k
Dependents: 3rdcompfixstart 2ndcomp 4thcomp 6th33222_copy
Fork of Move by
move.cpp
- Committer:
- choutin
- Date:
- 2016-09-08
- Revision:
- 9:7e99a1c80656
- Parent:
- 8:3bf4addaaedd
- Child:
- 10:6d38d1b6cad5
File content as of revision 9:7e99a1c80656:
#include "mbed.h" #include "move.h" #include "locate.h" #include "stdlib.h" PwmOut M1cw(PA_11); PwmOut M1ccw(PB_15); PwmOut M2ccw(PB_14); PwmOut M2cw(PB_13); DigitalOut green (PC_2); DigitalOut yellow(PC_3); DigitalOut red (PC_0); /* DigitalOut teamledblue(PC_10); DigitalOut teamledred(PC_12); */ Serial pc2(SERIAL_TX, SERIAL_RX); //pcと通信 //const int allowlength=5; //const float allowdegree=0.02; const int rightspeed=70; const int leftspeed=rightspeed + 2; const int turnspeed=30*2; const float k = 0.9;//P制御の係数。大きくすれば動きが大きくなる、小さくするとあまり変化しない。要はkはP制御の感度を表す係数です。 const int k_theta = 2; //const float PIfact=2.89; void initmotor() { M1cw.period_us(256); M1ccw.period_us(256); M2cw.period_us(256); M2ccw.period_us(256); } void move(int left,int right) { float rightduty,leftduty; if(right>256) { right=256; } if(left>256) { left=256; } if(right<-256) { right=-256; } if(left<-256) { left=-256; } rightduty=right/256.0; leftduty=left/256.0; if(right>0) { M1cw.write(1-rightduty); M1ccw.write(1); } else { M1cw.write(1); M1ccw.write(1+rightduty); } if(left>0) { M2cw.write(1-leftduty); M2ccw.write(1); } else { M2cw.write(1); M2ccw.write(1+leftduty); } } void hosei_turn(float pt, bool cw, float rad) { int np; if(cw) np = 1; else np = -1; while(1) { update(); //pc.printf("t:%f\n\r", coordinateTheta()); if(pt-coordinateTheta() < np * rad - ALLOW_RAD) { move(-14, 14); } else if(pt-coordinateTheta() > np * rad + ALLOW_RAD) { move(14, -14); } else { move(0,0); return; } } } void turn_abs_rad(float rad) { green = 1; update(); int np; if(coordinateTheta() > rad) np = 1; else if(coordinateTheta() < rad) np = -1; else return; move((-np)*(turnspeed+2), (np)*turnspeed); while(1) { update(); //pc.printf("t:%f\n\r", coordinateTheta()); if(rad - 0.2 < coordinateTheta() && coordinateTheta() < rad + 0.2) { move(0,0); break; } } hosei_turn(0, false, rad); wait(0.5); hosei_turn(0, false, rad); wait(0.5); green = 0; } void pmove(int x, int y) { yellow = 1; float k = 0.9;//ズレ(mm)を回転数に反映させる比例定数 int k_theta = 2;//ズレ(rad)を回転数に反映させる比例定数 int length, dx, dy; int *d_length, *disorder; int absd_length; float dtheta, ptheta; float daikei; int direction; if(abs(x - coordinateX()) > abs(y - coordinateY())) { y = coordinateY(); direction = X_PLUS; length = abs(x - coordinateX()); d_length = &dx; disorder = &dy; } else { x = coordinateX(); direction = Y_PLUS; length = abs(y - coordinateY()); d_length = &dy; disorder = &dx; } update(); dx = x - coordinateX(); dy = y - coordinateY(); if(*d_length < 0) //x,y減少方向なら、*d_length<0 direction *= -1; pc2.printf("direction:%d", direction); switch(direction) { case X_PLUS: ptheta = 0; break; case Y_PLUS: k *= -1; ptheta = PI/2; break; case X_MINUS: k *= -1; ptheta = PI; break; case Y_MINUS: ptheta = PI*3/2; break; default: return; } turn_abs_rad(ptheta); if(length == 0) return; while(1) { update(); dx = x - coordinateX(); dy = y - coordinateY(); dtheta = coordinateTheta() - ptheta; if(*disorder>2) { *disorder = 2; } else if(*disorder<-2) { *disorder = -2; } absd_length = abs(*d_length); if(absd_length > length - 30) { daikei = abs(length - absd_length) / 30.0; } else if(absd_length < 150) { daikei = absd_length / 150.0; } else daikei = 1; move(daikei * (rightspeed*4/5.0 + k*(*disorder) - k_theta*dtheta) + rightspeed/5.0, daikei * (leftspeed*4/5.0 - k*(*disorder) + k_theta*dtheta) + leftspeed/5.0); //pc2.printf("d_length:%d disorder:%d rs:%f ls:%f daikei:%f\n\r", *d_length, *disorder, k*(*disorder) - k_theta*dtheta, -k*(*disorder) + k_theta*dtheta, daikei); if((direction > 0 && *d_length <= 0) || (direction < 0 && *d_length >= 0)) { move(0, 0); break; } } wait(0.5); yellow = 0; } void back300() { red = 1; float k = 0.9; int k_theta = 2; int length, px, py, dx, dy; float daikei; update(); px = coordinateX(); py = coordinateY(); length = 300; if(length == 0) return; turn_abs_rad(PI); while(1) { update(); dx = coordinateX() - px; dy = coordinateY() - py; if(dy>2) { dy = 2; } else if(dy<-2) { dy = -2; } move(-(30 + k*dy), -(32 - k*dy)); if(dx>length) { move(0, 0); break; } //pc.printf("d_length:%d disorder:%d daikei:%f\n\r", *d_length, *disorder, daikei); } wait(0.5); red = 0; }