Difference between revisions of "Msc3workshop:ex25d2rp"

Revision as of 14:41, 13 November 2015

ex25D2RP - Performative Hybridity

Theme

The Performative Hybridity workshop focuses on developing:

A. Transportation-nodes and info-hubs connecting the water and land transportation networks for the Expo 2025.

B. These nodes are interactive portals interfacing water and land, city and world.

C. They operate as distributed water-bus/taxi landings with integrated real-time information and communication capabilities and perform on various levels from bus/taxi and rest stop incorporating cafeteria, business services, and Internet access to communication hub ensuring information exchange and dynamic crowd management.

In this context, performative hybridity will be explored at architectural, building component and material scale. At each scale hybridity will be explored with respect to employing multiple materials and systems that have various performances. Performances may address functional, formal, material aspects, etc., while changes in performativity requirements may be addressing, for instance, inside-outside transitions and may imply porosity change or some other material or immaterial transformation. Performance parameters (related to functional, structural, and/or environmental requirements) vary in time and are drivers for the design of passive, active, and interactive systems that are embedded in building components.

Design Brief

The aim of the workshop is to design a complete performative structure with various degrees of enclosure from semi- and completely open (75%) to enclosed (25%). The structure consists of materially informed and interactive components, whereas materially informed components are addressing requirements with respect to functional, structural, and thermal insulation performances and interactive components have embedded sensor-actuators. While sensors may count visitors, the Expo 2025 planning software may evaluate distribution, and may suggest strategic routes to avoid overcrowding, actuators may block or open window, doors, i.e. portals, provide information, etc.

The overall design will address ranges from enclosed to open in terms of continuous variation in porosity, while functionalities may require different types of EPS.

Objectives

The workshop advances design-­to-­robotic-production (D2RP) methods developed by the RB team with the aim to explore performative hybridity at different scales, ranging from micro levels, as material systems, to macro levels as spatial and architectural configurations. The goal is to integrate materially informed and interactive systems into the D2RP process. This will be implemented by:

A. Designing a complete 1:1 architectural structure:

   a.  Size of structure: 8-12 m3 consisting of 8-10 components 
   (the lower components number is, the better);
   b.  Components  respond to structural i.e. topological optimisation and environmental requirements as 
   well as assembly/disassembly constraints;  
   c.  Functionality addresses requirements for transportation, information, and connectivity 
   (between water and land, local and global events and networks) that the Expo 2025 necessitates. 
   Notions such as transferium, hub, gate, portal, and landing are explored with respect to their 
   virtual and physical characteristics in order to develop an integrated D2RP and operation approach.

B. Implementing and advancing state of the art architectural robotics

C. Building upon already-accumulated D2RP experience:

   a.  Hybridity
   b.  Componentiality
   c.  Variation

D. Form 3 groups connected to fabrication geometry topology:

   a.  Topology
   b.  Assembly
   c.  Porosity

Deliverables

Group Dynamics

A. Dividing strategically students into 3 workgroups:

   a.  Each group will develop 2-3 components that address characteristics of individual projects.
   b.  Skills in D2RP and interactive systems will be distributed in such a way that each group has a
   D2RP expert from the previous MSc 2.

B. The 3 workgroups explore leading themes at 3 different scales:

   a.  Macro - Structure - Topology 
   b.  Messo - Component - Assembly 
   c.  Micro - Environment - Porosity 

Schedule