- Work on electrical design for new robot.
- Auto strafing based on position values from camera and network tables
- Test out the NavX, decide if it's a better gyro than our regular gyro, and what other features might be useful. Robotpy NavX docs:
http://robotpy.readthedocs.io/projects/utilities/en/stable/robotpy_ext.common_drivers.navx.html#robotpy-ext-common-drivers-navx-package - Do some testing with the gyro to see how far off the values are, seeing if it is possible to fix the inaccuracies...
- Get streaming working well on raspi
- Get exposure control on driverstations (Needs Work)
- Start figuring out how we might manuver the robot during auto
- Get access to network tables
- Start by simply rotating towards the pin
- Next attempt strafing so the robot is aligned with the pin
- Calculate distance from retroreflective tape
List from Mike (preventative measures):
- Batteries
- Battery Beak, logging and tracking internal resistance
- Make a google spreadsheet to track battery data
- Use computer to collect data/make a graph about voltage over time
- Put meaningful labels on the batteries
- Build load testing board
- Power Distribution Panel
- ​Can read voltage/current on every port
- Could be used for diagnostics
- Make a checklist
- Learn how to read LED indicators on all components
- Guidlines for checking wire integrity
- Unit tests in robot code
- Check to see if sensors are working?
- Motors running correctly
- Battery has enough voltage
- Check the pneumatic pressure as well as solenoids
- Useful for prematch/prebagging​
- Voltimeter between the various locations
- Sensors
- Range finders - analog IO -> RIO (code)
- Touch sensor - digital IO -> RIO (code)
- Checkout Code // Comptetion Code