Pavilion design parametric curiosity by Gaurav Goel

AR.GAURAV GOEL

(PARAMETRIC CURIOSITY INDIA) PAVILION DESIGN P

U R S E Final Project September - December 2017

TABLE OF CONTENTS PART 1 - CONCEPT FOR PAVILION PART 2 - PROCESS OF DESIGNING PAVILION USING RHINO AND GRASSHOPPER 3D TOOLS PART 3 - PROJECT GRASSHOPPER DEFINITION PART 4 - 3D PRINTING THE PAVILION PART 5 - FINAL RENDER PART 6 - APPENDIX AND WORK COMPILATION DURING THE COURSE

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M A S T E R _ P A R A M E T R I C _ D E S I G N StudentÂ´s works VII Edition September - December 2017

THESIS PROJECT CONCEPT

- THIS THESIS STARTED WITH AN INTENTION TO DESIGN A PAVILION FOR PUBLIC SPACES TO ACT AS AN URBAN ARTIFCAT FOR CONNECTING PEOPLE AND PUBLIC SPACES. THIS PROJECT ALSO AMIS TO DEVELOP A PARAMETRIC SYSTEM TO DEFINE MULTIPLE ITERATIONS OF THIS PAVILION BASED ON A SHARED LOGIC. -AN INSPIRATION FROM LINES DEPICTING MOTION WAS A KICK START TO DEVELOP THIS PAVILION.

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

- AFTER A BRIEF INVESTIGATION MAGNETIC FIELD LINES INSPIRED THIS PROJECT. MAGNETIC FIELD LINES ARE ORIGINATED FROM A ORIGIN AND TRAVELS ALONG A PATH IN A FASHION DEFINED BY FORCES EXTERTED BY CHARGES OF MAGNETIC POLES. - IF LINE TRAVELS TOWARDS A NEGATIVE POLE IT MERGES INTO THE NEGATIVE CHARGE ORIGIN, WHEREAS IF IT TRAVELS TO POSITIVE POLE IT REPELS FROM POSITIVE CHARGE POINT.

GRASSHOPPER EXPLORATIONS THROUGH FLOWL PLUGIN AND VECTOR FIELD TOOLS TO INVESTIGATE FIELD LINE GENERATION IN DIGITAL REALM

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GRASSHOPPER EXPLORATIONS THROUGH FLOWL PLUGIN AND VECTOR FIELD TOOLS TO INVESTIGATE FIELD LINE GENERATION IN DIGITAL REALM

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GRASSHOPPER EXPLORATIONS THROUGH FLOWL PLUGIN AND VECTOR FIELD TOOLS TO INVESTIGATE FIELD LINE GENERATION IN DIGITAL REALM

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GRASSHOPPER EXPLORATIONS THROUGH FLOWL PLUGIN AND VECTOR FIELD TOOLS TO INVESTIGATE FIELD LINE GENERATION IN DIGITAL REALM

flowL is a plug-in to visualize a vector field, generated trough positive and negative point charges. The plugin provides a component called STREAMLINE 2D VORTEX to generate flowlines and rotate them with a specified angle. This component was explored for this pavilion design. PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS

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1 - A CIRCLE BASED ON AREA TO BE COVERED BY THE PAVILION

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

2 - DEFINING NEGATIVE POINT CHARGES TO ATTRACT FIELD LINES TOWARDS THEM

3- DEFINING THE POINTS FOR ORIGIN OF FIELD LINES. MAGNETIC FIELD LINES WILL START AT THESE POINTS.

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS

3 OPTIONS ARE DISCUSSED BELOW TO DEPICT INTENT OF DESIGNING A PARAMETRIC SYSTEM FOR THIS DESIGN PROJECT. FOR FINAL DESIGN ONE SOLUTION WOULD BE SELECTED.

MAGNETIC FIELD LINES GENERATED THROUGH FLOWL PLUGIN USING 3 POINT CHARGE AND 35 DEGREES ROTATION

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

MAGNETIC FIELD LINES GENERATED THROUGH FLOWL PLUGIN USING 4 POINT CHARGE 35 DEGREES ROTATION

MAGNETIC FIELD LINES GENERATED THROUGH FLOWL PLUGIN USING 6 POINT CHARGE 35 DEGREES ROTATION

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS

THESE MAGNETIC LINES GAVE INTERESTING PATTERNS FROM WHICH, A SET OF SPECIFIC LINES WERE EXTRACTED USING LISTS AND DATA TREES LOGICS IN GRASSHOPPER 3D. THESE LINES WERE EXTRACTED IN A FASHION SO THAT THE OUTER CURVES CAN BE JOINED AND REBUILD TO GENERATE A SURFACE. THAT SURFACE CAN ACT AS BASE FOR SIMULATING PAVILION ENCLOSURE , USING KANGAROO PHYSICS ENGINE LATER.

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS

BOUNDARY REPRESENTATION (BREP) 3 CHARGE POINT DIAGRAM

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

BOUNDARY REPRESENTATION (BREP) 4 CHARGE POINT DIAGRAM

BOUNDARY REPRESENTATION (BREP) 6 CHARGE POINT DIAGRAM

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS

MESH GENERATION 3 CHARGE POINT DIAGRAM

MESH GENERATION 4 CHARGE POINT DIAGRAM

MESH GENERATION 6 CHARGE POINT DIAGRAM

MESH GENERATION WAS A CHALLANGE BECAUSE ALL SURFACES PRODUCED WERE TRIMMED, THEREFORE GRASSHOPPER DO NOT GENERATE REGULAR MESHES AS SHOWN ABOVE. THERE WERE METHODS TO GENERATE A REGULAR MESH IN RHINO, BUT THE IDEA WAS REJECTED TO KEEP WHOLE PAVILION DESIGN A PARAMETRIC SYSTEM. FINALLY KARAMBA PLUGIN WAS USED TO GENERATE MESHES ABOVE. ALL MESHES ABOVE ARE HAVING RESOLUTION 4 AND EDGDE REFINEMENT FACTOR AS 1. MORE SETTINGS CAN BE ALTERED TO PRODUCE EVEN FINER MESHES . BUT THE SOLUTIONS ABOVE WERE SELECTED FOR THIS DESIGN PROJECT.

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS - USING KANGAROO 2 PHYSICS ENGINE TO SIMULATE PAVILION ENCLOSURE. BELOW IS THE MESH WITH FORCE VECTORS AND ANCHOR POINTS. A LIST OF FOCRES APPLIED ARE ALSO DEPICTED BELOW.

1- SPRING FORCES FOR MESH LINES

2- ANCHORING FORCE FOR END POINTS OF MESH

3- NEGATIVE FORCE FOR INVERTED HANGING MESH

MESH DIAGRAM PRIOR TO KANGROO FORCES

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4- SMOOTHNING MESH FORCE TO AVOID SHARP JOINTS

KANGAROO 2 PHYSICS ENGINE

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS

FINAL MESH OBTAINED AFTER KANGROO SIMULATION WITH INFLUENCE OF ALL FORCES

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

SETTING THE HEIGHT OF THE SHELL USING GALAPAGOS EVOLUTIONARY SOLVER BY TRYING ALL SOLUTIONS TO CHIEVE DEFINED HEIGHT FOR THE PAVILION.

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS

ABOVE- MESH OFFSET FOR MAKING PLANAR THICK PANELS. LEFT- EXTRACTING THE EDGES AND LOFTING PROFILES TO GET A SOLID PANEL FOR EACH MESH FACE.

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

FINAL SHELL GEOMETRY DESIGNED FOR PAVILION. OPTION WITH THREE SUPPORTS FOR THE SHELL WAS SELECTED FOR THE FINAL PAVILION DESIGN.

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS

FINAL UNIQUE MODULES TO CONSTRUCT THE SHELL . THESE MODULES HAVE FLAT TOP AND BOTTOM FACES, BUT HAVE DISTINCT EDGES WHICH CAN BE MILLED , TO OBTAIN SAME CURVATURE , AS OF THE DESIGNED SHELL FOR THE PAVILION .

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DESIGN PROCESS OF PAVILION WITH GRASSHOPPER TOOLS KARAMBA PLUGIN FOR ANALYSING STRUCTURE OF THE PAVILION WITH STEEL BEAMS. OPTION WITH THREE SUPPORTS FOR THE SHELL WAS SELECTED FOR THE FINAL PAVILION DESIGN.

INITIAL SHELL GEOMETRY WITH THIN STEEL BEAM SECTIONS. STRUCTURE DIAGRAM ABOVE SHOWS DEFORMATION DUE TO PHYSICAL LOADS AND THIN BEAMS.

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

INITIAL SHELL GEOMETRY OBTAINED FROM GRASSHOPPER OPTIMISED USING KARAMBA WITH APPROPRIATE STEEL BEAM SECTIONS TO MINIMIZE DEFORMATIONS IN STRUCTURE.

GRASSHOPPER SCRIPT FOR PAVILION DESIGN

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GRASSHOPPER SCRIPT FOR PAVILION DESIGN

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GRASSHOPPER SCRIPT FOR PAVILION DESIGN

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GRASSHOPPER SCRIPT FOR PAVILION DESIGN

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GRASSHOPPER SCRIPT FOR PAVILION DESIGN

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

3D PRINTING THE PAVILION STRUCTURE - MULTIPLE DESIGN ITERATIONS

RHINO STL AS VIEWED IN CURA SOFTWARE

3D MODEL BEING PRINTED WITH SUPPORTS

PRINTED MODEL WITH SUPPORTS

REMOVING SUPPORTS FROM MODEL

DELICATE AREAS FOR REMOVING SUPPORTS

MODELS WITH REMOVED SUPPORTS

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

3D PRINTING THE PAVILION STRUCTURE - FINAL MODELS

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

ARTISTIC IMPRESSION OF PAVILION IN GARDENS NEAR BRIDGE OF TOLEDO MADRID

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

RHINO BASICS WITH SERGIO A. DEL CAMPO

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GRASSHOPPER BASICS WITH DIEGO GARCIA CUEVAS

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GRASSHOPPER WITH MICHELE SEGOLINI

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

PAPER LAMP DESIGN USING IMAGE SAMPLER AND LASER CUTTING

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

3D PRINTING EXERCISE - PARAMETRIC COLUMN DESIGN

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DIGITAL FABRICATION GROUP PROJECT - TABLE DESIGN FOR A 3D PRINTER

MANUPILATING POINTS TO ACHIEVE CURVES FROM METABALLS

GENERATING BREP SURFACES FROM CURVES

SUBSTRACTING THE FORM FOR ACCOMMODATING A 3D PRINTER

GENERATING WAFFLE STRUCTURE TO FABRICATE THE TABLE

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DIGITAL FABRICATION GROUP PROJECT - DRAWING FOR CNC MILLING

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DIGITAL FABRICATION GROUP PROJECT - FABRICATION PROCESS

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DIGITAL FABRICATION GROUP PROJECT

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

DIGITAL FABRICATION GROUP PROJECT

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

SITE STUDY VISITS WITH CONTROLMAD

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GUEST LECTURES AND UNIVERSITY EUROPIDAD MADRID WITH DIEGO GARCIA

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

VRAY WITH SERGIO A. DEL CAMPO

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

ADVANCED GRASSHOPPER WITH ANDRES GONZALEZ FROM MC-NEEL USA

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GUEST LECTURE ON ARDUINO BY DAVID SERRANO

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

ARDUINO CIRCUIT DAIGRAMS MADE THROUGH TINKERCAD.COM

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

GUEST LECTURE BY ARTURO TEDESCHI FOR MESH BASICS

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

KANGAROO PHYSICS AND MILIPEDE WITH ARTURO TEDESCHI

MILIPEDE FOR BEAM DEFLECTION

HANGING CABLE SIMULATIONS

HANGING FABRIC WITH ANCHOR POINTS

TRIMMED MESH SIMULATION KANGAROO

CHAIR DESIGN USING MILIPEDE

CIRCRCLE PACKING

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

KARAMBA TUTORIAL BY ADAM ORLINKSI

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

KARAMBA TUTORIAL BY ADAM ORLINKSI

PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

¡Muchas gracias! THIS PROJECT WAS DESIGNED BY AR. GAURAV GOEL FOUNDER OF PARAMETRIC CURIOSITY INDIA, AND IT WAS SUBMITTED AS A THESIS PROJECT FOR MASTER IN PARAMETRIC DESIGN COURSE 2016 ,TAUGHT BY CONTROLMAD IN MADRID SPAIN. THIS PROJECT WOULD NOT HAVE BEEN COMPLETED WITHOUT HELP OF TEACHERS AT CONTROLMAD. IT WOULD BE AN HONOUR TO EXTEND MY THANKS TO DIEGO GARCIA CUEVAS AND SERGIO ALONSO DEL CAMPO, WHO ARE PARTNERS AT CONTROLMAD AND EXTENDED THIER FULL SUPPORT AND ENCOURAGEMENT FOR THIS PROJECT. GUEST LECTURERS AND EXPERTS FROM FIELD OF DIGITAL TOOLS FOR DESIGN, PLAYED AN IMPORTANT ROLE IN THIS COURSE. THEY TAUGHT ALL LATEST TOOLS WHICH ARE EMPLOYED IN DIGITAL ARCHITECTURE TODAY. ANDRES GONZALEZ (MCNEEL USA), ARTURO TEDESCHI(AUTHOR AAD BOOK), DAVID SERRANO (ARDUINO SPECIALIST SPAIN), MICHELLE SEGOLLINI (ITALY), ADAM ORLINKSI (KARAMBA TEAM GERMANY), ALL OF THEM DESERVE A HUGE APPRECIATION FOR SHARING THIER TIME AND KNOWLEDGE. LAST BUT NOT THE LEAST THIS COURSE WAS ATTENDED BY 12 STUDENTS FROM DIFFERENT COUNTRIES. IT WOULD BE A PLEASURE TO THANK ALL THE COLLEAGUES AT THIS COURSE FOR EXTENDING THIER KINSHIP AND SUPPORT. PARAMETRIC CURIOSITY INDIA AR. GAURAV GOEL

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