CONTENTS REFERENCES - PAGE 1 PRECEDENTS - PAGE 2 CONCEPTUAL DESIGN - PAGE 3 CONCEPTUAL MODEL SHORT-LIST - PAGE 3.5 EXPLORATIONS - PAGE 4 DESIGN DEVELOPMENT - PAGE 5 MATERIAL SYSTEM - PAGE 6 STRUCTURE ANALYSIS - PAGE 7 FINAL DESIGN CONCEPT - PAGE 8
GROUP 13 // REFERENCES INSPIRATION // FRIE OTTO The aim of this project is to use digital processes and design techniques to propose novel solutions to the problems fabrication. We aim to explore in detail and develop a small and simple feature of their design project. The objective is to initiate students into a compressed version of design to production pipelines in contemporary architectural offices. We will do so through the creation of computer models, exploration of interoperability paths between different software platforms, diagrams, drawings, laser cut paths, CNC prototypes, and robotic paths that explain, test, and analyse the system. All prototype digital and physical models are to be catalogued and documented and submitted as a bound folio accompanied by a digital copy.
GROUP 13 // PRECEDENTS INSPIRATION // FRIE OTTO The aim of this project is to use digital processes and design techniques to propose novel solutions to the problems fabrication. We aim to explore in detail and develop a small and simple feature of their design project. The objective is to initiate students into a compressed version of design to production pipelines in contemporary architectural offices. We will do so through the creation of computer models, exploration of interoperability paths between different software platforms, diagrams, drawings, laser cut paths, CNC prototypes, and robotic paths that explain, test, and analyse the system. All prototype digital and physical models are to be catalogued and documented and submitted as a bound folio accompanied by a digital copy.
GROUP 13 // CONCEPTUAL DESIGN EXPLORATION // RULED SURFACE MODELING The aim of this project is to use digital processes and design techniques to propose novel solutions to the problems fabrication. We aim to explore in detail and develop a small and simple feature of their design project. The objective is to initiate students into a compressed version of design to production pipelines in contemporary architectural offices. We will do so through the creation of computer models, exploration of interoperability paths between different software platforms, diagrams, drawings, laser cut paths, CNC prototypes, and robotic paths that explain, test, and analyse the system. All prototype digital and physical models are to be catalogued and documented and submitted as a bound folio accompanied by a digital copy.
ONE // RULED SURFACE MODELING
ONE // ONE
ONE // TWO
ONE // THREE
ONE // FOUR
ONE // FIVE
ONE // SIX
TWO & THREE // RULED SURFACE MODELING
TWO // ONE
TWO // TWO
TWO // THREE
TWO // FOUR
TWO // FIVE
THREE // ONE
THREE // TWO
THREE // THREE
THREE // FOUR
GROUP 13 // MODEL SHORT-LIST FURTHER EXPLORATION // RULED SURFACE MODELING The aim of this project is to use digital processes and design techniques to propose novel solutions to the problems fabrication. We aim to explore in detail and develop a small and simple feature of their design project. The objective is to initiate students into a compressed version of design to production pipelines in contemporary architectural offices. We will do so through the creation of computer models, exploration of interoperability paths between different software platforms, diagrams, drawings, laser cut paths, CNC prototypes, and robotic paths that explain, test, and analyse the system. All prototype digital and physical models are to be catalogued and documented and submitted as a bound folio accompanied by a digital copy.
GROUP 13 // EXPLORATIONS CATALOGUE // BASE PLAIN ONE
MODELLED ACCURATELY TO PLAN
UNLEVEL UPPER PLANE
REMOVE CONSTRAINT// VERTEX
REMOVE PARALLEL CONSTRAINTS//VERTEX(S)
DO NOT PERFORM ONE ORIGINAL FUNCTION
ROTATE UPPER EDGES IN (Z) PLANE
OFFSET SHIFT BASE IN (Z) PLANE
CENTRALIZE BASE VERTEX’S
GROUP 13 // EXPLORATIONS CATALOGUE // BASE PLAIN TWO
MODELLED ACCURATELY TO PLAN
UNLEVEL UPPER PLANE
REMOVE CONSTRAINT// VERTEX
REMOVE PARALLEL CONSTRAINTS//VERTEX(S)
DO NOT PERFORM ONE ORIGINAL FUNCTION
ROTATE UPPER EDGES IN (Z) PLANE
OFFSET SHIFT BASE IN (Z) PLANE
CENTRALIZE BASE VERTEX’S