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USC AUV Main Module

the USC AUV team's logic for path following and task execution; can run in Python 2 or 3

build/install instructions:

  1. Make sure you're in the root directory (the one with setup.py)
  2. python3 setup.py sdist bdist_wheel
  3. cd dist
  4. pip3 install main_module-0.0.2-py3-none-any.whl

You can also download the wheel here: https://github.com/usc-auv-team/main.module/releases/tag/0.0.2

primary code outline:
gyro
_abstract: requirements of a gyro class
ros_gyro: an implementation with callback methods for use with ROS
simulation: an implementation that requires no external inputs and allows for quick debugging

odometer
_abstract: definition and explanation of what a gyro class does
disconnected: an implementation that yields no data (if we need to "fly blind")
ros_odometer: an implementation with callback methods for use with ROS
simulation: an implementation that requires no external inputs and allows for quick debugging

paths
_abstract: requirements for creating Leash-compatible lines and curves
cubic_spline: an implementation allowing us to swim along cubic splines
curve: an implementation allowing us to swim along a curve defined by a parametric equation
point_list: an implementation allowing us to swim from point to point in a list

planning
events: logic for executing arbitrary commands at specified points on a path
leash: logic for autonomously following paths with propulsion
strategy: abstract class for combining and following a set of events and a leash
s2018
coach: a class that lists possible strategies and initializes whichever one gets chosen
test: contains 2 strategy implementations for debugging purposes

propulsion
_abstract: requirements for creating an autonomous-capable propulsion class
robot2018: an implementation to be used with ROS this year
simulation: an implementation that requires no external inputs and allows for quick debugging

subsystems
_abstract: requirements for creating an autonomous-capable subsystem

Please contact [email protected] if you have questions.