Designed by team DECODE {Junkai Jian and Jinqi Huang}. Both of them just graduated from Architectural Association {Design research lab} 2008. This is a conception design of high dense tower in Shanghai.

Proposal : All cities use subdivision logic to define spatial, geometric and distributive hierarchies. Based on this shared structure, a cellular coded methodology is proposed to configure the future Tower typology in the post-Expo times for Shanghai Expo 2010 site , the density of which is undoubtedly going to be higher and higher after the Expo.


The proposal employs code-based scripting methodology with increasing capacity to manage higher orders of complexity required by the cellular network logic. These cells are generated by subdivision codes, and they grow vertically in a series of new tower typologies. Various systems are coded with specific algorithm for growth and expansion, configured to articulate gradual transitions and subdivisions with a segmented mathematical approach to the formation of curvilinear spaces and structures. Surface modules are arrayed based on various parameters to form aggregate building structures and space dividers, achieving a high degree of complexity from simple local conditions.

Direction, such as major direction of the sunlight or view is a crucial contextual information, become one of the major parameters here. Each level plan is unique, but all of them are under the control of this discipline. The emergency stairs and elevator core are close together, growing and twisting inside the tower.

The design exemplified how algorithms can be appled parametrically in the formation of design systems in relation to specific contingent criteria.The series of computational procedures applies a unique subdivision logic and curvilinear surface algorithem as a sequence of scripts generating iterative cellular spaces and material interfaces. Recursive computational design procedures allow for feedback,adjustment and optimization of specific organizations conditions of a project brief.

2009

2009

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