find alternative to battery coolers that don't leak (upside-down a permanent solution?)
change to Pi3 to allow station WiFi connection (only $40*60 = $2400). Have to consider or mitigate possible increased power consumption.
Modify fuses such to use resettable fuses in line with higher current blowable fuses.
Upsize all mote sensor fuses to accommodate TP01 (straightforward, though boring, soldering rework)
Up-voltage serial frontpanel protection diodes to accommodate 24VDC (a lot of work since easiest if frontpanels pulled from DSMs)
Move TRH fan controller circuit to inside PIC module (a lot of work, since all ~120 will need to be remade)
Add/buy A/D input (via USB?) for Pi DSMs (cool would be an excess inventory of wisard boards, but presently expensive to wire up. COTS are available but moderately expensive at 16bit resolution: e.g. LabJack $300ea)
Replace empty fuses (that have been stolen to replace blown fuses) in DSMs
Other DSM fixes: one blown brick; stolen stack at rne04; blown power front panel on rsw07?
Arrange for a guest lecture/course on the topic of grounding!
Tbox/Tdsm recorded?
Data to field catalog didn't happen(?); informal transfers mostly did (but not from Porto?); many PI in-field requests weren't included in ops/data plan
ops plan came out at end of project – did anyone read?
rad cleaning – need to train staff
rad orientation; soil placement – need to train staff
post-cals on IR H2O/CO2 sensors needed (most didn't have precals, since new)
Always make station diagrams – easier for staff to follow
more 2-letter commands: md 1 (for mote_dump -i -1,1); pu (ping ustar), ...
fix blueterm not using control keys (maybe by going to wifi and abandoning bluetooth...)