This Lab4 Robot Car Project.
Dependencies: LSM9DS0 Motor Servo mbed
Fork of Lab4_Robot_Project_1 by
Diff: main.cpp
- Revision:
- 1:4b76a9beeae6
- Parent:
- 0:8239206a2f26
- Child:
- 3:130a982ced94
diff -r 8239206a2f26 -r 4b76a9beeae6 main.cpp --- a/main.cpp Tue Oct 20 03:01:16 2015 +0000 +++ b/main.cpp Fri Oct 23 14:01:30 2015 +0000 @@ -1,17 +1,17 @@ // Hello World to sweep a servo through its full range - + #include "mbed.h" #include "Servo.h" #include "Motor.h" #include "LSM9DS0.h" - + // SDO_XM and SDO_G are pulled up, so our addresses are: #define LSM9DS0_XM_ADDR 0x1D // Would be 0x1E if SDO_XM is LOW #define LSM9DS0_G_ADDR 0x6B // Would be 0x6A if SDO_G is LOW - + // refresh time. set to 500 for checking the Data on pc. #define REFRESH_TIME_MS 500 - + LSM9DS0 imu(p9, p10, LSM9DS0_G_ADDR, LSM9DS0_XM_ADDR);//IMU, read the compass value. Serial pc(USBTX, USBRX);//Only use this during the testing phase for pc debug. Motor MR(p25, p6, p5); // Motor A pwm, fwd, rev @@ -20,115 +20,109 @@ Servo myservo(p21);//PWM control for Servo AnalogIn IR(p20); //IR sensor AnalogIn LeftEncoder(p19); - + +//Return direction from servo - left, right or front +enum DIRC{LEFT,RIGHT,FRONT}; + +//Control Motor to turn right. void TurnRight() { - //imu.readMag(); - /*float current_dir = imu.calcHeading(); - if (current_dir>=270) - { - current_dir -=360; - } - float target_dir = current_dir + 90; - */ - - //pc.printf("%.2f",current_dir); - //pc.printf(" Targe: %.2f\n",target_dir); ML.speed(-0.3); MR.speed(0.3); - //imu.readMag(); - - //current_dir = imu.calcHeading(); - - /*if (current_dir>=270) - { - current_dir -=360; - }*/ wait(2.1); - ML.speed(0.0); - MR.speed(0.0); } - + +//Control Motor to turn left. void TurnLeft() { ML.speed(0.3); MR.speed(-0.3); - wait(2.1); - ML.speed(0.0); - MR.speed(0.0); } - -void Straight() + +//Control Motor to go forward. +void Forward() { - ML.speed(-0.5); + ML.speed(-0.55); MR.speed(-0.5); wait(0.01); } - -void LookLeft() + +//Control Motor to Backup. + void Backup() +{ + ML.speed(0.55); + MR.speed(0.5); +} + +//Control the servo to TurnLeft. +DIRC LookLeft() { myservo = 0.0; - + wait(1); + return LEFT; } - -void LookRight() + +//Control the servo to TurnRight. +DIRC LookRight() { myservo = 0.9; + wait(1); + return RIGHT; } - -void LookStraight() + +//Control the servo to LookStraight. +DIRC LookStraight() { myservo = 0.5; + wait(1); + return FRONT; } - + int main() { - STBY = 1; - pc.baud(9600); - imu.begin(); - LookStraight(); - wait(2.0); + STBY = 1;//enable both Motor + wait(1.0); + DIRC looking_dir; + while(true) { - if(IR>0.6) + Forward(); //Constantly go straight if there is no obstacle. + + + while(1)//Control servo swing left and right, obtain IR value. { - LookLeft(); - wait(2.0); - if(IR >0.6); - { - LookRight(); - wait(2.0); - } + looking_dir = LookStraight(); + if(IR>0.6) break; + looking_dir = LookLeft(); + if(IR>0.6) break; + looking_dir = LookRight(); + if(IR>0.6) break; + } - // Straight(); - - // wait(10.0); - // TurnRight(); - // wait(2.0); - //TurnLeft(); - //LookLeft(); - //wait(2); - //myservo = 0.5; - //imu.readMag(); - //float heading_turn = imu.calcHeading(); - //float Turn_Right = heading + 90; - - //if((heading_turn - Turn_Right)<0.1) - //{ - // MA.speed(1.0f); MB.speed(1.0f); - // pc.printf("%.2f\n",LeftEncoder.read()); - // wait(5); - else - LookStraight(); - wait(1.0); + //Base on IR value, make correct movement. + if(looking_dir == FRONT) + { + Backup(); + wait(2.0); + TurnRight(); + } + else if(looking_dir == LEFT) + { + Backup(); + wait(2.0); + TurnRight(); + } + else + { + Backup(); + wait(2.0); + TurnLeft(); + } } - - - -} +} \ No newline at end of file