Lecturers: Joël Gähwiler, Luke Franzke
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In the first one and a half weeks, the students will work individually through the introductory topics. In the second stage, students will form groups of 3 people for the final project.
Topic:
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Quellen der Energie (im Zauberwald)
This year, students work will be exhibited in Zauberwald in a collective installation. The installation covers the topic of Energy Production and will combine outcomes from Physical Computing and Interactive Visualisation. In the Physical Computing module, students will develop an input device, that will later be used to control a visualisation developed in the Interactive Visualisation module. More information on the project can be found here.
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Guidelines for the object:
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- Object emits one value from 0.0 to 1.0 to be understood as the current energy production.
- Circular Base with a diameter of 400mm (the tree stump is 600mm).
- Robust, Waterproof waterproof and resistant in below zero environments.
- Construction only with wood and/or plexiglassappropriate materials (decision will be made together).
- The object should have both sensors (inputs) and actuators (feedback) .
- Easily reproducible (: CAD drawings and electronic schematics must also be delivered.
Technical Specification
Each object must use a Arduino MKR1000 (WiFi, 3.3V) that connects to a shifr.io namespace and transmits the current energy production as string representation of a floating point value between 0.0 and 1.0. At the final presentation we will communicate access credentials to a shared namespace as well as topics for the individual objects that need to be configured. We will use the data to feed a simple visualization that will present the common energy production per power type.
Groups
Wind
- Jennifer, Mara, Felix (wind1)
- Lilian, Randy (wind2)
Water
- Melanie, Marcial, Michelle (water1)
- Duy, Fiona, Colin (water2)
Solar
- Claudia, Stefan, Janina (solar1)
- Andrin, Edna, Dominik (solar2)
Deliverables
Individual
- Scans of Notebook (PDF)
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- Individual Documentation (30%)
- Group Work (70%)
Presentation
For the presentation you will need to bring your objects to 4.T33. Ensure that your project is connected to shiftr.io using the MKR100 with the shared name space for the Zauberwald project (you will be briefed how to do this). A simple visualisation has been prepared to show the outputs on the screen in the seminar room.
- 5 minutes for presentation, and 5 minutes for feedback and discussion
- Live demonstration of your project
- Explain the process and the thinking that brought you to this outcome
- Indicate any further steps that are required to realise your project in an outdoor, winter setting
- No slides needed
References and Links
- Introductory Slides
- Electronic Basics
- Projektbox
- Linksammlung
- Projektsammlung
- Literatursammlung
- Project box 2020
- Physical Computing Resources
Schedule
Morning: 09:00 - 12:00 Uhr, Afternoon: 13:30 - 17:00 Uhr
W1 | Tuesday 9.10 | Wednesday 10.10 | Thursday 11.10 | Friday 12.10 | ||
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| Morning | Kick-off Electricity Basics JG, LF - 4.T06 | Analog Input | Transistors | Digital Components | ||
| Afternoon | Digital Output | Soldering | ICs, H-Bridges Bits & Atoms III | Individual Work | ||
W2 | Tuesday 16.10 | Wednesday 17.10 | Thursday 18.10 | Friday 19.10 | ||
| Morning | EAGLE CAD | Networking | Moodboard | Individual Repetition | Ideation | |
| Afternoon | PCB Milling | Networking | Project Kickoff Bits & Atoms III | Concept | ||
W3 | Tuesday 23.10 | Wednesday 24.10 | Thursday 25.10 | Friday 26.10 | ||
| Morning | Short Presentation Mentoring | Prototyping | Prototyping | Mentoring | Prototyping | Prototyping |
| Afternoon | Prototyping | Prototyping | MentoringMentoring
Prototyping Bits & Atoms III | Prototyping | ||
W4 | Tuesday 30.10 | Wednesday 31.10 | Thursday 01.11 | Friday 02.11 | ||
| Morning | Build | Build | BuildDocumentation | Bits & Atoms III | ||
| Afternoon | Mentoring | Build | Final Presentation | Documentation |
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