Difference between revisions of "FRC 1640 Punchlist"
From DEW Robotics
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(→Programming / Control) |
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* All programming team members need to complete the certification test | * All programming team members need to complete the certification test | ||
* Position and angular error spread for autonomous movement (by revolution counts) via testing procedure (Pat, Julie, Siri - procedure documented) | * Position and angular error spread for autonomous movement (by revolution counts) via testing procedure (Pat, Julie, Siri - procedure documented) | ||
− | + | ** Tweaks to keep in mind for tach-based autonomous driving: | |
− | ** Tweaks to | + | *** Wheel initialization -- e.g. rotate 360 degrees (no shortest distance), then back 180 degrees |
− | *** Wheel initialization -- rotate 360 degrees (no shortest distance), then back 180 degrees | ||
*** Ramp up drive power based on revolutions reported by encoders | *** Ramp up drive power based on revolutions reported by encoders | ||
− | ** Gather tach-based autonomous driving trial data | + | ** Gather tach-based autonomous driving trial data -- '''FOR EACH COMPETING ALGORITHM''' if there is more than one approach being actively pursued |
* Demonstrate move to/wait for Hot Goal | * Demonstrate move to/wait for Hot Goal | ||
* Demonstrate dashboard-to-robot-code communication | * Demonstrate dashboard-to-robot-code communication | ||
* Prototype shooter code | * Prototype shooter code | ||
+ | ** Demonstrate to mechanical reps | ||
* Prototype ball collection code | * Prototype ball collection code | ||
+ | ** Gather specs from mechanical reps | ||
==Scouting== | ==Scouting== |
Revision as of 18:23, 9 February 2014
We are making the transition from prototyping to fabrication. It's time to (finish designing and) build a robot.
Mechanical Fabrication
- Pivots
- Complete cutting and key the 7075 Al transfer axles
- Key and cut retaining clip groove into 4140 steel co-axial drive shafts
- Fabricate angle sensor mounts
- Key 32T Al pulleys (1" diam)
- Chassis
- Complete gussets
- Finish welding Deux
- Start welding Prime
- Slingshot
- Complete rough cutting 1 x 1 square tubing
- Finish square tubes with non-square ends
- Cut gussets
Design
- Layout basic state logic with programmers (Siri, Julie - draft done)
- System-level ball routing, ball auto-ejection, manipulator tensioning
Programming / Control
- All programming team members need to install LabVIEW and FRC software on a personal computer (see DEWBOT_X_Programming for details) -- Make sure FRC 2014 appears when starting LabVIEW
- All programming team members need to complete the certification test
- Position and angular error spread for autonomous movement (by revolution counts) via testing procedure (Pat, Julie, Siri - procedure documented)
- Tweaks to keep in mind for tach-based autonomous driving:
- Wheel initialization -- e.g. rotate 360 degrees (no shortest distance), then back 180 degrees
- Ramp up drive power based on revolutions reported by encoders
- Gather tach-based autonomous driving trial data -- FOR EACH COMPETING ALGORITHM if there is more than one approach being actively pursued
- Tweaks to keep in mind for tach-based autonomous driving:
- Demonstrate move to/wait for Hot Goal
- Demonstrate dashboard-to-robot-code communication
- Prototype shooter code
- Demonstrate to mechanical reps
- Prototype ball collection code
- Gather specs from mechanical reps
Scouting
- Layout preliminary match and pit UI sheets and Excel/Tableau files
- Lock down prioritize (first generation) metrics
PR
- Paint more hats
- Plan/start videos (at least release video)
- Vests and sweatshirts
Welding
- Build a shelf storage unit for the welding area giving welding team much needed practice.
- We've been using alloy 4043 for all our robot welding. However, alloy 5356 may be a better choice. It is more ductile and stronger especially in
shear, which it what many of our chassis joints are subject to. We need to devise a simple test to evaluate.
- Weld pivot tubes to pivot tops