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Dependencies:   DriveConroller IMU MDD Mycan Odometer PID RotaryEncoder UART USS mbed

Fork of AR_MastarNode by MEC-B

main.cpp@10:ebb59c1d369e, 2018-09-11 (annotated)

Committer:
soyooo
Date:
Tue Sep 11 02:51:23 2018 +0000
Revision:
10:ebb59c1d369e
Parent:
9:ce5a1315fe0d
Child:
11:b89289eabaa2
???????;

Who changed what in which revision?

UserRevisionLine numberNew contents of line
TanakaTarou 0:6db16ad02a1b 1 #include "mbed.h"
TanakaTarou 0:6db16ad02a1b 2 #include "DriveController.h"
TanakaTarou 0:6db16ad02a1b 3 #include "IMU.h"
TanakaTarou 0:6db16ad02a1b 4 #include "MDD.h"
TanakaTarou 0:6db16ad02a1b 5 #include "MDD2.h"
TanakaTarou 0:6db16ad02a1b 6 #include "Mycan.h"
TanakaTarou 0:6db16ad02a1b 7 #include "Odometer.h"
TanakaTarou 0:6db16ad02a1b 8 #include "PID.h"
TanakaTarou 0:6db16ad02a1b 9 #include "RotaryEncoder.h"
TanakaTarou 0:6db16ad02a1b 10 #include "SBUS.h"
TanakaTarou 0:6db16ad02a1b 11 #include "USS.h"
TanakaTarou 0:6db16ad02a1b 12 #include "hardwareConfig.h"
soyooo 9:ce5a1315fe0d 13 #include "stateLib.h"
TanakaTarou 0:6db16ad02a1b 14
soyooo 9:ce5a1315fe0d 15 elements getRobotVelocity(state);
soyooo 9:ce5a1315fe0d 16 state getTargetState();
soyooo 9:ce5a1315fe0d 17 int updateStateNum();
soyooo 10:ebb59c1d369e 18 bool isConvergenceTops(int);
soyooo 10:ebb59c1d369e 19 bool isConvergenceSupply(int);
soyooo 9:ce5a1315fe0d 20 controller getPropoData();
TanakaTarou 0:6db16ad02a1b 21
TanakaTarou 0:6db16ad02a1b 22 //x軸補正用 PID
soyooo 1:d7ceb38da3d8 23 PID pidRobotX(2, 0, 0, 0.01, 0.3, &timer);
TanakaTarou 0:6db16ad02a1b 24 float target_x = 0;
TanakaTarou 0:6db16ad02a1b 25
TanakaTarou 0:6db16ad02a1b 26 //y軸補正用 PID
soyooo 1:d7ceb38da3d8 27 PID pidRobotY(2, 0, 0, 0.01, 0.3, &timer);
TanakaTarou 0:6db16ad02a1b 28 float target_y = 0;
TanakaTarou 0:6db16ad02a1b 29
soyooo 1:d7ceb38da3d8 30 //yow角補正用 (Pgain, Igain, Dgain, 制御ループ時間[s], 計算出力100%定義)
soyooo 9:ce5a1315fe0d 31 PID pidRobotYow(0.05, 0, 0, 0.01, 0.8, &timer);
soyooo 1:d7ceb38da3d8 32 float target_yow = 0;
soyooo 9:ce5a1315fe0d 33
TanakaTarou 0:6db16ad02a1b 34 //USS用
TanakaTarou 5:7c5e07260e1e 35 PID pidUss(0.025, 0, 0, 0.1, 0.3, &timer);
soyooo 9:ce5a1315fe0d 36 float target_uss = 0;
TanakaTarou 3:6b4adb4d7101 37
TanakaTarou 0:6db16ad02a1b 38 int main()
TanakaTarou 0:6db16ad02a1b 39 {
TanakaTarou 0:6db16ad02a1b 40 //タイマー3の優先度を最低にする
soyooo 9:ce5a1315fe0d 41 NVIC_SetPriority(TIMER3_IRQn, 3);
TanakaTarou 0:6db16ad02a1b 42
TanakaTarou 0:6db16ad02a1b 43 //IMUのキャリブレーション
TanakaTarou 4:9f74525eb37f 44 wait(1);
TanakaTarou 0:6db16ad02a1b 45 imu.performCalibration();
TanakaTarou 0:6db16ad02a1b 46 imu.startAngleComputing();
TanakaTarou 5:7c5e07260e1e 47
soyooo 10:ebb59c1d369e 48 uss[0].startTriger();
soyooo 10:ebb59c1d369e 49 uss[1].startTriger();
soyooo 9:ce5a1315fe0d 50
soyooo 9:ce5a1315fe0d 51 enc[0].changeDirection();
soyooo 10:ebb59c1d369e 52 //enc[1].changeDirection();
soyooo 9:ce5a1315fe0d 53 enc[2].changeDirection();
TanakaTarou 0:6db16ad02a1b 54
TanakaTarou 0:6db16ad02a1b 55 //オドメーターの定義
TanakaTarou 0:6db16ad02a1b 56 float matrix[3][3] = {{1, 0, 0},
TanakaTarou 0:6db16ad02a1b 57 {0, 1, 0},
TanakaTarou 0:6db16ad02a1b 58 {0, 0, 0}
TanakaTarou 0:6db16ad02a1b 59 };
soyooo 9:ce5a1315fe0d 60 Odometer odm(matrix, 0.050);
TanakaTarou 0:6db16ad02a1b 61 float tmp = 0;
TanakaTarou 0:6db16ad02a1b 62 float *encoders[3] = {&enc[0].rotations, &enc[1].rotations, &tmp};
TanakaTarou 0:6db16ad02a1b 63 odm.setupOdometerSensors(encoders, &imu.angle[2]);
soyooo 9:ce5a1315fe0d 64 odm.startComputingOdometry(0.01, 0, 0, 0);
soyooo 9:ce5a1315fe0d 65 mecanum.imu_yow = &imu.angle[2];
soyooo 9:ce5a1315fe0d 66
soyooo 9:ce5a1315fe0d 67 //許容誤差
soyooo 9:ce5a1315fe0d 68 pidRobotX.allowable_error = 0.1;
soyooo 9:ce5a1315fe0d 69 pidRobotY.allowable_error = 0.1;
soyooo 9:ce5a1315fe0d 70 pidRobotYow.allowable_error = 2;
soyooo 9:ce5a1315fe0d 71 pidUss.allowable_error = 3;
soyooo 9:ce5a1315fe0d 72
TanakaTarou 7:1ee46b2e8dce 73 //PID設定
TanakaTarou 0:6db16ad02a1b 74 pidRobotX.sensor = &odm.x;
TanakaTarou 0:6db16ad02a1b 75 pidRobotX.target = &target_x;
TanakaTarou 0:6db16ad02a1b 76 pidRobotX.start();
TanakaTarou 0:6db16ad02a1b 77 pidRobotY.sensor = &odm.y;
TanakaTarou 0:6db16ad02a1b 78 pidRobotY.target = &target_y;
TanakaTarou 0:6db16ad02a1b 79 pidRobotY.start();
TanakaTarou 5:7c5e07260e1e 80 pidRobotYow.sensor = &imu.angle[2];
TanakaTarou 5:7c5e07260e1e 81 pidRobotYow.target = &target_yow;
TanakaTarou 5:7c5e07260e1e 82 pidRobotYow.start();
soyooo 10:ebb59c1d369e 83 pidUss.sensor = &uss[0].distance;
TanakaTarou 5:7c5e07260e1e 84 pidUss.target = &target_uss;
TanakaTarou 5:7c5e07260e1e 85 pidUss.start();
TanakaTarou 5:7c5e07260e1e 86
TanakaTarou 4:9f74525eb37f 87 //マイクロスイッチ
TanakaTarou 3:6b4adb4d7101 88 sw1.mode(PullUp);
TanakaTarou 3:6b4adb4d7101 89 sw2.mode(PullUp);
TanakaTarou 3:6b4adb4d7101 90
soyooo 9:ce5a1315fe0d 91 odm.x = 0;
soyooo 9:ce5a1315fe0d 92 timer.start();
soyooo 9:ce5a1315fe0d 93
TanakaTarou 6:a102603c99fd 94 while(1)
soyooo 10:ebb59c1d369e 95 {
soyooo 10:ebb59c1d369e 96
soyooo 10:ebb59c1d369e 97 controller cmd = getPropoData(); //getPropoData & getCanData
soyooo 9:ce5a1315fe0d 98
TanakaTarou 7:1ee46b2e8dce 99 can.read();
soyooo 9:ce5a1315fe0d 100
soyooo 9:ce5a1315fe0d 101 //目指すべきロボットの状態を取得
soyooo 9:ce5a1315fe0d 102 state tar_state = getTargetState();
TanakaTarou 0:6db16ad02a1b 103
soyooo 9:ce5a1315fe0d 104 //canに置く
soyooo 9:ce5a1315fe0d 105 can.set(1, 1, tar_state.shoot);
soyooo 9:ce5a1315fe0d 106 //角度は2倍して送って、2で割って受け取る 角度可変が0.5度刻みにできる
soyooo 9:ce5a1315fe0d 107 can.set(1, 2, int (tar_state.angle * 2));
soyooo 9:ce5a1315fe0d 108 can.set(1, 3, tar_state.supply);
TanakaTarou 3:6b4adb4d7101 109
soyooo 9:ce5a1315fe0d 110 //送信周期調整
soyooo 9:ce5a1315fe0d 111 static double pre_time = 0;
soyooo 9:ce5a1315fe0d 112 double now_time = timer.read();
soyooo 9:ce5a1315fe0d 113 if(now_time - pre_time >= 0.01)
soyooo 1:d7ceb38da3d8 114 {
soyooo 10:ebb59c1d369e 115 if(can.send())
soyooo 10:ebb59c1d369e 116 pre_time = now_time;
TanakaTarou 8:123cd1f07aea 117 }
soyooo 9:ce5a1315fe0d 118 //ロボット速度を取得
soyooo 9:ce5a1315fe0d 119 elements robot_vel = getRobotVelocity(tar_state);
soyooo 10:ebb59c1d369e 120 //float robot_velocity[3] = {robot_vel.x, robot_vel.y, robot_vel.theta};
soyooo 10:ebb59c1d369e 121 float robot_velocity[3] = {cmd.LX, cmd.LY, cmd.RX};
soyooo 9:ce5a1315fe0d 122
TanakaTarou 0:6db16ad02a1b 123 //ホイール速度計算
TanakaTarou 4:9f74525eb37f 124 mecanum.setVelG(robot_velocity);
TanakaTarou 0:6db16ad02a1b 125 mecanum.computeWheelVel();
TanakaTarou 0:6db16ad02a1b 126 mecanum.rescaleWheelVel();
TanakaTarou 0:6db16ad02a1b 127
TanakaTarou 0:6db16ad02a1b 128 //モーターの駆動
TanakaTarou 0:6db16ad02a1b 129 for(int i = 0; i < 4; i++)
TanakaTarou 3:6b4adb4d7101 130 Motor[i].drive(mecanum.wheel_vel[i]);
soyooo 10:ebb59c1d369e 131 //Motor[i].drive(0.5);
soyooo 10:ebb59c1d369e 132
TanakaTarou 3:6b4adb4d7101 133 pc.printf("%.2f\t", imu.angle[2]);
soyooo 10:ebb59c1d369e 134 pc.printf("%.2f\t", uss[0].distance);
soyooo 10:ebb59c1d369e 135 pc.printf("%.2f\t", uss[1].distance);
TanakaTarou 2:7af15d4ee55a 136
soyooo 10:ebb59c1d369e 137 pc.printf("%.2f\t", enc[0].rotations);
soyooo 10:ebb59c1d369e 138 pc.printf("%.2f\t", enc[1].rotations);
soyooo 10:ebb59c1d369e 139 pc.printf("%.2f\t", enc[2].rotations);
soyooo 10:ebb59c1d369e 140
soyooo 9:ce5a1315fe0d 141 pc.printf("\n");
TanakaTarou 0:6db16ad02a1b 142 }
TanakaTarou 0:6db16ad02a1b 143 }
TanakaTarou 0:6db16ad02a1b 144
soyooo 9:ce5a1315fe0d 145 state getTargetState()
soyooo 9:ce5a1315fe0d 146 {
soyooo 9:ce5a1315fe0d 147 static bool start_flag = 0;
soyooo 9:ce5a1315fe0d 148
soyooo 9:ce5a1315fe0d 149 int num;
soyooo 9:ce5a1315fe0d 150
soyooo 9:ce5a1315fe0d 151 /*
soyooo 9:ce5a1315fe0d 152 スタートボタン待機
soyooo 9:ce5a1315fe0d 153 whileにするとほかの処理がすべて止めるためこれを回避
soyooo 9:ce5a1315fe0d 154 */
soyooo 9:ce5a1315fe0d 155 if(sw1 == 1)
soyooo 9:ce5a1315fe0d 156 start_flag = 1;
soyooo 9:ce5a1315fe0d 157
soyooo 9:ce5a1315fe0d 158 //sw1が1度も押されていないとき、num = 0 を強制
soyooo 9:ce5a1315fe0d 159 if(!start_flag)
soyooo 9:ce5a1315fe0d 160 num = 0;
soyooo 9:ce5a1315fe0d 161 else num = updateStateNum();
soyooo 9:ce5a1315fe0d 162
soyooo 9:ce5a1315fe0d 163 //num = 0 なので、再びスタート待機
soyooo 9:ce5a1315fe0d 164 if(num == 0)
soyooo 9:ce5a1315fe0d 165 start_flag = 0;
soyooo 9:ce5a1315fe0d 166
soyooo 9:ce5a1315fe0d 167 state a;
soyooo 9:ce5a1315fe0d 168 //states辞典から値を引っ張る
soyooo 9:ce5a1315fe0d 169 a.x = state_lib[num][0];
soyooo 9:ce5a1315fe0d 170 a.y = state_lib[num][1];
soyooo 9:ce5a1315fe0d 171 a.theta = state_lib[num][2];
soyooo 9:ce5a1315fe0d 172 a.shoot = state_lib[num][3];
soyooo 9:ce5a1315fe0d 173 a.angle = state_lib[num][4];
soyooo 9:ce5a1315fe0d 174 a.supply = state_lib[num][5];
soyooo 9:ce5a1315fe0d 175 return a;
soyooo 9:ce5a1315fe0d 176 }
soyooo 9:ce5a1315fe0d 177
soyooo 9:ce5a1315fe0d 178 int updateStateNum()
soyooo 9:ce5a1315fe0d 179 {
soyooo 9:ce5a1315fe0d 180 /*
soyooo 9:ce5a1315fe0d 181 状態収束を判定して次のステップに進む
soyooo 9:ce5a1315fe0d 182 */
soyooo 9:ce5a1315fe0d 183 float t = 0.1;
soyooo 9:ce5a1315fe0d 184 static int num = 0;
soyooo 9:ce5a1315fe0d 185 //x方向、y方向、yow方向の判定をはっきりしておく
soyooo 9:ce5a1315fe0d 186 bool flag_x = 0, flag_y = 0, flag_yow = 0;
soyooo 9:ce5a1315fe0d 187
soyooo 9:ce5a1315fe0d 188 if(pidRobotYow.isConvergence(t))
soyooo 9:ce5a1315fe0d 189 flag_yow = 1;
soyooo 9:ce5a1315fe0d 190
soyooo 9:ce5a1315fe0d 191 //超音波で近づくとき
soyooo 9:ce5a1315fe0d 192 if(state_lib[num][1] >= 10)
soyooo 9:ce5a1315fe0d 193 {
soyooo 10:ebb59c1d369e 194 if(pidUss.isConvergence(t+1) && isConvergenceTops(num) && isConvergenceSupply(num))
soyooo 9:ce5a1315fe0d 195 flag_y = 1;
soyooo 9:ce5a1315fe0d 196 }
soyooo 9:ce5a1315fe0d 197 else if(pidRobotY.isConvergence(t) == 1)
soyooo 9:ce5a1315fe0d 198 flag_y = 1;
soyooo 9:ce5a1315fe0d 199
soyooo 9:ce5a1315fe0d 200 if(state_lib[num][0] >= 10)
soyooo 9:ce5a1315fe0d 201 {
soyooo 10:ebb59c1d369e 202 if(pidUss.isConvergence(t+1) && isConvergenceTops(num) && isConvergenceSupply(num))
soyooo 9:ce5a1315fe0d 203 flag_x = 1;
soyooo 9:ce5a1315fe0d 204 }
soyooo 9:ce5a1315fe0d 205 else if(pidRobotX.isConvergence(t) == 1)
soyooo 9:ce5a1315fe0d 206 flag_x = 1;
soyooo 9:ce5a1315fe0d 207
soyooo 9:ce5a1315fe0d 208 //全部が収束してるか
soyooo 9:ce5a1315fe0d 209 if(flag_x && flag_y && flag_yow)
soyooo 9:ce5a1315fe0d 210 num++;
soyooo 9:ce5a1315fe0d 211
soyooo 9:ce5a1315fe0d 212 //振り出しに戻る
soyooo 9:ce5a1315fe0d 213 if(num >= LIBNUM)
soyooo 9:ce5a1315fe0d 214 {
soyooo 9:ce5a1315fe0d 215 num = 0;
soyooo 9:ce5a1315fe0d 216 }
soyooo 9:ce5a1315fe0d 217
soyooo 9:ce5a1315fe0d 218 return num;
soyooo 9:ce5a1315fe0d 219 }
soyooo 9:ce5a1315fe0d 220
soyooo 9:ce5a1315fe0d 221 elements getRobotVelocity(state a)
soyooo 9:ce5a1315fe0d 222 {
soyooo 9:ce5a1315fe0d 223 elements vel;
soyooo 9:ce5a1315fe0d 224
soyooo 9:ce5a1315fe0d 225 //yow角調整処理
soyooo 9:ce5a1315fe0d 226 *pidRobotYow.target = a.theta;
soyooo 9:ce5a1315fe0d 227 vel.theta = pidRobotYow.output;
soyooo 9:ce5a1315fe0d 228
soyooo 9:ce5a1315fe0d 229
soyooo 9:ce5a1315fe0d 230 //USS距離調整処理
soyooo 9:ce5a1315fe0d 231 if(a.x >= 10)
soyooo 9:ce5a1315fe0d 232 {
soyooo 9:ce5a1315fe0d 233 *pidUss.target = a.x - 10;
soyooo 9:ce5a1315fe0d 234 vel.x = -pidUss.output;
soyooo 9:ce5a1315fe0d 235 }
soyooo 9:ce5a1315fe0d 236 else
soyooo 9:ce5a1315fe0d 237 {
soyooo 9:ce5a1315fe0d 238 *pidRobotX.target = a.x;
soyooo 9:ce5a1315fe0d 239 vel.x = pidRobotX.output;
soyooo 9:ce5a1315fe0d 240 }
soyooo 9:ce5a1315fe0d 241
soyooo 9:ce5a1315fe0d 242 //USS距離調整処理
soyooo 9:ce5a1315fe0d 243 if(a.y >= 10)
soyooo 9:ce5a1315fe0d 244 {
soyooo 9:ce5a1315fe0d 245 *pidUss.target = a.y - 10;
soyooo 9:ce5a1315fe0d 246 vel.y = -pidUss.output;
soyooo 9:ce5a1315fe0d 247 }
soyooo 9:ce5a1315fe0d 248 else
soyooo 9:ce5a1315fe0d 249 {
soyooo 9:ce5a1315fe0d 250 //y軸調整処理
soyooo 9:ce5a1315fe0d 251 *pidRobotY.target = a.y;
soyooo 9:ce5a1315fe0d 252 vel.y = pidRobotY.output;
soyooo 9:ce5a1315fe0d 253 }
soyooo 9:ce5a1315fe0d 254
soyooo 9:ce5a1315fe0d 255 return vel;
soyooo 9:ce5a1315fe0d 256 }
soyooo 10:ebb59c1d369e 257 bool isConvergenceTops(int state_num)
TanakaTarou 0:6db16ad02a1b 258 {
TanakaTarou 4:9f74525eb37f 259 int velocity_pid = can.get(3, 1);
TanakaTarou 4:9f74525eb37f 260 int angle_pid = can.get(3, 2);
TanakaTarou 4:9f74525eb37f 261 int velocity_val = can.get(3, 3);
soyooo 9:ce5a1315fe0d 262 float angle_val = can.get(3, 4);
soyooo 9:ce5a1315fe0d 263 angle_val /= 2.0;
soyooo 10:ebb59c1d369e 264
soyooo 9:ce5a1315fe0d 265 if(angle_pid == 1 && velocity_pid == 1 && velocity_val == state_lib[state_num][3] && angle_val == state_lib[state_num][4])
TanakaTarou 4:9f74525eb37f 266 return 1;
TanakaTarou 3:6b4adb4d7101 267 else return 0;
soyooo 9:ce5a1315fe0d 268 }
soyooo 10:ebb59c1d369e 269 bool isConvergenceSupply(int state_num)
soyooo 10:ebb59c1d369e 270 {
soyooo 10:ebb59c1d369e 271 int is_supply_done = can.get(3, 5);
soyooo 10:ebb59c1d369e 272
soyooo 10:ebb59c1d369e 273 if(state_lib[state_num][5] == 1)
soyooo 10:ebb59c1d369e 274 {
soyooo 10:ebb59c1d369e 275 if(is_supply_done == 1)
soyooo 10:ebb59c1d369e 276 return 1;
soyooo 10:ebb59c1d369e 277 else return 0;
soyooo 10:ebb59c1d369e 278 }else return 1;
soyooo 10:ebb59c1d369e 279 }
soyooo 9:ce5a1315fe0d 280 controller getPropoData()
soyooo 9:ce5a1315fe0d 281 {
soyooo 9:ce5a1315fe0d 282 float dead_zone = 0.05;
soyooo 9:ce5a1315fe0d 283 controller propo;
soyooo 9:ce5a1315fe0d 284 sbus.isFailSafe();
soyooo 9:ce5a1315fe0d 285
soyooo 9:ce5a1315fe0d 286 //propo直接コントロール
soyooo 9:ce5a1315fe0d 287 if(sbus.isFailSafe())
soyooo 9:ce5a1315fe0d 288 {
soyooo 9:ce5a1315fe0d 289 propo.LX = propo.LY = propo.RX = propo.RY = 0;
soyooo 9:ce5a1315fe0d 290 propo.H = propo.A = propo.D = propo.F = propo.G = 0;
soyooo 9:ce5a1315fe0d 291 }
soyooo 9:ce5a1315fe0d 292 else
soyooo 9:ce5a1315fe0d 293 {
soyooo 9:ce5a1315fe0d 294 propo.LX = sbus.getStickVal(0) / 255.0;
soyooo 9:ce5a1315fe0d 295 propo.LY = sbus.getStickVal(1) / 255.0;
soyooo 9:ce5a1315fe0d 296 propo.RX = -sbus.getStickVal(2) / 255.0;
soyooo 9:ce5a1315fe0d 297 propo.RY = sbus.getStickVal(3) / 255.0;
soyooo 9:ce5a1315fe0d 298 propo.H = sbus.getSwitchVal(0);
soyooo 10:ebb59c1d369e 299 propo.C = sbus.getSwitchVal(1);
soyooo 10:ebb59c1d369e 300 propo.E = sbus.getSwitchVal(2);
soyooo 9:ce5a1315fe0d 301 propo.F = sbus.getSwitchVal(3);
soyooo 9:ce5a1315fe0d 302 propo.G = sbus.getSwitchVal(4);
soyooo 9:ce5a1315fe0d 303 }
soyooo 9:ce5a1315fe0d 304
soyooo 9:ce5a1315fe0d 305 if(propo.RX < dead_zone && propo.RX > -dead_zone) propo.RX = 0;
soyooo 9:ce5a1315fe0d 306 if(propo.RY < dead_zone && propo.RY > -dead_zone) propo.RY = 0;
soyooo 9:ce5a1315fe0d 307 if(propo.LX < dead_zone && propo.LX > -dead_zone) propo.LX = 0;
soyooo 9:ce5a1315fe0d 308 if(propo.LY < dead_zone && propo.LY > -dead_zone) propo.LY = 0;
soyooo 9:ce5a1315fe0d 309 return propo;
soyooo 10:ebb59c1d369e 310 }