Briefing

• Submitted version of the briefing Charging_reality_v4.pdf.

Hexagon formulas

• http://www.wolframalpha.com/input/?i=hexagon

Budget

Main Variables

• #bottle_nr = Number of bottles. 200?
• #pillar_nr = Number of Pillars. 3

Items

• Water cooler bottles = €2 (??)
• Lights (2*#bottle_nr) = €10
• Electronics + per_bottle_cabling = €5
  • PSU = #bottle_nr / 50 * €40
• Rent of scaffolding for the exhibition: ???

Walking route: assume 400 bottles, total budget 12,500 Water route: assume 900 bottles, total budget 25,000

Work estimate

• One off
  • software: 40H ?
  • Electrical design

• Construction of lattice?
  • 80H ?

• Time per bottle (at scale)
  • PCB: (10/60)h
  • Cabling (5/60)h
  • fitting (5/60)h

Work activities

Construction of

• Grid of bottles
  • The lattice.
  • Adhering the bottles to the lattice.
• The pillars
  • Light sensors
  • Charge lights
  • Connection to the gird
• Electronics
  • Solution design
  • Getting the lights + electronics in the bottles?
  • Wiring it all up.

Brainstorms, dumps and questions

• Getting things water resistant is going to be an issue.
  • What connectors between bottles are we going to use?
• Who knows about these kind of constructions?
  • Use scaffolding beams for the main construction?
• How much light (in watts) in a single bottle is needed?
• Coat the body of the bottle in semi-translucent white/light-gray.
• The pillar is just a bottle that the user can set the intensity to. It simply has neighbor bottles.
• Grid Light control
  • Centralized and Distribute signal
  • Every bottle individually + signaling of light of neighbors and reaction to that (= conceptually nicest, closest to reality, updating needs attention)
  • Per small group of bottles.

Power

• PSU of 500W is €40. If we average 10W max per bottle (we don't do 100% on all bottles at the same time) then 50 bottles per PSU.

Bring to the meeting

• At least one Water cooler bottle with lights installed