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RobotC Remote Control. Learning Objectives: Focusing on Virtual World with Physical Examples Understand Real-Time Joystick Mapping Understand how to use.

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Presentation on theme: "RobotC Remote Control. Learning Objectives: Focusing on Virtual World with Physical Examples Understand Real-Time Joystick Mapping Understand how to use."— Presentation transcript:

1 RobotC Remote Control

2 Learning Objectives: Focusing on Virtual World with Physical Examples Understand Real-Time Joystick Mapping Understand how to use timers Understand how to incorporate buttons into controlling robot arms

3 Looking at the Joysticks on the Remote Ch1 Right = 127 Middle = 0 Left = -127 Ch2 Up= 127 Middle = 0 Down = -127 Ch3 Up = 127 Middle = 0 Down = -127 Ch4 Right = 127 Middle = 0 Left = -127

4 Accessing the Value for the Remote Commands Physical vexRT[ChannelNumber] Virtual //Place before task main() #pragma debuggerWindows(“joystickSimple”); #include “JoystickDriver.c”; //Place inside the loop prior to joystick. Command getJoystickSettings(joystick); joystick.joy#_axis#

5 Example Using the Remote Values to Drive the Motors Physical Robot Virtual World

6 Joystick Mapping: Virtual ChannelLeft/DownMiddleRight/Up vexRT[Ch1]-127…0…127 vexRT[Ch2]-127…0…127 vexRT[Ch3]-127…0…127 vexRT[Ch4]-127…0…127 ChannelLeft/DownMiddleRight/Up joystick.joy1_x2-127…0…127 joystick.joy1_y2-127…0…127 joystick.joy1_y1-127…0…127 joystick.joy1_x1-127…0…127 Up - Ch2 - Dn x1 y1 x2 y2 Joystick Mapping: Physical //Place before task main() #pragma debuggerWindows(“joystickSimple”); #include “JoystickDriver.c”; //Place inside the loop prior to joystick. Command getJoystickSettings(joystick); Up - Ch3 - Dn Note: If you copy- paste these into your program, you will need to retype in the “”.

7 Online Time: Configure the motors and code the following Physical Robot Virtual World Configure the motors as before: leftMotor, port 1 rightMotor, port 10 and reversed

8 Driving in the Virtual World Compile and Download the Program Select Virtual World (Utility – Huge Table is good for starters) Open ‘Joystick Control –Basic ‘ Debugger Window’ Robot-> Debugger Windows - > ‘Joystick Control – Basic’ Refresh List if the remote does not show up.

9 Robot Creeping? Y1 and Y2 values might not go exactly to ‘0’ when you release the buttons which can cause your robot to creep. Can correct this in the code. Pseudo Code If the joystick reading is close to 0, say +/- 20 Give a 0 power value to the motor Else Give the joystick reading to the motor

10 A Little RobotC Math to Help RobotC Function DescriptionExample abs() Finds the absolute value of a number float x; x = abs(5-10); pow() Calculates a powerfloat x; x = pow(10,3); //Calculates and returns 10^3 sqrt() Finds the square root of a number float x; x = sqrt(8);

11 Physical: Getting Rid of the Creep Using a variable to make threshold changes easier Using the abs command to simplify the condition. if (vexRT[Ch3] >(-threshold)) && (vexRT[Ch3] < (threshold)) Would give the same results. Executes this line of code when the above condition is true. Executes the commands in the ‘else’ when the above condition is false. Do the same for the rightMotor

12 Virtual Getting Rid of the Creep Add the pragma directive and include file. If you copy and paste from the PowerPoint you will need to retype in the “”. Add the getJoystickSettings(joystick); command inside the while loop. Replaced vexRT(Ch2) with joystick.joy1_y2 Replaced vexRT(Ch3) with joystick.joy1_y1

13 More Control Options To fight motors timing out, you can modify the drive code to lower the power sent to the motors. Go half-power Create an equation that maps remote input to output. Had some math wizzes that used a 5 th degree polynomial to provide more control when going slow. Can put together a bunch of ‘stepped’ if elses to give different power values for different ranges of input values.

14 Physical No Creep, Half Power Half Power

15 Virtual No Creep Half Power: Half Power Online Time: Test it on the Utilities -> Huge Table

16 RobotC Timers: Using an Internal Timer to Stop the Robot RobotC has 4 Timers (T1, T2, T3, T4) Commands clearTimer(T1);//Resets timer T1 to 0. time1[T1];// Gives the amount of time in milliseconds since the last reset.

17 Physical Using Timer to limit how long you can drive Will let the user drive for 5 seconds (5000 milliseconds) Instead of while(true) which goes forever, this loop will only repeat when T1 is less than 5000.

18 Virtual World With Timer Instead of while(true) which goes forever, this loop will only repeat when T1 is less than 5000.

19 Online Time Complete and test the drive code with the Anti-Creep code Test to see if the code works in the Utility -> Huge Table In the Virtual Worlds go to the Remote Control Tab Bull in the Ring: Knocking out cans in < 10 sec Robo Slalom I: Driving through a course. A good time to practice refining remote to controller mapping to make driving more accurate Round up: How many laps can you complete in one minute? The code will need to stop you from driving!

20 Buttons Learning Objectives Be able to use the buttons to control motors on your robot. Complete challenges that incorporate buttons.

21 Joystick Buttons: Physical Buttons return a value of ‘1’ when pushed and ‘0’ when not pushed ButtonDescriptionExample 5UTop button on back leftvexRT[Btn5U] 5DBottom button, back leftvexRT[Btn5D] 6UTop button, back rightvexRT[Btn6U] 6DBottom button, back rightvexRT[Btn6D] 7UButton 7 upvexRT[Btn7U] 7DButton 7 downvexRT[Btn7D] 7RButton 7 rightvexRT[Btn7R] 7LButton 7 leftvexRT[Btn7L] 8UButton 8 upvexRT[Btn8U] 8DButton 8 downvexRT[Btn8D] 8RButton 8 rightvexRT[Btn8R] 8LButton 8 leftvexRT[Btn8L]

22 Using the buttons to control the arm motor First we need to go to Motors and Sensors setup to configure the arm and claw motor. Clawbot Arm: Port 7 Claw: Port 6 Robot -> Motors and Sensors setup 1)Name and set the claw and arm motors. 2)Reverse the Arm Motor for Virtual Clawbot. Might need to reverse for physical robot also. 3) Click Apply and OK when finished.

23 Looking at Arm Control using buttons: Pseudo- Code If button 6U is pushed raise the arm (Send a signal of 127) Else if button 6D is pushed Lower the arm (Send a signal of -127) Else Stop the arm (Send a signal of 0)

24 Looking at the Arm: Pseudo-Code to Code If button 6U is pushed raise the arm (Send a signal of 127) Else if button 6D is pushed Lower the arm (Send a signal of -127) Else Stop the arm (Send a signal of 0) Style Note: Indent between the {} to make the code easier to read.

25 Virtual World Buttons joy1Btn(4) joy1Btn(1) joy1Btn(3) joy1Btn(2) Mode joy1Btn(9) joy1Btn(8) joy1Btn(6) joy1Btn(7) joy1Btn(10) joy1Btn(12) joy1Btn(11) joy1Btn(5) joy1_TopHat 7 0 1 6-1 2 5 4 3

26 Joystick Buttons Virtual World Buttons return a value of ‘1’ when pushed and ‘0’ when not pushed, except the TopHat. ButtonDescriptionExample 1Leftjoy1Btn(1) 2Bottomjoy1Btn(2) 3Rightjoy1Btn(3) 4Topjoy1Btn(4) 5Back, top leftjoy1Btn(5) 6Back, top rightjoy1Btn(6) 7Back, bottom leftjoy1Btn(7) 8Back, bottom rightjoy1Btn(8) 9Small button, top leftjoy1Btn(9) 10Small button, top rightjoy1Btn(10) 11Left joystick buttonjoy1Btn(11) 12Right joystick buttonjoy1Btn(12) TopHatReturns values -1 (Not pushed) or 0, 1, … 7 depending on which part is pushed. joystick.joy1_TopHat joy1_TopHat 7 0 1 6-1 2 5 4 3

27 Back to the Arm Movement Pseudo-Code but for Virtual Remote If button 6 is pushed raise the arm (Send a signal of 127) Else if button 8 is pushed Lower the arm (Send a signal of -127) Else Stop the arm (Send a signal of 0)

28 Arm Pseudo-Code to Code: Virtual World If button 6 is pushed raise the arm (Send a signal of 127) Else if button 8 is pushed Lower the arm (Send a signal of -127) Else Stop the arm (Send a signal of 0)

29 Where does this code go? Since you want the robot to continually check for the buttons being pressed, it needs to go inside the while(true) loop.

30 Online Time: Test Arm Movement Implement the code for the arm movement and test it in the Virtual or Real World. Try to use what you have learned to program the Claw motor as well using the back left buttons. Test your robot on the ‘Huge Table.’

31 Any problems? Arm floating down when button not pushed? How can you combat this? Arm didn’t move

32 Claw Motor Pseudo Code If the back, top, left button is pushed Close the claw (127) Else if the back-bottom-left button is pushed Open the claw (-127) Else Leave the claw (0) Virtual Physical

33 Challenge using Buttons Minefield Challenge: Clearing the table of bad mines while not disturbing others

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