw here is [0,360]
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yawdiff += (yawdiff>180) ? -360 : (yawdiff<-180) ? 360 : 0;
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//yawdiff/=2;
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int yawdiffsign=1;
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if (yawdiff<0){
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yawdiffsign=-1;
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}
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yawdiff=yawdiff*yawdiff; //square
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yawdiff=constrain(yawdiff*1 ,0,800);
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yawdiff*=yawdiffsign; //redo sign
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int16_t out_steer_mag=(int16_t)( yawdiff );
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float new_magalign_multiplier=map( abs((int16_t)(lastnrfdata.steer)-NRFDATA_CENTER), 2, 10, 1.0, 0.0); //0=normal steering, 1=only mag steering
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new_magalign_multiplier=constrain(new_magalign_multiplier, 0.0,1.0);
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magalign_multiplier=min(new_magalign_multiplier, min(1.0,magalign_multiplier+0.01)); //go down fast, slowly increase
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magalign_multiplier=constrain(magalign_multiplier, 0.0,1.0); //safety constrain again
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out_steer = out_steer*(1-magalign_multiplier) + out_steer_mag*magalign_multiplier;
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setYaw=setYaw*magalign_multiplier + yaw*(1-magalign_multiplier); //if magalign_multiplier 0, setYaw equals current yaw
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/*
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Serial.print("Out steer=");
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Serial.println(out_steer);*/
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}
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yawdiff=yawdiff*yawdiff; //square
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yawdiff=constrain(yawdiff/2,0,800);
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yawdiff*=yawdiffsign; //redo sign
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out_steer=(int16_t)( yawdiff );
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*/
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/*
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Serial.print("Out steer=");
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Serial.println(out_steer);*/
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}else{ //took too long since last nrf data
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out_steer=0;
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out_speed=0;
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setYaw=yaw;
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magalign_multiplier=0;
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}
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@ -251,6 +285,27 @@ void loop() {
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void updateIMU()
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{
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if (old_ax==ax && old_ay==ay && old_az==az && old_gx==gx && old_gy==gy && old_gz==gz && old_mx==mx && old_my==my && old_mz==mz){
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imu_no_change_counter++;
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if (imu_no_change_counter>10){
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error=IMU_NO_CHANGE;
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Serial.println("Error: IMU_NO_CHANGE");
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}
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}else{
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imu_no_change_counter=0;
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}
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old_ax=ax;
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old_ay=ay;
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old_az=az;
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old_gx=gx;
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old_gy=gy;
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old_gz=gz;
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old_mx=mx;
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old_my=my;
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old_mz=mz;
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old_roll=roll;
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old_pitch=pitch;
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old_yaw=yaw;
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//Update Imu and write to variables
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imu.update();
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imu.getAcceleration(&ax, &ay, &az);
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