Haochang Yu Work Sample by Haochang Yu

HAOCHANG YU WORK SAMPLE 2012-2015

Master of Science in Advanced Architectural Design Graduate School of Architecture, Planning and Preservation Columbia University

HAOCHANG YU 136W, 109th St. 5E, New York NY10025 hy2455@columbia.edu, 1-929-253-6855

EDUCATION GRADUATE

Columbia University, New York, 05/2015 – Present Master of Science in Advanced Architecture

Tsinghua University, Beijing, 09/2013 – 07/2015

Master of Architecture Thesis: “Review on Methods and Theories of Invisible Security Design” GPA: 88.9/100

UNDERGRADUATE

EXCHANGE

Tsinghua University, Beijing, 09/2009 – 07/2014

Bachelor of Architecture Thesis: “Methods of Design of Public Space in Room Layer of Hotel” GPA: 88.5/100

CONTENTS

University of Manchester, Manchester, 09/2011 – 02/2012 Exchange Program in Architecture

PROFESSIONAL ASSOCIATED DESIGNER

CONCEPT DESIGNER

INTERNSHIP

Residential Environment Coordination Project of the Stone Village, Guizhou, 01/2014 – 08/2014

A joint project by Guizhou government and Tsinghua University to improve living condition Design of Architecture work which started construction from 8/2015

Ouyin International Plaza, Beijing, 05/2014 – 07/2014

City Complex of Commercial, Car Exhibition, Bank and Apartment, 45000 m2, 14 floors Under Construction Drawing, the construction starting from 2015

HYBRID RESIDENTIAL INFRASTRUCTURES

JINMAO DA SHA URBAN COMPLEX

No.15 Design Studio, China Architecture Design & Research Group, Beijing, 05/2013 – 08/2013

RENEWAL OF ERTONG FACTORY

Chief Design Studio, Shanghai Xian Dai Architectural Design Group, Shanghai, 08/2010

AMUSEMENT ARCADE

MULTI(X)---BOOK BAR RENOVATION

FORM FINDING---PARAMETRIC DESIGN

RETHINKING BIM---ADAPTIVE COMPONENT APPLICATION

Zhu Wenyi Design Studio, Tsinghua University, Beijing, 12/2013 – 5/2014 Berlin Nature and Science Museum Design Competition Shenzhen Olympic Park Renovation Urban Design Competition

Construction Drawings, 18*A1; Conceptual Drawings, 6*A3 1:300 Model of Taiyuan City Library Reconstruction; 1:1000 Model of Taiyuan Urban Texture Field work, conceptual design, inspection and acceptance of construction quality

RECOGNITION HONOR

SCHOLARSHIP WORK

Honor Award for Excellence in Design, Columbia University, 2016 Lucille Smyser Lowenfish Memorial Prize, Columbia University, 2016 Beijing Excellent Undergraduate Student, Top 5 percent, 2014 Excellent Undergraduate Student of Tsinghua University, Top 10 percent, 2014 BIAD Excellent Work Scholarship, Top 5 percent, 2014 Dubang Scholarship, Tsinghua University, Top 15 percent, 2012 3rd Prize, HYP International Student Architectural Design Competition, 2013 Fluent Art, Beijing Excellent Student Work on Architectural Design, 2011

EXPERTISE DIGITAL MODELING DIGITAL GRAPHICS HANDS-ON

Revit, Rhino, Grasshopper, ArchGIS, Sketch Up, Ecotect, Diva, CNC Milling, Laser Cutting AutoCAD, Adobe CS Suite(PS, AI, ID), Maxwell Rendering, V-Ray, Office Suite(doc, xls, ppt) Modeling, Sketches, Wood Fabrication, Photography, Watercolor

REFERENCE Juan Herreros Christoph a. Kumpusch Eric Bunge

Fundador/Founder estudio Herreros / Professor of Professional Practice Columbia University juan@estudioherreros.com 34-911-781-998 Ing, Mag. Arch, PhD / Forward slash (/) ARCHITEKTUR / Core I Coordinator Columbia University christoph@kumpusch.com 1-917-291-1438 AIA, Principal nARCHITECTS, PLLC / Adjunct Assistant Professor Columbia University eric.bunge@narchitects.com 1-718-260-0845

HYBRID RESIDENTIAL INFRASTRUCTURES Type:: GSAPP Design Studio with Juan Herreros and Ignacio G. Galรกn Time::01/2016-05/2016 Role::[with 1 partner] Concept/Research/Detail Design/Plan/Axon

Our overall gesture for the design is a lifted mass with patio covering the street and absorb urban life inside the building with a spatial sequence of urban public space, communal space, collective space and private living space. The vertical connection between infrastructures on the ground and residential on the top keeps the residence has an opportunity to live within an autonomous community while people can take elevator downstairs and participate in urban life. The way we present our design as an autonomous community which urbanize the architecture to create a city with a building as a new identity for Rio. With the pressing need for housing, we try to simultaneously think of opportunities of a dense, programmatically hybrid, socially diverse, integrated, and accessible project.

[RESIDENTIAL--TYPOLOGY A]

[RESIDENTIAL--TYPOLOGY B]

[RESIDENTIAL--TYPOLOGY C]

[COMMUNAL SPACE--SPORTS FIELD]

[COMMUNAL SPACE--KITCHEN]

PATIO

[COMMUNAL SPACE--LIBRARY]

PARTIAL STAIRCASE

RESIDENTIAL UNIT URBAN ELEVATOR

PATIO

RESIDENTIAL UNIT

RESIDENTIAL UNIT RESIDENTIAL UNIT PATIO

PATIO

BASKETBALL COURT COMMUNAL KITCHEN

COMMUNAL LIBRARY

RESIDENTIAL COMPOSITION A THRESHOLD ANALYSIS

SOCIAL SCENARIO SERIES

ENCLOSURE ON URBAN AXON

LIVING SPACE SCENARIO

COMMUNAL SPACE SCENARIO

STREET PARADE SCENARIO

SECTION PERSPECTIVE

URBAN ELEVATOR SCENARIO

25M

1 PATIO 2 TYPOLOGY A 3 TYPOLOGY B 4 COLLECTIVE KITCHEN

3 2

1 2

GROUND FLOOR PLAN

PERSPECTIVE-- COMMUNAL SPACE

PERSPECTIVE-- UNDER URBAN ROOF

JINMAO DA SHA URBAN COMPLEX

Type:: Professional Practice in Internship Time::05/2013-08/2013 Role::[with 3 partners] Internship Company::No.15 Design Studio, China Architecture Design & Research Group, Beijing, 05/2013 â&#x20AC;&#x201C; 08/2013 Work::Construction Drawings, 18*A1; Conceptual Drawings, 6*A3

FIRST FLOOR PLAN

SIXTH FLOOR PLAN

WINDOW DETAILS

SOUTH ELEVATION

NORTH ELEVATION

RENEWAL OF ERTONG FACTORY BUILDING CLUSTER Type:: Tsinghua University Graduation Design Time::03/2012-06/2012 Role::[with 1 partner] Concept/Research/Design of Hotel/Rendering

The site of Ertong factory building cluster is not a site with nothing. The idea of design in-situation should be implement with the respect of these valuable industrial heritages. In this design, I tried to build up a positive relationship between the old factories and new buildings. The reconstruction part should not be a suppression to the site. On the other had, the new part and old part should be interdependent with each other and set genius loci together.

CONCEPT SKETCH

ANALYSIS AND REBUILD

CIRCULATION ANALYSIS

WEST ELEVATION

GROUND FLOOR PLAN

AMUSEMENT ARCADE

Type:: GSAPP Studio Design with Bernard Tschumi Time::09/2015-12/2015 Role::[with 1 partner] Concept/Argument/Model/Diagram With the Bernard Tschumi as critic, the studio mainly talks about how corridor space varies and iterates within a building. The site is chosen as a typical Manhattan Block. We try to reinforce this relationship by transforming the interaction zone into a ‘Mega-Corridor’ that penetrate the site. The Mega-Corridor comes from the reconstruct of different types of vector movement, and the typical sports court plays the role of “Rooms”. The Mega-Corridor has three interpretation, first it is the extension of interaction zone, creating a public sports park in urban vision with high degree of publicity. Secondly, it is the reconstruct of movement pattern that extract from the sports court that provide flexibility and public engagement. Lastly, the corridor spaces take up the duty of the circulation that connects individual sports court and result in the threshold of the conventional court and radical sport space.

CONCEPTUAL SKETCH

VECTOR REORGANIZATION

GAMIFICATION VECTORIZATION

SPATIAL DISTORTION

MEGA CORRIDOR VARIATION

PROGRAMMING VARIATION

ELEVATION

INTERIOR SPACE RENDER

VECTOR MATERIALIZATION

MULTI(X)----BOOK BAR RENOVATION

Type:: Tsinghua University Studio Design Time::11/2010-01/2011 Role::Personal Work The flexibility of the architecture can tackle the dilemma of balancing the changing need of people and the unchanging factor of space. A main reason that many modern Chinese buildings are being torn down is the inaccurate architectural design and the fast changing societal needs. The architectural flexibility is an answer to the changing environmental factors and can increase immeasurably the usage of space and resource. This design is to reconstruct an old building, by altering the interior flexibility of the space instead of the outside look. Such a design maintains the respect for the original building while brings vitality to meet the needs of the new inhabitants and functions.

a: computer screen b: dome light c: desk lamp d: book shelf unit e: water dispenser f: head phone jack g: USB connection h: electrical socket i: extension cord j: fan k: TV screen l: CD driver TYPOLOGY OF INTERIOR SPACE

MOVABLE WALL MODEL

DETAIL OF JOINTS FOR MOVABLE WALL

HUMAN SCALE ENGAGEMENT WITH WALL

FORM FINDING---PARAMETRIC DESIGNE

Type:: Tsinghua University Studio Design Time::03/2012-06/2012 Role::[with 1 partner] Experiment/Concept/Programming/Model/Diagram In this design, I tired to connect the Fluorescence phenomena with architectural form as an attempt to express the nature of chaos behind Fluorescence through the process of architectural form-finding, and at the theoretic level, to search for a new approach to form generation using the computer algorithm of modeling and control. This project essentially questions and challenges the orthogonal system of architectural design in the orthogonal system. The spacial and structural design under the orthogonal system has become a stereotype seen in plenty of architectural practices. It does guarantee logic and control in the design as well as proficiency and convenience in construction, but it is by no means the sole answer to architectural design. There exists another possibility in the unpredictable, correspondent and subtle relationship manifested in the form finding from chaos to certainty.

x'=x+a(y-xz) y'=y+d(bx-y-xz) z'=z+d(x-cz)

x'=x+ad(y-x) y'=y+d(bx-xz) z'=z+d(xy-cz)

x'=x+ad(y-x^2) y'=y+d(bx-y^2-xz) z'=z+d(xy-cz^2)

x'=cx+ad(y-x) y'=ay+d(bx-y-xz) z'=bz+d(xy-cz)

x'=x+ad(yz-x^2) y'=y+d(bxy-y^2-xz) z'=z^2+d(xy-cz)

x'=p0+x(p1+p2x+p3y)+y(p4+p5y) y'=p6+y(p7+p8y+p9z)+z(p10+p11z) z'=p12+z(p13+p14y+p15x)+x(p16+p17x)

x'=x(p1+p2x+p3y)+y(p4+p5y) y'=y(p7+p8y+p9z)+z(p10+p11z) z'=z(p13+p14y+p15x)+x(p16+p17x)

x'=p0+x(p1+p2x+p3y)+yz(p4+p5y) y'=p6+y(p7+p8y+p9z)+xz(p10+p11z) z'=p12+z(p13+p14y+p15x)+xy(p16+p17x)

x'=p0+x^2(p1+p2x+p3y)+y(p4+p5y) y'=p6+y^2(p7+p8y+p9z)+x(p10+p11z) z'=p12+z^2(p13+p14y+p15x)+x(p16+p17x)

x'=p0+x(p1+p2x+p3y)+y(p4+p5y)+az y'=p6+y(p7+p8y+p9z)+x(p10+p11z)+bx z'=p12+z(p13+p14y+p15x)+x(p16+p17x)+cy

BIRD VIEW RENDER

SPATIAL STRUCTURE

x'=p0+p1x+p2y+p3z+p4|x|^p5 y'=p6+p7x+p8y+p9y+p10|y|^p11 z'=p12+p13x+p14y+p15z+p16|z|^p17

x'=p0+p1x+p2y+p3z+p4|x|+p5|y|+p6|z|^p7 y'=p8+p9x+p10y+p11y+p12|x|+p13|y|+p14|z|^p15 z'=p17x+p18y+p19z+p20|x|+p21|y|+p22|z|^p23

x'=p0+p1x+p2y+p3z+p4|x|+p5|y|+p6|z|^p7 y'=p8+p10y+p11y+p12|y|+p13|z|+p14|x|^p15 z'=p16++p18y+p19z+p20|z|+p21|x|+p22|y|^p23

x'=p0+p2y+p3z+p4|x|+p5|y|+p6|z|^p7 y'=p8+p11y+p12|y|+p13|z|+p14|x|^p15 z'=p16+p18y+p20|z|+p21|x|+p22|y|^p23

x'=p0+p2y+p3z+p4|x|+p5|y|+p6|z|^p7 y'=p8+p9x+p11y+p12|y|+p13|z|+p14|x|^p15 z'=p16+p17x+p18y+p20|z|+p21|x|+p22|y|^p23

ELEVATION RENDER

x'=a0+a1x+a3z+a4sin(a5x)+a6sin(a7y)+a8sin(a9z) y'=b0+b1x+b3z+b4sin(b5x)+b6sin(a7y)+b8sin(b9z) z'=c0+c1x+c3z+c4sin(c5x)+c6sin(c7y)+c8sin(c9z)

x'=a1x+a3z+a4sin(a5x)+a6sin(a7y)+a8sin(a9z) y'=b1x+b3z+b4sin(b5x)+b6sin(a7y)+b8sin(b9z) z'=c1x+c3z+c4sin(c5x)+c6sin(c7y)+c8sin(c9z)

x'=a0+a1x+a3z+a4sin(a5x) y'=b0+b1x+b3z+b4sin(b5x) z'=c0+c1x+c3z+c4sin(c5x)

x'=a0+a1x+a3z+a4sin(a5x)+ayz y'=b0+b1x+b3z+b4sin(b5x)+bxz z'=c0+c1x+c3z+c4sin(c5x)+cxy

PROCESS OF FORM FINDING

ADJUSTMENT OF FORM

COURTYARD RENDER

RETHINKING BIM---ADAPTIVE COMPONENT APPLICATION Type:: Columbia University Course Time::02/2016-04/2016 Role::[with 2 partners] Modeling/Design of Adaptive Component

With the practice of BIM and adaptive component, the design try to interpret a new type of ceiling instead of the original arches. With the adaptive component, the ceiling allows sun light goes into the building with specific angles and interesting shadow pattern. The two-layer structure is also designed and formed with BIM adaptive component.

ADAPTIVE COMPONENT DESIGN

INTERIOR SPACE RENDERING

STRUCTURE OF CEILING

COURTYARD RENDERING