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Preliminary R&D
PrgmBasics
Code used in Exercise 1
celerate(1,0,15,2.5);
motorSpeed(1,15);
goFor(1);
brake(1);
celerate(2,0,27,4);
motorSpeed(2,27);
goFor(2.7);
celerate(2,27,15,1);
brake(2);
reverse(2);
celerate(4,0,35,1);
motorSpeed(4,35);
goFor(1);
brake(2);
goFor(3);
brake(4);
reverse(1);
celerate(1,0,19,2);
goFor(2);
motorSpeed(2,35);
goFor(2);
motorSpeed(4,19);
goFor(2);
celerate(4,19,0,3);
brake(4);
ExternalSensorsOutside
Code used in Exercise 2
motorSpeed(4,25);
goFor(2);
motorSpeed(4,20);
goToAbsolutePosition(295);
reverse(4);
motorSpeed(30);
goFor(1.5);
brake(4);
CSS1
Code used in Exercise 4
celerate(4,0,25,3);
motorspeed(4,25);
goFor(1);
motorspeed(4,20);
goFor(2);
reverse(4);
motorspeed(4,25);
goFor(2);
brake(4);
Advanced R&D
Motor_test
Code used to test motor quantity
motorSpeed(4, 70);
//initiates all motors at 50% power
goToAbsolutePosition(99);
//continues running the motors until 99 marks have been travelled
brake(4);
//stops the motors
Propeller_test
Code used to test pushing propeller configuration
motorSpeed(4, 50);
//initiates all motors at 50% power
goToAbsolutePosition(-99);
//continues running the motors until 99 marks have been travelled
//-99 was used to fix a sensor problem
brake(4);
//stops the motors
Propeller_test
Code used to test pulling propeller configuration
reverse(4);
//reverses direction of all motors
motorSpeed(4,50);
//initiates all motors at 50% power
goToAbsolutePosition(-99);
//continues running the motors until 99 marks have been travelled
//-99 was used to fix a sensor problem
brake(4);
//stops the motors
Performance Testing
PT1
Code used to complete performance test 1
reverse(4);
//reverse initial polarity of motors
motorSpeed(1,45);
motorSpeed(2,45);
// initialize both motors
goToAbsolutePosition(165);
// go to bottom of the ramp
brake(1);
brake(2);
// brake both motors
goToAbsolutePosition(316);
// go to the gate via coasting
rotateServo(65);
// stop with servo
goFor(1);
rotateServo(0);
// unbrake
goFor(6);
// end of 7 second wait for gate
motorSpeed(1,29);
motorSpeed(2,29);
// initialize both motors to 29
PT2
Code used, in addition with PT1, to complete performance test 2
goToAbsolutePosition(434);
// go to the top of the hill of loading zone
brake(4);
// brake both motors
goFor(10);
// wait to connect with caboose plus 5 seconds connected
reverse(4);
// reverse polarity of motors
motorSpeed(4,55);
// initialize both to 55
PT3
Code used, in addition with PT1 and PT2, to complete performance test 3
//PT 3
goToAbsolutePosition(435);
// go back to the top of the hill of the loading zone
brake(4);
// brake both motors
goToAbsolutePosition(367);
// go back to gate
rotateServo(65);
// use servo to brake
goFor(1);
rotateServo(0);
// unbrake
goFor(6);
// end of 7 second wait for gate
//lab track
//motorSpeed(4, 55);
// intialize both motors to 55
// class track
motorSpeed(4, 57);
// lab track
//goToAbsolutePosition(275);
// go to a little before top of hill of starting zone
// class track
goToAbsolutePosition(270);
brake(4);
// brake both motors
//lab track
//goToAbsolutePosition(55);
// go to end of track via coasting
//class track
goToAbsolutePosition(25);
rotateServo(65);
// brake with the servo
goFor(1);
rotateServo(0);
// unbrake
Final_PT
Program used to complete final performance test
// PT1
reverse(4);
//reverse initial polarity of motors
motorSpeed(1,45);
motorSpeed(2,45);
// initialize both motors
goToAbsolutePosition(165);
// go to bottom of the ramp
brake(1);
brake(2);
// brake both motors
goToAbsolutePosition(316);
// go to the gate via coasting
rotateServo(65);
// stop with servo
goFor(1);
rotateServo(0);
// unbrake
goFor(6);
// end of 7 second wait for gate
motorSpeed(1,29);
motorSpeed(2,29);
// initialize both motors to 29
// PT 2
goToAbsolutePosition(434);
// go to the top of the hill of loading zone
brake(4);
// brake both motors
goFor(10);
// wait to connect with caboose plus 5 seconds connected
reverse(4);
// reverse polarity of motors
motorSpeed(4,55);
// initialize both to 55
//PT 3
goToAbsolutePosition(435);
// go back to the top of the hill of the loading zone
brake(4); // brake both motors
goToAbsolutePosition(367);
// go back to gate
rotateServo(65);
// use servo to brake
goFor(1);
rotateServo(0);
// unbrake
goFor(6);
// end of 7 second wait for gate
//lab track
//motorSpeed(4, 55);
// intialize both motors to 55
// class track
motorSpeed(4, 57);
// lab track
//goToAbsolutePosition(275);
// go to a little before top of hill of starting zone
// class track
goToAbsolutePosition(270);
brake(4);
// brake both motors
//lab track
//goToAbsolutePosition(55);
// go to end of track via coasting
//class track
goToAbsolutePosition(25);
rotateServo(65);
// brake with the servo
goFor(1);
rotateServo(0);
// unbrake