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//***************************************************************************************
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//Kalman Filter implementation
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//***************************************************************************************
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#include "Kalman.h"
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#include "rtos.h"
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#include "math.h"
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#include "supportfuncs.h"
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#include "Encoder.h"
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//#include "globals.h"
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#include "tvmet/Matrix.h"
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using namespace tvmet;
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namespace Kalman
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{
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Ticker predictticker;
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DigitalOut OLED4(LED4);
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DigitalOut OLED1(LED1);
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//State variables
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Matrix<float, 3, 1> X;
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Matrix<float, 3, 3> P;
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Mutex statelock;
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float RawReadings[maxmeasure+1];
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float IRpahseOffset;
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bool Kalman_inited = 0;
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struct measurmentdata {
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measurement_t mtype;
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float value;
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float variance;
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};
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Mail <measurmentdata, 16> measureMQ;
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Thread* predict_thread_ptr = NULL;
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//Note: this init function assumes that the robot faces east, theta=0, in the +x direction
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void KalmanInit()
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{
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printf("kalmaninit \r\n");
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//WARNING: HARDCODED!
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//solve for our position (assume perfect bias)
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const float d = beaconpos[2].y - beaconpos[1].y;
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const float i = beaconpos[2].y - beaconpos[0].y;
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const float j = beaconpos[2].x - beaconpos[0].x;
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float r1 = RawReadings[SONAR2];
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float r2 = RawReadings[SONAR1];
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float r3 = RawReadings[SONAR0];
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printf("ranges: 0: %0.4f, 1: %0.4f, 2: %0.4f \r\n", r1, r2, r3);
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float y_coor = (r1*r1-r2*r2+d*d)/(2*d);
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float x_coor = (r1*r1-r3*r3+i*i+j*j)/(2*j) - (i*y_coor)/j;
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//coordinate system hack (for now)
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x_coor = beaconpos[2].x - x_coor;
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y_coor = beaconpos[2].y - y_coor;
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printf("solved pos from sonar: %f, %f \r\n", x_coor, y_coor);
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//IR
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float IRMeasuresloc[3];
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IRMeasuresloc[0] = RawReadings[IR0];
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IRMeasuresloc[1] = RawReadings[IR1];
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IRMeasuresloc[2] = RawReadings[IR2];
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printf("IR 0: %0.4f, 1: %0.4f, 2: %0.4f \r\n", IRMeasuresloc[0]*180/PI, IRMeasuresloc[1]*180/PI, IRMeasuresloc[2]*180/PI);
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float IR_Offsets[3];
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float fromb0offset = 0;
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for (int i = 0; i < 3; i++) {
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//Compute IR offset
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float angle_est = atan2(beaconpos[i].y - y_coor,beaconpos[i].x - x_coor);
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//printf("Angle %d : %f \n\r",i,angle_est*180/PI );
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IR_Offsets[i] = constrainAngle(IRMeasuresloc[i] - angle_est);
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fromb0offset += constrainAngle(IR_Offsets[i] - IR_Offsets[0]);
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}
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IRpahseOffset = constrainAngle(IR_Offsets[0] + fromb0offset/3);
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//debug
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printf("Offsets IR: %0.4f\r\n",IRpahseOffset*180/PI);
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statelock.lock();
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X(0,0) = x_coor;
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X(1,0) = y_coor;
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X(2,0) = 0;
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statelock.unlock();
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Kalman_inited = 1;
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}
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State getState(){
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statelock.lock();
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State state = {X(0,0), X(1,0), X(2,0)};
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statelock.unlock();
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return state;
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}
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void predictloop(void const *dummy)
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{
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//OLED4 = !ui.regid(0, 3);
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//OLED4 = !ui.regid(1, 4);
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float lastleft = 0;
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float lastright = 0;
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while (1) {
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Thread::signal_wait(0x1);
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OLED1 = !OLED1;
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float leftenc = left_encoder.getTicks() * ENCODER_M_PER_TICK;
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float rightenc = right_encoder.getTicks() * ENCODER_M_PER_TICK;
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float dleft = leftenc-lastleft;
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float dright = rightenc-lastright;
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lastleft = leftenc;
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lastright = rightenc;
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//The below calculation are in body frame (where +x is forward)
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float dxp, dyp,d,r;
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float thetap = (dright - dleft) / ENCODER_WHEELBASE;
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if (abs(thetap) < 0.01f) { //if the rotation through the integration step is small, approximate with a straight line to avoid numerical error
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d = (dright + dleft)/2.0f;
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dxp = d*cos(thetap/2.0f);
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dyp = d*sin(thetap/2.0f);
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} else { //calculate circle arc
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//float r = (right + left) / (4.0f * PI * thetap);
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r = (dright + dleft) / (2.0f*thetap);
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dxp = r*sin(thetap);
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dyp = r - r*cos(thetap);
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}
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statelock.lock();
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float tempX2 = X(2,0);
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//rotating to cartesian frame and updating state
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X(0,0) += dxp * cos(X(2,0)) - dyp * sin(X(2,0));
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X(1,0) += dxp * sin(X(2,0)) + dyp * cos(X(2,0));
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X(2,0) = constrainAngle(X(2,0) + thetap);
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//Linearising F around X
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float avgX2 = (X(2,0) + tempX2)/2.0f;
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Matrix<float, 3, 3> F;
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F = 1, 0, (dxp * -sin(avgX2) - dyp * cos(avgX2)),
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0, 1, (dxp * cos(avgX2) - dyp * sin(avgX2)),
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0, 0, 1;
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//Generating forward and rotational variance
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float varfwd = fwdvarperunit * abs(dright + dleft) / 2.0f;
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float varang = varperang * abs(thetap);
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float varxydt = xyvarpertime * KALMAN_PREDICT_PERIOD;
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float varangdt = angvarpertime * KALMAN_PREDICT_PERIOD;
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//Rotating into cartesian frame
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Matrix<float, 2, 2> Qsub,Qsubrot,Qrot;
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Qsub = varfwd + varxydt, 0,
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0, varxydt;
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Qrot = Rotmatrix(X(2,0));
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Qsubrot = Qrot * Qsub * trans(Qrot);
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//Generate Q
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Matrix<float, 3, 3> Q;//(Qsubrot);
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Q = Qsubrot(0,0), Qsubrot(0,1), 0,
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Qsubrot(1,0), Qsubrot(1,1), 0,
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0, 0, varang + varangdt;
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187
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P = F * P * trans(F) + Q;
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//printf("x: %f, y: %f, t: %f\r\n", X(0,0), X(1,0), X(2,0));
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//Update UI
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//float statecpy[] = {X(0,0), X(1,0), X(2,0)};
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//ui.updateval(0, statecpy, 3);
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16:52250d8d8fce
|
194
|
|
| madcowswe |
20:70d651156779
|
195
|
//float Pcpy[] = {P(0,0), P(0,1), P(1,0), P(1,1)};
|
| madcowswe |
20:70d651156779
|
196
|
//ui.updateval(1, Pcpy, 4);
|
| madcowswe |
16:52250d8d8fce
|
197
|
|
| madcowswe |
16:52250d8d8fce
|
198
|
statelock.unlock();
|
| madcowswe |
16:52250d8d8fce
|
199
|
}
|
| madcowswe |
16:52250d8d8fce
|
200
|
}
|
| madcowswe |
16:52250d8d8fce
|
201
|
|
| madcowswe |
20:70d651156779
|
202
|
|
| madcowswe |
20:70d651156779
|
203
|
void predict_event_setter(){
|
| madcowswe |
20:70d651156779
|
204
|
if(predict_thread_ptr)
|
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20:70d651156779
|
205
|
predict_thread_ptr->signal_set(0x1);
|
| madcowswe |
20:70d651156779
|
206
|
else
|
| madcowswe |
20:70d651156779
|
207
|
OLED4 = 1;
|
| madcowswe |
20:70d651156779
|
208
|
}
|
| madcowswe |
20:70d651156779
|
209
|
|
| madcowswe |
20:70d651156779
|
210
|
void start_predict_ticker(Thread* predict_thread_ptr_in){
|
| madcowswe |
20:70d651156779
|
211
|
predict_thread_ptr = predict_thread_ptr_in;
|
| madcowswe |
20:70d651156779
|
212
|
predictticker.attach(predict_event_setter, KALMAN_PREDICT_PERIOD);
|
| madcowswe |
20:70d651156779
|
213
|
}
|
| madcowswe |
20:70d651156779
|
214
|
|
| madcowswe |
20:70d651156779
|
215
|
void runupdate(measurement_t type, float value, float variance)
|
| madcowswe |
16:52250d8d8fce
|
216
|
{
|
| madcowswe |
20:70d651156779
|
217
|
if (!Kalman_inited) {
|
| madcowswe |
16:52250d8d8fce
|
218
|
RawReadings[type] = value;
|
| madcowswe |
20:70d651156779
|
219
|
} else {
|
| madcowswe |
17:6263e90bf3ba
|
220
|
|
| madcowswe |
20:70d651156779
|
221
|
if (type >= IR0 && type <= IR2)
|
| madcowswe |
20:70d651156779
|
222
|
RawReadings[type] = value - IRpahseOffset;
|
| madcowswe |
20:70d651156779
|
223
|
else
|
| madcowswe |
20:70d651156779
|
224
|
RawReadings[type] = value;
|
| madcowswe |
20:70d651156779
|
225
|
|
| madcowswe |
17:6263e90bf3ba
|
226
|
|
| madcowswe |
16:52250d8d8fce
|
227
|
measurmentdata* measured = (measurmentdata*)measureMQ.alloc();
|
| madcowswe |
16:52250d8d8fce
|
228
|
if (measured) {
|
| madcowswe |
16:52250d8d8fce
|
229
|
measured->mtype = type;
|
| madcowswe |
16:52250d8d8fce
|
230
|
measured->value = value;
|
| madcowswe |
16:52250d8d8fce
|
231
|
measured->variance = variance;
|
| madcowswe |
16:52250d8d8fce
|
232
|
|
| madcowswe |
16:52250d8d8fce
|
233
|
osStatus putret = measureMQ.put(measured);
|
| madcowswe |
20:70d651156779
|
234
|
//if (putret)
|
| madcowswe |
20:70d651156779
|
235
|
//OLED4 = 1;
|
| madcowswe |
16:52250d8d8fce
|
236
|
// printf("putting in MQ error code %#x\r\n", putret);
|
| madcowswe |
16:52250d8d8fce
|
237
|
} else {
|
| madcowswe |
20:70d651156779
|
238
|
//OLED4 = 1;
|
| madcowswe |
16:52250d8d8fce
|
239
|
//printf("MQalloc returned NULL ptr\r\n");
|
| madcowswe |
16:52250d8d8fce
|
240
|
}
|
| madcowswe |
20:70d651156779
|
241
|
|
| madcowswe |
16:52250d8d8fce
|
242
|
}
|
| madcowswe |
20:70d651156779
|
243
|
|
| madcowswe |
16:52250d8d8fce
|
244
|
|
| madcowswe |
16:52250d8d8fce
|
245
|
}
|
| madcowswe |
20:70d651156779
|
246
|
/*
|
| madcowswe |
20:70d651156779
|
247
|
void Kalman::updateloop(void const *dummy)
|
| madcowswe |
16:52250d8d8fce
|
248
|
{
|
| madcowswe |
16:52250d8d8fce
|
249
|
|
| madcowswe |
16:52250d8d8fce
|
250
|
//sonar Y chanels
|
| madcowswe |
16:52250d8d8fce
|
251
|
ui.regid(2, 1);
|
| madcowswe |
16:52250d8d8fce
|
252
|
ui.regid(3, 1);
|
| madcowswe |
16:52250d8d8fce
|
253
|
ui.regid(4, 1);
|
| madcowswe |
16:52250d8d8fce
|
254
|
|
| madcowswe |
16:52250d8d8fce
|
255
|
//IR Y chanels
|
| madcowswe |
16:52250d8d8fce
|
256
|
ui.regid(5, 1);
|
| madcowswe |
16:52250d8d8fce
|
257
|
ui.regid(6, 1);
|
| madcowswe |
16:52250d8d8fce
|
258
|
ui.regid(7, 1);
|
| madcowswe |
16:52250d8d8fce
|
259
|
|
| madcowswe |
16:52250d8d8fce
|
260
|
measurement_t type;
|
| madcowswe |
16:52250d8d8fce
|
261
|
float value,variance,rbx,rby,expecdist,Y;
|
| madcowswe |
16:52250d8d8fce
|
262
|
float dhdx,dhdy;
|
| madcowswe |
16:52250d8d8fce
|
263
|
bool aborton2stddev = false;
|
| madcowswe |
16:52250d8d8fce
|
264
|
|
| madcowswe |
16:52250d8d8fce
|
265
|
Matrix<float, 1, 3> H;
|
| madcowswe |
16:52250d8d8fce
|
266
|
|
| madcowswe |
16:52250d8d8fce
|
267
|
float S;
|
| madcowswe |
16:52250d8d8fce
|
268
|
Matrix<float, 3, 3> I3( identity< Matrix<float, 3, 3> >() );
|
| madcowswe |
16:52250d8d8fce
|
269
|
|
| madcowswe |
16:52250d8d8fce
|
270
|
|
| madcowswe |
16:52250d8d8fce
|
271
|
while (1) {
|
| madcowswe |
16:52250d8d8fce
|
272
|
OLED2 = !OLED2;
|
| madcowswe |
16:52250d8d8fce
|
273
|
|
| madcowswe |
16:52250d8d8fce
|
274
|
osEvent evt = measureMQ.get();
|
| madcowswe |
16:52250d8d8fce
|
275
|
|
| madcowswe |
16:52250d8d8fce
|
276
|
if (evt.status == osEventMail) {
|
| madcowswe |
16:52250d8d8fce
|
277
|
|
| madcowswe |
16:52250d8d8fce
|
278
|
measurmentdata &measured = *(measurmentdata*)evt.value.p;
|
| madcowswe |
16:52250d8d8fce
|
279
|
type = measured.mtype; //Note, may support more measurment types than sonar in the future!
|
| madcowswe |
16:52250d8d8fce
|
280
|
value = measured.value;
|
| madcowswe |
16:52250d8d8fce
|
281
|
variance = measured.variance;
|
| madcowswe |
16:52250d8d8fce
|
282
|
|
| madcowswe |
16:52250d8d8fce
|
283
|
// don't forget to free the memory
|
| madcowswe |
16:52250d8d8fce
|
284
|
measureMQ.free(&measured);
|
| madcowswe |
16:52250d8d8fce
|
285
|
|
| madcowswe |
16:52250d8d8fce
|
286
|
if (type <= maxmeasure) {
|
| madcowswe |
16:52250d8d8fce
|
287
|
|
| madcowswe |
16:52250d8d8fce
|
288
|
if (type <= SONAR3) {
|
| madcowswe |
16:52250d8d8fce
|
289
|
|
| madcowswe |
16:52250d8d8fce
|
290
|
InitLock.lock();
|
| madcowswe |
16:52250d8d8fce
|
291
|
float dist = value / 1000.0f - Sonar_Offset; //converting to m from mm,subtract the offset
|
| madcowswe |
16:52250d8d8fce
|
292
|
InitLock.unlock();
|
| madcowswe |
16:52250d8d8fce
|
293
|
|
| madcowswe |
16:52250d8d8fce
|
294
|
int sonarid = type;
|
| madcowswe |
16:52250d8d8fce
|
295
|
aborton2stddev = true;
|
| madcowswe |
16:52250d8d8fce
|
296
|
|
| madcowswe |
16:52250d8d8fce
|
297
|
statelock.lock();
|
| madcowswe |
16:52250d8d8fce
|
298
|
//update the current sonar readings
|
| madcowswe |
16:52250d8d8fce
|
299
|
SonarMeasures[sonarid] = dist;
|
| madcowswe |
16:52250d8d8fce
|
300
|
|
| madcowswe |
16:52250d8d8fce
|
301
|
rbx = X(0) - beaconpos[sonarid].x/1000.0f;
|
| madcowswe |
16:52250d8d8fce
|
302
|
rby = X(1) - beaconpos[sonarid].y/1000.0f;
|
| madcowswe |
16:52250d8d8fce
|
303
|
|
| madcowswe |
16:52250d8d8fce
|
304
|
expecdist = hypot(rbx, rby);//sqrt(rbx*rbx + rby*rby);
|
| madcowswe |
16:52250d8d8fce
|
305
|
Y = dist - expecdist;
|
| madcowswe |
16:52250d8d8fce
|
306
|
|
| madcowswe |
16:52250d8d8fce
|
307
|
//send to ui
|
| madcowswe |
16:52250d8d8fce
|
308
|
ui.updateval(sonarid+2, Y);
|
| madcowswe |
16:52250d8d8fce
|
309
|
|
| madcowswe |
16:52250d8d8fce
|
310
|
dhdx = rbx / expecdist;
|
| madcowswe |
16:52250d8d8fce
|
311
|
dhdy = rby / expecdist;
|
| madcowswe |
16:52250d8d8fce
|
312
|
|
| madcowswe |
16:52250d8d8fce
|
313
|
H = dhdx, dhdy, 0;
|
| madcowswe |
16:52250d8d8fce
|
314
|
|
| madcowswe |
16:52250d8d8fce
|
315
|
} else if (type <= IR3) {
|
| madcowswe |
16:52250d8d8fce
|
316
|
|
| madcowswe |
16:52250d8d8fce
|
317
|
aborton2stddev = false;
|
| madcowswe |
16:52250d8d8fce
|
318
|
int IRidx = type-3;
|
| madcowswe |
16:52250d8d8fce
|
319
|
|
| madcowswe |
16:52250d8d8fce
|
320
|
// subtract the IR offset
|
| madcowswe |
16:52250d8d8fce
|
321
|
InitLock.lock();
|
| madcowswe |
16:52250d8d8fce
|
322
|
value -= IR_Offset;
|
| madcowswe |
16:52250d8d8fce
|
323
|
InitLock.unlock();
|
| madcowswe |
16:52250d8d8fce
|
324
|
|
| madcowswe |
16:52250d8d8fce
|
325
|
statelock.lock();
|
| madcowswe |
16:52250d8d8fce
|
326
|
IRMeasures[IRidx] = value;
|
| madcowswe |
16:52250d8d8fce
|
327
|
|
| madcowswe |
16:52250d8d8fce
|
328
|
rbx = X(0) - beaconpos[IRidx].x/1000.0f;
|
| madcowswe |
16:52250d8d8fce
|
329
|
rby = X(1) - beaconpos[IRidx].y/1000.0f;
|
| madcowswe |
16:52250d8d8fce
|
330
|
|
| madcowswe |
16:52250d8d8fce
|
331
|
float expecang = atan2(-rby, -rbx) - X(2);
|
| madcowswe |
16:52250d8d8fce
|
332
|
Y = rectifyAng(value - expecang);
|
| madcowswe |
16:52250d8d8fce
|
333
|
|
| madcowswe |
16:52250d8d8fce
|
334
|
//send to ui
|
| madcowswe |
16:52250d8d8fce
|
335
|
ui.updateval(IRidx + 5, Y);
|
| madcowswe |
16:52250d8d8fce
|
336
|
|
| madcowswe |
16:52250d8d8fce
|
337
|
float dstsq = rbx*rbx + rby*rby;
|
| madcowswe |
16:52250d8d8fce
|
338
|
H = -rby/dstsq, rbx/dstsq, -1;
|
| madcowswe |
16:52250d8d8fce
|
339
|
}
|
| madcowswe |
16:52250d8d8fce
|
340
|
|
| madcowswe |
16:52250d8d8fce
|
341
|
Matrix<float, 3, 1> PH (P * trans(H));
|
| madcowswe |
16:52250d8d8fce
|
342
|
S = (H * PH)(0,0) + variance;
|
| madcowswe |
16:52250d8d8fce
|
343
|
|
| madcowswe |
16:52250d8d8fce
|
344
|
if (aborton2stddev && Y*Y > 4 * S) {
|
| madcowswe |
16:52250d8d8fce
|
345
|
statelock.unlock();
|
| madcowswe |
16:52250d8d8fce
|
346
|
continue;
|
| madcowswe |
16:52250d8d8fce
|
347
|
}
|
| madcowswe |
16:52250d8d8fce
|
348
|
|
| madcowswe |
16:52250d8d8fce
|
349
|
Matrix<float, 3, 1> K (PH * (1/S));
|
| madcowswe |
16:52250d8d8fce
|
350
|
|
| madcowswe |
16:52250d8d8fce
|
351
|
//Updating state
|
| madcowswe |
16:52250d8d8fce
|
352
|
X += col(K, 0) * Y;
|
| madcowswe |
16:52250d8d8fce
|
353
|
X(2) = rectifyAng(X(2));
|
| madcowswe |
16:52250d8d8fce
|
354
|
|
| madcowswe |
16:52250d8d8fce
|
355
|
P = (I3 - K * H) * P;
|
| madcowswe |
16:52250d8d8fce
|
356
|
|
| madcowswe |
16:52250d8d8fce
|
357
|
statelock.unlock();
|
| madcowswe |
16:52250d8d8fce
|
358
|
|
| madcowswe |
16:52250d8d8fce
|
359
|
}
|
| madcowswe |
16:52250d8d8fce
|
360
|
|
| madcowswe |
16:52250d8d8fce
|
361
|
} else {
|
| madcowswe |
16:52250d8d8fce
|
362
|
OLED4 = 1;
|
| madcowswe |
16:52250d8d8fce
|
363
|
//printf("ERROR: in updateloop, code %#x", evt);
|
| madcowswe |
16:52250d8d8fce
|
364
|
}
|
| madcowswe |
16:52250d8d8fce
|
365
|
|
| madcowswe |
16:52250d8d8fce
|
366
|
}
|
| madcowswe |
16:52250d8d8fce
|
367
|
|
| madcowswe |
16:52250d8d8fce
|
368
|
}
|
| madcowswe |
16:52250d8d8fce
|
369
|
|
| madcowswe |
19:4b993a9a156e
|
370
|
*/
|
| madcowswe |
19:4b993a9a156e
|
371
|
|
| madcowswe |
16:52250d8d8fce
|
372
|
} //Kalman Namespace
|
Thomas Branch
