TOPIC: Embodied Fabrication 

Lecturers:

Dr Joëlle Bitton
David Wollschlegel

Guest inputs:
Luke Franzke
Marcial Koch

Office hours by appointment

The course runs from 15.11.22 - 23.12.22, from 9.00 - 17.00. See Timetable for more detailed hours.

Overview and Objectives

The course proposes an examination and speculation of technologies as they related to Embodied Interaction (ie. mobile computing, wearable interfaces, location-based interactions and digital fabrication...).
This examination covers societal, ethical and social influences.

This year, the course puts an emphasis on 'Embodied Fabrication', where digital fabrication methods are approached from the perspective of embodiment.
With more flexible and more accessible modes of fabrication and of generative design, and with interactive aspects of materiality and biodesign emerging in recent years, we have the opportunity to investigate ways that we can transform our physical selves and environments.

During this module, we'll uncover some of these possibilities by designing and informing our bodily environment increasingly influenced by data tracking. By group work, you'll propose interactive forms of body extension/representation/mirror/sense.

Design factors have to include:

• material intimacy 

• processes of fabrication 
• data tracking & mapping / generative design
• wearability or extension or external or sensorial apparatus

• performative aspects
• interactive components
• political / environmental / societal context

Your work will encounter some of these research questions: 

• Define your own meaning of an interaction that is 'embodied'
• How does that translate with materials?
• What are the possible interactive experiences with materials?
• What tools/technology can be used to facilitate this process? 
• In what ways does material influence the perception of data?
• How is digital fabrication influencing embodied interaction?

Expectations and Gradings

Grades will be based on group presentations and exercises, class participation, documentation (journal) and final work. 
Contributing to constructive group feedback is an essential aspect of class participation. 
Regular attendance is required. Two or more unexcused absences will affect the final grade. Arriving late on more than one occasion will also affect the grade.

Final work 50% 

Group exercises/presentations 20% 

Journal Documentation 20% 

Class participation 10% 

Any assignment that remains unfulfilled receives a failing grade.  

Deliverables & Workshops

• Kickoff Exercise: Analogue Data Collection 

  Look for sources of your personal body data in the real world. What traces do we leave behind that give us indications about our movements, vital signs or emotions? 
  Be aware of the data you're collecting without intention. Or are you currently collecting data intentionally? 
  Is there a type of data that reveals something specific about your life, your interactions with your environment? Can a short sample offer a complex reflection?
  Your survey has to comprehend at least 6 hours of tracking and showcase a complex aspect of your entangled life (beyond a specific quantity tracking). 
  Think of questions you want to answer before you start tracking.

  
  

  Record videos or take photos to indicate and attempt to extract the data or reflect on it.
  Represent that data in a performative way. 

  Presentation/performance: max 2 minutes - you can invite the audience to take part, use props, etc

  Individual work
  
  

• Thursday Workshop 17.11
  
  
  • Tutorials for scraping Instagram, scraping Tinder, using database from Google Location History in kml format in Processing, using Real Time location with GYROSC, and using socket.io with localhost.run to connect web sockets are here::: Tutorials_scraping_gps_and_more_avt.pdf
  • Sending Data from and to Arduino using https://www.shiftr.io/
    
    
• Workshop Tuesday 22.11
  • Data in Processing
  • 3D in Processing and exporting into .obj for 3D printing
    
    

• Weekly progress reviews
  
  
• Booklet 1st concept, prototype & inspirations
  
  
• Final Project and Presentation: Interactive embodied fabricated apparatus
  

  Use Data-Collection, Generative Design Methods and Digital Fabrication to create an interactive body apparatus (wearable, fashion item, prosthesis, orthesis, prosthetics, implant, extension, external apparatus, architecture, etc).

  Questions to consider in your process:

  • What drives the design? (example: is it functional, speculation or critique)
  • Where could the data come from? (example: sensors)
  • How do you map the data to a geometry? (example: using a metaphor) 
  • Or is the form making process inspired by existing models? (example: fungus, cell division, mathematical geometry,…)
  • What is the fabrication process? 
  • What does your body extension connect with the surrounding environment?
  • What does it embody?
  • What meanings does it create?

  
  

  In groups of four or five students 
  
  

• Presentation Format: Exhibition of Experiments & Performance with Final Prototypes together with an oral presentation.

  Presentation on: 22.12.22
  
  

• Documentation 
  
  
  •  A 'Journal' is developed by each student that reflects on learnings from the course. It should be in the form of an online blog (ie. WordPress, Tumblr or other):
    • The journal should be structured in a generally comprehensible manner
    • The lecture notes, including annotations, are stored
    • Notes, sketches for each lesson should be included as well
      
      
  • Final Documentation per usual guidelines: hi-res pics, PDF with text, video documentation (see Wiki)

Course outline  

• Timetable 2022 
  

Student Teams & Journals 

Journals Readings

Embodied Interaction: Exploring the Foundations of a New Approach to HCI

http://acadia.org/papers

Creating physical visualizations with makervis

Supporting the design and fabrication of physical visualizations

https://issuu.com/pabloherrera/docs/algorithmicmodelling

Related Projects (small selection)

Visualisation

Magnetic Movie

Technorama Building (analog wind visualization)

Experimental study of apparent behavior

Study for Fifteen Points

Parametric design and Digital Fabrication for Inflatables

Fashion context

https://www.pinterest.nz/pin/336573772141747181/

http://behnazfarahi.com/bodyscape/

https://www.pinterest.nz/pin/564779609510964664/

https://www.pinterest.nz/pin/563794447076862696/

http://www.iaacblog.com/programs/miura-ori-skin/

https://www.pinterest.nz/pin/288511919858286303/

https://www.media.mit.edu/projects/rottlace/overview/

Data

https://driesdepoorter.be/thefollower/ (Revealing hidden information)
https://mkorostoff.github.io/1-pixel-wealth/ (data experienceable) 

Tools and Software

• Rhino 6.0 Trial for Windows or Rhino 5.2 for Mac (90 Day test license) including Grasshopper
• https://shiftr.io/
• Skanect (3d scanning with kinect)
• Meshmixer (editing meshes)

Tools available: 3D printer (Ultimaker, Delta, Cetus, Single-line), laser cutter, foam cutter, wire bender, photogrammetry....

Additional Tutorials & References

Rhino and Grasshopper basics workshop 

Shiftr.io Pocket

• Collect and store data with shiftr.io and Processing

Kinect & Skanect

• Skanect instructions

Skanect to Rhino

• Skanect to Rhino instructions

Rhino

• Basic
• Intermediate
• Advanced

Grasshopper

• Basic
• Intermediate
• Advanced
  
  
• http://grasshopperprimer.com/en/
• 
• 

Arduino wireless sensor kit

• Kit and Instructions

Processing

• Lecture Examples
• Processing 3D

Exercises

1. http://www.deprocess.org/tutorials/grasshopper-data-trees/

2. link>

3. https://issuu.com/pabloherrera/docs/algorithmicmodelling (Chapter 4 - Tranformation)

4. link>

5. link>

6a. link>

6b. link>

Examples Scan Data / Rhino

Example populating mesh / Grasshopper

Example using shiftr-io / Grasshopper

Textile laboratory ZHdK

https://intern.zhdk.ch/?materialbezug

https://intern.zhdk.ch/?wslnews