Difference between revisions of "W1"

From cs
Jump to: navigation, search
(WORKSHOP 1 DESCRIPTION)
(WORKSHOP 1)
Line 21: Line 21:
 
<br>
 
<br>
  
=='''WORKSHOP 1'''==
+
=='''CONTENT & APPROACH'''==
  
 
The 1st workshop introduces students to Design-to-Robotic-Operation ('''D2RPO''') in order to achieve physical and sensorial reconfiguration. Students are asked to identify reconfigurable components (lights, ventilators, heaters, or shading devices, furniture, and other reconfigurable building components such as walls, floors, etc.) for CS and possible reconfiguration strategies (turn on/off, move, rotate, bend, etc.) with help of references either documented on:
 
The 1st workshop introduces students to Design-to-Robotic-Operation ('''D2RPO''') in order to achieve physical and sensorial reconfiguration. Students are asked to identify reconfigurable components (lights, ventilators, heaters, or shading devices, furniture, and other reconfigurable building components such as walls, floors, etc.) for CS and possible reconfiguration strategies (turn on/off, move, rotate, bend, etc.) with help of references either documented on:

Revision as of 15:16, 10 April 2018


ADAPTIVE RECONFIGURATION

Swarmscape2.png


CONTENT & APPROACH

The 1st workshop introduces students to Design-to-Robotic-Operation (D2RPO) in order to achieve physical and sensorial reconfiguration. Students are asked to identify reconfigurable components (lights, ventilators, heaters, or shading devices, furniture, and other reconfigurable building components such as walls, floors, etc.) for CS and possible reconfiguration strategies (turn on/off, move, rotate, bend, etc.) with help of references either documented on:

IP-wiki: http://ip.hyperbody.nl/index.php/Msc2G1:Group, http://ip.hyperbody.nl/index.php/Msc2G9:Page3, http://ip.hyperbody.nl/index.php/Msc2G8:Page2

UF-wiki http://uf.roboticbuilding.eu/index.php/Msc1G3:Group, http://uf.roboticbuilding.eu/index.php/Msc1G2:Group

Philip Beesley’s and Daniel Roosegarde’s websites: http://philipbeesleyarchitect.com/, https://www.studioroosegaarde.net/project/dune


In all these referenced contexts, reconfiguration is implemented in order to achieve a spatial and/or ambiental performance that otherwise could not be achieved. Respective performances involve both utopian (https://www.youtube.com/watch?v=-FvL-S10Orw) and dystopian (https://www.youtube.com/watch?v=WB2-2j9e4co) aspects that need to be considered.

To be furthermore considered are current developments moving from mechatronics (https://www.youtube.com/watch?v=XdIiS7R5m_4) towards soft robotics (VOCATIV https://www.youtube.com/watch?v=vhomcCEAXCg and AMOLF https://amolf.nl/research-groups/soft-robotic-matter).


Main questions to be answered are: If the static superstructure harbours dynamic components and each individual or group can customise and reconfigure its environment, what are the utopian/dystopian scenarios that are considered, which are the static and the dynamic components, what is the required degree of customisation and how its is to be achieved, what is the desired/possible frequency of reconfiguration in order to achieve what performances, etc.


Performances considered are physical comfort (P1) , privacy (P2), and playfulness (P3). For the purpose of this workshop reconfiguration will be limited to physical reconfiguration and Swarmscape (http://ex25.hyperbody.nl/index.php/Msc1G2:Student4) will represent the framework within which new experiments will be implemented. For instance, variable tessellation will allow not only changes in spatial subdivision (http://www.rewana.com/inflatables-installations-performances-inside-out.html, https://www.dezeen.com/2016/07/12/big-bubble-cloud-inflatable-pavilion-roskilde-music-festival-2016-denmark/) but also transitions from seating to lying down (http://www.lghimacsusa.com/media/93/203) or playing.



COORDINATORS & TUTORS

Henriette Bier, Sina Mostafavi, Rosanne le Roy, Vera Laszlo and invited guest Teun Verkerk (TBC)



STUDENTS

See groups 1-3