Difference between revisions of "Amsterdam Light Festival 2018:Charging-Pillars"
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− | = | + | = Briefing = |
− | + | * Submitted version of the briefing [[media:Charging_reality_v4.pdf|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) | |
− | light | + | ** 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 |
Latest revision as of 14:52, 17 January 2018
Contents
Briefing
- Submitted version of the briefing Charging_reality_v4.pdf.
Hexagon formulas
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