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    World Writing Museum   

Competition in Korea - International Colaboration
A redering of the competition contribution to the National Museum of World Writing in Songdo, South Korea. The building has an Organic Envelope, Urban Contextual Integration, flexibility of Spatial Expansion, and  3 interlacing organically shaped roof panels based on a sun study using Ladybug.

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A redering of the competition contribution to the National Museum of World Writing in Songdo, South Korea. The building has an Organic Envelope, Urban Contextual Integration, flexibility of Spatial Expansion, and  3 interlacing organically shaped roof panels based on a sun study using Ladybug. This image has details added

Circulation

Staircase Tool

OSM - Data

Importing Surrounding

Roof Perforation

Daylight Control

Blob

Envelope Tool

Translation Algorithm

T- Splines to NURBS

TL;DR

World Writing Museum - A Journey in Computational Design A Collaborative Endeavor Across Continents Our journey in computational design was an inspiring collaboration that transcended borders. A diverse team, scattered across different continents, came together digitally to create the National Museum of World Writing in Songdo, South Korea. Geographical distances and time zone variations couldn't deter us. We harnessed the power of digital tools such as WhatsApp, Teams, Messenger, and Drive, transforming them into virtual bridges that brought our ideas to life. It was as if we were all in the same room, discussing, brainstorming, and shaping our vision. Designing a Vision for Tomorrow The competition brief was our compass, guiding us to envision a 15,650m2 landmark museum within Songdo's visionary urban landscape. This unique institution would blend the roles of a library, an archive, and a museum into what we called a 'Larchivium.' Our mission was clear: to craft a space that offered diverse social, cultural, and educational experiences. Creating an Organic Envelope Before diving into the finer details, we recognized the importance of an organic envelope that would encase our creative vision. This led to the creation of the Blob Envelope Tool, a tool that allowed our designers to work with the familiarity of rectangles while ensuring an organic, visually captivating enclosing envelope. This innovation became invaluable for form-finding and played a key role in creating an engaging visitor experience. Urban Contextual Integration To set the stage for our design, we began by importing the urban context as Open Street Map (OSM) data. This data, meticulously interpreted, enabled us to extract relevant information and extrude structures based on height data. Google Earth images provided additional context where needed. This urban backdrop became the foundation for our project, guiding decisions related to placement, orientation, and circulation. It also served as a crucial element in our renders, forming a 3D mesh background. Flexibility of Spatial Expansion Our vision went beyond traditional design; it was about creating a dynamic, evolving space. We introduced the concept of spatial expansion, allowing the museum to adapt and grow over time. At its core was the idea of circulation, a dynamic feature that flexed with changing needs, transforming the museum into a new symphonic multifunctionality. Crafting with Precision As we delved into the project's execution, we didn't rely solely on distance-spanning software like WhatsApp and Teams; we also harnessed the processing power of V-Ray on our computers in different countries to execute the heavy renders. This allowed us to bring intricate details to life, ensuring the project's realism and accuracy. Mastering the Play of Light Our journey led us to master the play of light within the museum. It began with the exposure of 3 interlacing organically shaped roof panels to a sun study using Ladybug. This analysis helped us understand the effects of penetrating light in the interior areas. Based on this insight, we crafted perforated Brep and translated it into a proper Mesh for rendering, creating an atmosphere that added depth and meaning to our exhibits. Achieving a Harmonious Whole While navigating the complexities of rule sets for national law compliance, we explored various systems. Balancing design contrast with continuity, we created connecting platforms and extruded handrails. Geometry seamlessly integrated to form a harmonious whole, ensuring that every element of the museum served its purpose within the broader vision. Join Our Journey Our journey spanned continents, proving that when creativity knows no bounds, incredible things happen. We are honored to have contributed to the creation of an institution that will attract visitors from around the world, fostering cultural exchange and community unity in Songdo.

A photo of the competition site with the urban context.
A_Surrounding
Context Evaluation
Open street map data import as curves and surfaces in Rhino via Grasshopper and Elk
OSM - Data
Importing Surrounding

Importing Open Street Map data

Extracting relevant information

Building 3d mesh background

Exporting categories into layer

A perspective with more details from OSM and GIS files and interpreted extruded building showing vertical realations.
The Ground Floor Plan of the museum
Formfinding Strategy
The icon of the Blob tool that was developed to enable colaborators to play with regions and have the initial design automated
Blob
Envelope Tool

Defining target consens and flexibility wish list within team

Creating input paremeter sets

Developing strategies

Testing and optimizing performance

Releasing functional tool to team

The customization options of the early version of the design tool.
3d interior view of the museum, showing the light effects of the overlapping perforated roof panels
A_Envelope
ROOF
Seoul competition site photo with rendered museum design.
Translation Algorithm
T- Splines to NURBS

Establishing Workflow

using Rhinoceros 5

Referencing T-Spline geometry

Reverse engineering geometry

by 3d tracing using heuristics

Refining script into useful tool

Grasshopper algorithm of perforation strategy
Roof perforation according to sun study
Overlapping perforated roof panels
Roof Perforation
Daylight Control

Sun study using Ladybug

Simulating Daylight Performance for

layered roof elements

Perforating layered Roof- Elements according Sun study

Optimizing boolean algorithm

Meshing resultant NURBS geometry

A_Roof
Interior rendering showing the staircase landscape and exposing the journey
CIRCULATION
Interior rendering showing the staircase landscape and exposing the journey
Connecting organic floors with code complient stairs
Circulation
Stair generation tool

Setting up ruleset for national law

Exploring different systems

Deciding for contrast in design over continuous form language

Setting up connecting platforms

extruding handrails

backing and releasing geometry

Interrior view of connected staircases under overlapping perforated roof panels
A_Circulation
A night rendering competition contribution to the National Museum of World Writing in Songdo, South Korea. The building has an Organic Envelope, Urban Contextual Integration, flexibility of Spatial Expansion, and  3 interlacing organically shaped roof panels based on a sun study using Ladybug.
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