Drivebases
package com.arcrobotics.ftclib.drivebase
Last updated
package com.arcrobotics.ftclib.drivebase
Last updated
All of the FTCLib drivebase classes are based on the RobotBase
abstract class. This is functionally similar to the RobotDriveBase class in WPILib. It contains:
An enumerator for the different motor types (i.e. the indices of the motors in the array)
Maximum possible speed for the drivebase to approach
A clipping method between a minimum and maximum value
Normalization of wheel speeds
A stop()
method
Square input method
All of the following drive types are available for use in FTCLib. All that's needed for the user to do is plug in the values to an instantiation of the object.
A differential drive is one that has two motors or motor groups on either side of the robot. Each side acts as a connected set or motor group. There are two types of drive systems here. You can use the tank and arcade control schemes with a differential drive.
Creating the drivetrain object is simple:
The constructor has two parameters: left and right. For a differential drive, it considers each side as a single motor. As a result, you need to pass in a motor group object.
Arcade drive use a y-value input from the controller and a value from the turn stick. We know that when the turn stick is pushed left, the right side should move forward and the left side should move backwards. Therefore, since pushing the turn stick to the left returns a negative value, it should be added to the left speed and subtracted from the right speed.
Here is how to call the method for arcade drive. An additional boolean parameter is optional, which is squareInputs
. By default, this value is false.
Tank drive uses a y-value input from the left and right sticks. The sticks control their respective side of the robot.
In FTCLib, we shortened holonomic drive to the generic term H-Drive. A holonomic drive is one that can move in omnidirectional space, which is why it is often called an omnidirectional drive. There are different sub-types of holonomic drivebases.
A three wheel holonomic drivebase, otherwise known as a "Kiwi" or "Killough," is a drivetrain with omnidirectional motion while utilizing three omniwheels.
You can create the kiwi drive as such:
Your slide motor is generally the back of the kiwi drive and the others are self-explanatory.
An X-drive is a holonomic base that has four omniwheels positioned into an "X" shape as seen below.
You can create the x-drive drive as such:
A mecanum drivebase is a type of holonomic drive that utilizes mecanum wheels for movement.
For more information on mecanum drives, please watch this video:
You can create the mecanum drive as such:
Like how the differential drive has two different control schemes, so too does holonomic. There is field-centric and robot-centric. The only difference is that there is some sort of interpolation of the robot's heading (the direction the forward face is pointing globally).
Robot-centric assumes that each push of the joystick is in relation to the local position of the robot—this means that whenever the user pushes the drive stick forward, the robot will drive in the direction of its front-facing side.
For all types of holonomic drive you do this by calling the .driveRobotCentric()
method that takes the gamepad inputs and converts them into directional values.
Field-centric assumes that each push of the joystick is in relation to the global position of the robot—this means that whenever the user pushes the drive stick forward, the robot will move away from the driver no matter its orientation. This is done by rotating the direction of the joystick clockwise by an angle measurement equivalent to the global heading of the robot.
For all types of holonomic drive you do this by calling the .driveFieldCentric()
method that takes the gamepad inputs and converts them into directional values. Additionally, you include the reading for the heading in degrees.