# Odometry

package com.arcrobotics.ftclib.kinematics

When using these classes, it is important to keep angles in radians. Distances should be consistent.

## Pose Exponential

Pose Exponential is a general FRC term for the constant velocity method of odometry utilized in FTC. We use pose exponentials because the cycle times of control loops in FTC can vary significantly.

This method uses differential equations to solve the nonlinear position of the robot given constant curvature. As such, we will not explain the math here. If you are interested in the math behind it, we suggest you read up on Tyler's book.

### Offsets and Trackwidth

The trackwidth is the distance between parallel encoders. This value should be tuned so that a precise calculation can be made. This value is a required pass into the constructor.

The center wheel offset accounts for the distance between the center of rotation of the robot and the position of the horizontal encoder. This is only necessary for the holonomic odometry.

To tune these values, make a rough estimate with a measured value and then use some sort of method for testing and updating the values until the outputs become reliable. Alternatively to beginning with a measured value, you can start at 18. Your value should then converge to some smaller distance.

## Creating the Odometry

A sample usage of FTCLib odometry can be found in this sample folder. A sample for dead wheels can be found here.

### Using the Odometry Class

To use the odometry class, there are three different constructors depending on how you want to run your odometry. One method of running the odometry is using suppliers to have the class update your positions for you. The other is to manually input the sensor data into the `update()`

method, which has parameters of the left encoder value, right encoder value, and horizontal encoder value (which is only used for holonomic). If you use suppliers, you can just call the `updatePose()`

method which uses the suppliers to call the `update()`

method.

You should call the respective update method once every cycle of the control loop.

### Using the Odometry Subsystem

The OdometrySubsystem class is a template subsystem meant to make command-based programming around odometry much simpler and functional. Using the odometry subsystem makes it more accurate because the position will update itself through the scheduler's call to its `periodic()`

method, which updates the position. The subsystem makes use of the suppliers, so you will **need** to use that constructor instead of the other for the FTCLib subsystem. Alternatively, you can create your own odometry subsystem.

The PurePursuitCommand makes use of the OdometrySubsystem class.

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