Jingyi Huang_ 2014-2020 Selected Works by jingyihuang-Arch

PORTFOLIO JINGYI HUANG

2014-2020 SELECTED WORKS

MArch II in AUD, UCLA B.A in Architecture, Tongji University Tel. +1 3102540869 E-mail. jingyihuang@g.ucla.edu

Jingyi Huang 3230 Overland Ave, Apt 212, Los Angeles, CA, 90034 Tel: (+1) 310 254 0869 Email: jingyihuang@g.ucla.edu

EDUCATION Architecture and Urban Design, University of California, Los Angeles 

Master in Architecture II

Aug. 2019- June. 2020(Expected)

College of Architecture and Urban Planning, Tongji University 

Bachelor of Architecture



GPA: 4.62/5.0 (91.18/100)

CONTENTS

Los Angeles, America Shanghai, China Sept. 2014- June. 2019

WORKING EXPERIENCE DC Alliance

Shanghai, China July. 2018-Jan. 2019

Intern Architect in C+D Design Research Center (Employer: Yi Dong) 

Helped with deeper design, construction details, material choice, conception and digital model

Project on Changsha Houhu Regeneration

Nov. 2017-Feb. 2018

Contributed to the concept, the façade design strategy and digital model

ACADEMIC EXPERIENCE Tongji University Graduate Design Studio (Rethinking the campus complex) 

1st Price of China Habitat Environment Design Academic Year Award



Excellent graduation design, Tongji University

Shanghai, China Mar. 2019- June. 2019

Pusan National University 

Busan, South Korea

East Asian Architecture and Urban Design Workshop

Feb. 2019- Mar. 2019

LEADERSHIP EXPERIENCE College of architecture and urban planning, Tongji university

Shanghai, China Shanghai, China Sept.2014-Sept.2016

Chairman of student association of Sichuan Province

AWARDS 

1st Price of China Habitat Environment Design Academic Year Award



1st Price of Academy Award for Highest Honors, CAUP, Tongji University

June.2019

Excellent graduation design, Tongji University

June.2019

 

Nov. 2019

Excellent graduate, Tongji University Tian Xiang Alumni Scholarship (1st Prize of Academic Scholarship, Tongji University)

June.2019 (Top 1%)

Oct.2018



2nd Price of Tongji University Summer Practice Activity (Top 10%) 2nd Price of Academic Scholarship, Tongji University (Top 10%)



3rd Price in Fengyuzhu International Cardboard House Design and Construction Competition

June. 2015



Entrance Scholarship of Tongji University (0.1%)

Sept. 2014



Oct.2016 Oct.2016

SKILLS 

02. COMMUNITY FOR ALL-AGES INFRASTRUCTURE

08-13

03. FLOW THERMODYNAMICS

14-19

04. DYNAMIC CITY TECHNOLOGY

20-25

05. MARSH SCHOOL TECHNIQUES

26-31

06. CITY FIELDS MOBILITY

32-34

07. EXQUISITE INFLATABLE TRANS·FORM

35-38

08. OTHER WORKS

39-40

09. WORKS

41-46

Sept. 2014-Sept.2016

Minister of the practice group of The 29th student union Tongji university



01-07

Shanghai, China

Intern Architect of Harry Den Hartog’s Design Group designing for Building 23,24,28 

01. SUPER CAMPUS CAMPUS COMPLEX

Programming language: C#; Visual Basic

 Software: Adobe Creative Suite (Photoshop; InDesign; Illustrator; Premiere; After effect); Sketch Up; Rhinoceros; Maya; V-ary; AutoCAD; Grasshopper (Multiple plugins); Twinmotion; Lumion; Ecotect; Unity; Machine Vision(RoboRealm; RealSense)

01. SUPER CAMPUS

- RETHINKING THE CAMPUS COMPLEX

The “super” of “super campus” is not only reflected in the design characteristics of high FAR, composite functions and innovative school mode, but also in the class-processing mode of teacher guidance, student dominance and effective collaboration. Externally, in high-density urban context, designers return the bottom space to the city, and alleviate the shortage of space by sharing between schools and their adjacent communities. Internally, designers a new input-output system to satisfy various requirements of school manage-ment, student autonomy and external interactions with the city. The final design is full of crazy ideas without losing the possibility, and has the dual attributes of romance and reality.

Tongji Graduate Design (17-Week Group Work) Contribution: 30%Concept & Strategy / 30%Research / 40%Mapping / 30%Physical Model / 60% Management (Team Leader) Instructors: Yi Dong, Zhendong Wang Collaborator: Xiruo Luo/Yujin Xue/Xinning Hua/ Qinglin Jin/Shuai Tong/ Ziyu Liu/ Xuezhou Yang/ Liqun Hu/ Zishuo Zhang/Xiaoran Ma/ Zhengling Jiang/ YuTing Jiang Spring 2019 01

WORKFLOW ┃ RESEARCH FROM THERMODYNAMICS

Super Capacity MEDIA A S S O C I A T ION

AI A S S O C I A T ION

LEGO A S S O C I A T ION

C A T P R O T E CTION A S S O C I A T ION

B O A R D G A MEG A S S O C I A T ION

F I G U R E S K ATING A S S O C I A T ION

A S S O C I A T ION

CAVE EXPLORATION

C L A S S I C A L MUSIC A S S O C I A T ION

MUSIC A S S O C I A T ION

MOVIE A S S O C I A T ION

B U S I N E SS A S S O C I A T ION

L E A R N I NG A S S O C I A T ION

0304

ASSOCIATION E S TA B L I S H MENT & RECRUITMENT SEMINAR

FOOD A S S O C I A T ION

0228

CONCEPT

ESTABLISH CAMPUS S P A C E SYSTEM

0311

S U P E R CAMPUS S P A C E C O N STRUCTION

0314

PRELIMINARY ROUND OF CAMPUS SPACE MODE BIDDING COMPETITION

0318

S U P E R CAMPUS S P A C E C O N STRUCTION

0321

CAMPUS SPACE MODE BIDDING COMPETITION FINAL

Super campus model 校园管理

According to the preliminary survey, the floor area ratio of conventional p r i m a r y a n d secondary schools is relatively low, which is in conflict with the current trend of highdensity urban development in China. Can we build a campus with floor area ratio of 3.0+?

dormitory

club

classroom Basic teaching life

core

canteen

dormitory club organizetion

basic teaching

3.2

landscape

Overall floorage

15W ㎡

sports

city life

input system

campus

management Kitchen & book club Plants and animals club Style club

educational training

breaking point

core pupil self-

government output system

interface

feedback points

Foreign interaction

FAR (Ordinary school 0.6~0.8）（10W ㎡ + Underground 5W ㎡） Books, cooking club

Festival club

Sports club

Nature club

Super Club Super circuit board

The spiral

Super capacity is not a simple superposition of density, but is dominated by community activities, and drives the vitality of high-density campus with the attraction of community space. Through a series of analysis and induction of the associations, four major associations of the public welfare service of the performance, production and learning movement were concluded, and the association activities were corresponding to specific space space for the follow-up design of super campus

The windmill

Super Fungction

ESTABLISHMENT OF SCHOOL COMMITTEE

In addition to functions such as regular campus accommodation, classroom and playground, super campus contains various functions Shared with the city and contributes to community service. It is an educational complex with super functions

City share complex function The plot connects with the city at all levels

Classification of clubs 0325

V.S.

Traditional campus model

interface

ESTABLISHMENT OF ASSOCIATION ALLIANCE

0307

Super model

An educational complex consisting of school, community service and external training

operating way From the perspective of community culture to establish a new learning and living system & campus operation mode

Every part of the regular campus teaching dormitory canteen movement is separated, and students can only connect a few different patterns, we combine the characteristics of each part of the activities and space to form the input-core-output space and activity system, students daily life on campus follow the system is full of accidents

student dormitory teaching space faculty dormitory reserch space

0329

0401

S U P E R CAMPUS S P A C E OPTIMIZATION

art club

study clb

sports

service

core

Core -book · kitchen club

CORE SPACE MODE BIDDING MEETING

0408 Association of sports and sports associations

Super campus committee

0412

Symbiotic association of animals and plants

Training office management office

nature

»» Tori drama club »» Star performing arts »» Kunqu opera study club »» Movie club »» Guqin club »» ...

»» Astronomical society »» Debating and speaking association »» Sign language club »» Institute of future architects »» Anime association »» ...

»» Basketball association »» Association of running »» Fitness association »» International standard dance association »» Rock climbing club »» ...

»» Feline alliance

sports

»» Caiyun zhinan student club »» Alumni contact student

educational training

associations »» Spring rain volunteer teaching club »» ...

0418

0423

RESEARCH ON THE F U N C TIONAL S P A C E MODEL OF S U P E R CAMPUS

Medium space of animals and gardens

0425

0429

Style community Super big pancake

Training office underground organization

S P A C E DESIGNER JOB FAIR

»» Normal teaching and living space »» Orthogonal system

»» Core transition space »» Orthogonal system + nonorthogonal free system

0506

S U P E R CAMPUS S P A C E REFINEMENT

»» Public activity space related to city and community

0509

0513

»» nonorthogonal free system

S U P E R CAMPUS TYPICAL S P A C E S C E N E SHAPING

Core -book · kitchen club

Symbiotic association of animals and plants

S u p e r campus core -"book · kitchen"

Symbiotic association of animals and plants

0516 Style community The super bubble

Student dormitory

Underground organization and external training

Faculty space

0520

0523 S U P E R CAMPUS P L A N E DEEPENING

0527

Dormitory unit

Dormitory public rest area

0530

Super natatorium & small theater

S u p e r basketball court

S u p e r track community ring

Northeast corner

Faculty space

Southeast corner

Northwest corner

Southwest corner

S U P E R CAMPUS PERFORMANCE

0603

？

PNAEL 12

PNAEL 11

PNAEL 10

PNAEL 9

PNAEL 8

PNAEL 7

PNAEL 6

PNAEL 5

PNAEL 4

PNAEL 3

PNAEL 2

S U P E R CAMPUS COMPLETED

PNAEL 1

0607

CAMPUS SPACE-TIME SCRIPT

SUPER CLASSROOM

Super campus is mainly composed of six parts: super classroom, super dormitory, super core, super green, super training, super physical arts,

SUPER DORM

The six sections are based on the community, Following the campus input-core-output super model, Design the campus as a whole

SUPER CORE

SUPER FARM

SUPER TRANING

SUPER GYM

WORKFLOW â&#x201D;&#x192; RESEARCH FROM THERMODYNAMICS

B1 Plan

Ground Floor Plan

Super Nature Plan

+16.00M Plan

+28.00M Plan

JINQIAO FESTIVAL â&#x201D;&#x192; RESEARCH FROM THERMODYNAMICS Followed by super FAR. The target FAR of super campus is 3.0, while the FAR of ordinary school typology in China is about 0.6. The clubs are the most flexible part of the campus, representing studentsâ&#x20AC;&#x2122; spontaneous vi-tality and creativity, so we use the club-related space as an entry point. Moreover, the intro-duction of external training functions and club-related spaces in campus design means that the functions of the campus will be more complex and requires a new operation mode. Another is the super innovative mode. The involvement of urban activity and club life has rendered the old single-core model that was developed around the basic teaching no longer applicable. Therefore, we explore a new to meet the multiple needs of campus management, student autonomy, and external interactions. The last is super collaboration. We use the form of mobile grouping, in which 13 team members can cooperate with each other at least once.

super core

FARM

Under the mode of the whole super campus, the core belongs to the transformation space of the whole super campus, connecting the input terminal and the output segment. Through this space, students move from the school management system to the student autonomy space. The core concept is the multiple world, through different spatial techniques to shape different Spaces. The design divides the interior space into three parts, which is a miniature of the whole super campus.t

CLASSROOM

CORRIDOR CORE

GARDEN CLASSROOM

宿舍连接口

DORMITORY CORRIDOR COURT

GARDEN FOR CITY

PLAYGROUND TRAINING CENTRE FOR CITY

CLUB

LANE

PLAYGROUND CLUB

FARM FOOTBALL FIELD AND THEATER

CLUB

TRAINING CENTRE FOR CITY

STADIUM

PARKING AND EQUIPMENT

剖面关系

多重空间组合模式分析二维叠加

核心概念图解

上下叠合

三维切片

穿越之管

“套娃”式叠合

转换皮层

插接叠合

块状叠合

正常的教学生活空间 - 输入端

组合模式

图书馆，食堂，快速交通体与城市，社团相关的公共活动空间 - 输出社团，文体社团开放公共空间

剖面关系

展示空间 , 公共空间

剖面关系

功能分析研讨室

异型空间生成

宿舍连接口

功能划分

工作坊冥想室藏书空间报告厅阶梯教室

输入空间（正交）

展览空间厨房可展示化材料室开放公共空间

垃圾处理室创意集市景观花园

连接接口

路径连接

路径拟合

曲面拟合

输出空间（异型）

教学用书店休息室自习室

通过确定异型空间节点，通过羊毛算法模拟路径，导出路径模式

咖啡吧游乐设施开放式餐厅门厅

教室连接口

功能分区寝室连廊

寝室连廊

大型空间接口 - 宿舍，寝室连廊，屋顶平台小型空间接口 - 冥想室，研讨室

厨房餐厅

教室连廊

藏书空间

中型空间接口 - 食堂，图书馆

F 自习空间

连接体结构分析

峡谷入口一

三角灯光板

玻璃幕墙

木制地板

连接体三角形梁架

三角形灯光板

与城市主入口与社团环连接

校园主入口

平面连接口

F3 平面图 1：300

F5 平面图 1：300

F7 平面图 1：300 峡谷入口二

SUPER CORE - LIBRARY

R O F ITY

N RE U M M TU

S C tial, O n U e C R d i RAST ing Res er 2018 02.

E G A L AL

Chin

ai , angh

- INsFerch on Argk. Septemb o Re nal W o s r Pe

ALL-AGES' DEMAND & SUPPLY ┃ RESEARCH CHART 6

DIVERSE UNITS 18

Weekday

RELATIONSHIP NET

Weekends

Weekday

Weekends

Weekday

Weekends

Young People

Children

50-60 years-old

Care Workers

White Collar Youth Healthy Olds

Weekday

Weekends

Weekday

Weekends

Weekday

Weekends

Weekday

Weekends

Ill-Health 20-3 Olds

Weekends

Youth Entrepreneurs 20

Students

Weekday

Weekends

-3

10 5-

Sick Olds

85-100 years-old

NOW

All Photos' source and copyright in this page: Google

Service Space with Healthy Olds

Migrant Workers Private Space

Weekday

5-10 years-old

3 Important Points: a, accessibility b. diversity c. the infrastructure 2 Vital Ages: a. Healthy Olds 60-75 b. Care Workers 20-35

Infrastructure with Care Workers

Service space

75-85 years-old

Through the introduction of infrastructure with care workers at its core to enhance the vitality of neighborhoods, establish a mechanism of 0-5 years-old mutual benefit and provide space for exchanges and mutual assistance to form a community of cyclists of all-ages, and balance the interests of pension institutions, developers, and governments, and ease the economy of middle-aged and young families' pressure.

Weekends

Healthy Olds

CARING

60-75 years-old

EDUCATION

35-50 years-old

Government

Weekday

Youth Entrepreneurs Mid-age Workers Near Retirement

20-35 years-old

Residents

Care Workers

Pension Agency

20-35 years-old

Need government funding support, large-scale promotion requires a lot of money

Developers

ALL-AGES COMMUNITY

CHINA SETTLEMENT MODE ANALYSIS

NUCLEAR FAMILIES COMMUNITY (1990AD to Present)

Nursing Home

All-ages

INSTITUTIONAL UNIT COMMUNITY, a symbol of rights and identity (1949AD-1990AD)

10-2 0

Benefit

The loss is not profitable. Space, nursing, low quality of life, lack of nursing staff

FEUDAL SOCIETY - FEUDAL LANDLORD-Han Dynasty Chang'an City (221BC-1840AD)

PEOPLE'S COMMUNE, Collective management (1958AD-1978AD)

Students

Developers

Pension Agency

C O U R T YA R D , H U T O N G , following traditional residential closed mode(1949AD-1958AD)

Children

Institutional Pension

P AT R I A R C H A L S O C I E T Y SETTLEMENT(5.5 thousand years ago-4 thousand years ago)

SEMI-COLONIAL AND SEMIFEUDAL SOCIETY- LILONG (1840AD-1949AD)

Babies

Government

Seeking a Possible Balance

SLAVE SOCIETY-HIERARCHY Shang Dynasty Capital City Recovery (2100BC - 221BC)

Children work long hours without adequate care

10-20 years-old

NEOLITHIC—CITES(10 thousand years ago - 5.5 thousand years ago)

Shanghai's population aged 60 and above reached 31.6%. The proportion of young people living in the older population has grown significantly. It is the most active grou®p among the elderly population and it is also an active factor in social and economic development.

Home Care

CONFLICTS OF INTERESTS

M AT R I A R C H A L S O C I E T Y SETTLEMENT(1 million years ago - 10 thousand years ago)

SEVERE POPULATION AGING Young and middle-aged people work under more pressure and work for a long time: (1) The first peak of population explosion before family planning is entering the old age (2) Implementation of the second-child policy

Time

5-10 years-old

ORGANIZED ORIGINAL SETTLEMENT(1.5 million years ago-1 million years ago)

ANALYSIS OF DEMAND & SUPPLY

Shanghai Level

National Level

0-5 years-old

UNORGANIZED ORIGINAL SETTLEMENT(3 million years ago - 1.5 million years ago)

SEVERE POPULATION AGING

APE-MAN'S APPEARANCE

SETTLEMENT MODE ANALYSIS

Children

Demand Supply

Private Space Public Space

10-20 years-old

Mid-age Workers

35-50

0-5

Babies

Eating Medical Treatment Clean

PUBLIC SPACE

The low-rent housing in combination with the public space constitutes the foundation of the entire community, i n c l u d i n g n u r s i n g s c h o o l , l i b r a r y, landscape trail, etc.

SERVICE SPACE

The basic space and the customized diversified unit modules penetrate each other to form a left over space, as a service space for care service and communication between different age groups.

SECONDARY SERVICE SPACE The 60-75-year-old healthy elderly live in a space that includes their own private living space, a transportation space for a core living module, and a public space for communication. This is conducive to the role of healthy elderly in the community.

DIVERSE UNITS According to the needs analysis of

different age groups, the living space of 10 age groups is customized to meet the needs of different people.

05. FLOW - THERMODYNAMICS Natural System-Thermodynamic Architectural Prototype, Research and Design on Shandong Province Natural Museum Tongji Optional Studio (17-Week Group Work) Contribution: 40%Concept & Strategy / 40%Research / 30%Mapping / 80%Material Design (Team Leader) Instructors: Linxue LI, IĂąaki Abalos E-mail. lilinxue@tongji.edu.cn (Prof. Linxue Li) Collaborator: Ran Mo/ Changjie Chen/ Kristoff Fink Spring 2018 (8th Semester)

CONCEPT OF FLOW ┃ RESEARCH FROM THERMODYNAMICS

SITE ANALYSIS 150°W

135°W

120°W

105°W

90°W

75°W

60°W

45°W

30°W

15°W

0°

15°E

30°E

45°E

60°E

75°E

90°E

105°E

120°E

135°E

150°E

165°E

165°W

150°W

135°W

120°W

105°W

90°W

75°W

60°W

45°W

30°W

15°W

0°

15°E

30°E

45°E

60°E

75°E

90°E

105°E

120°E

135°E

150°E

165°E

Local Climate 1℃ 27.

75°N .5 26

75°N

Arctic Circle

℃

9℃

8.5℃

12℃

9℃

9.9 ℃

nsh ine[

15. 5℃

.5℃

3.5 ℃

M ar

6℃

-0.

Fe b

Aug Se p Oc t N ov De c J an ay Jun Jul Apr M Mar Feb

Jan

Jul

c De v No

Prec ipit ati on

ov Dec Jan Feb Ma r Ap Oct N r M Sep ay Aug Jun

ct O

Jul

Au g

Se p

105°E

120°E

135°E

150°E

165°E

90°E

105°E

120°E

135°E

150°E

165°E

℃ -7 . 4℃ -3 .9℃

Jun

ture era mp Te ily

90°E

75°E

12 2

75°E

60°E

133

60°E

45°E

143

45°E

30°E

102

75°S 30°E

159

15°E

165

0°

143

0° 15°E Penguin Habitat

Future Function

15°W

30°W

45°W

60°W

Above 50yrs

60°W

75°W

30~50yrs

75°W

90°W

Planning Area 10~18yrs

90°W

105°W

120°W

135°W

150°W

Distrubution of People

Rad iati on [kW

h/㎡ ] Factory High Tech Business

℃ 9. 9

16 5

120

105

-7.4℃

Daily Temperature[℃]

150°W

165°W

Penguin Habitat

Original map sourse: Wikimedia Commons file

First-class Road Second-class Road Third-class Road Fourth-class Road

℃ 3.2

75°S

Road Hierachy

113

M ar

40 5

] )[℃

5.8

75°S

Fe b

66°30′S

m] [m ion itat cip

4m re(-

18~30yrs

Jan

6 .2

Antarctic Circle

Pre

66°30′S

ratu

60°S Antarctic Circle

mpe

60°S

Aug Se p Oc t N ov De c

7.3

30°S 45°S

d Te un

23°26′S

45°S

Jinan, Shandong

60°S

45°S

Jean-Marie Tjibaou Cultural Centre

Exploratory Science Museum of Unicamp

15°S 30°S

7 .3

30°S 45°S

Jean-Marie Tjibaou Cultural Centre

Radiation

Exploratory Science Museum of Unicamp

South Tropic of Cancer

Gazelle Habitat

Gro

ay Jun Jul Apr M Mar

0° 15°S 23°26′S

15°S 30°S

Feb

15°N 0°

Gazelle Habitat South Tropic of Cancer

m) (-4

23°26′N

Tuna Habitat

15°N 0°

Ground Tem pe rat ur e

ture era mp Te

Se p

an c J De

6.8 7

23°26′N

30°N 15°N

6.2

45°N 30°N 23°26′N

Tuna Habitat

0° 15°S

℃ 22 ℃

Au g

v No

5.8

Museo Internacional Del Barroco

30°N 15°N

Jul

ct O

Elephant Seal Habitat

45°N 30°N

r Ap

Jun

℃ 14

45°N

Jun

Sunshine

60°N

Jul

ov Dec Jan Feb Ma r Ap Oct N r M Sep ay Aug

.5℃ 17

International Centre for Cave Art

23°26′N

66°30′S

11℃

1.2℃

60°N

Elephant Seal Habitat MuseoofInternacional Del Barroco California Academy Sciences

45°N

66°30′S

8.1℃

.6 ℃ 16

℃ 20

California Academy of Sciences 60°N

23°26′S

16.2℃

℃ 22

66°30′N

International Centre for Cave Art

60°N

23°26′S

21.6℃

66°30′N

Arctic Circle

ay M

66°30′N

r Ap

66°30′N

System Analysis

℃ 2 5.6

Temperature[℃]

165°W

-10 .4

Köppen Climate Map

Our design tried to cope with two questions after site analysis: How to reduce energy consumption by thermodynamic means and create a comfortable built environment in the extreme temperature range in Jinan. we found out that countercurrent exchange in organisms respond to extreme climates, such as gazelles and penguins. After reserching, we conclude the key point: Form flow by creating gradient and form exchanges through flow which is to cope with the extreme environment. We need to create two source to form gradient, so it would be look like separated up and down, one is overhead, one is underground. Putting the building underground, so it could change the temperature before the air goes into the building. In the final form of architecture, we reflect flow to the flow form of museum space which contributed a continuous path for museum visiting. In the research process, from animal to architecture, and from space form to material, the concept of thermodynamic flow is embodied.

-1.3℃

.1℃ 15

6.8℃

14.4℃

℃ 20.2

1℃ 21.

CONCLUSION CHART OF THERMODYNAMICS RESEARCH ┃ FROM NATURAL SYSTEM TO PROTOTYPE Natural System/ Architrcture

Diffuse Radiation Global Radiation

Sushine Duration Astronmical Duration

Temperature Max(℃ ) Temperature Min(℃ )

Precipitation Days with Percipitation

Wind Rose

Sun Path

System/ Main Plan

Elephant Seal Elephant Seal

Tuna Tissues/ Layout Tuna

EXCHANGE

Gazelle

Penguin

Gazelle

Penguin

FLOW

GRADIENT

Interface

QUESTION

Animals

ANIMALS

Form

NATURE ENVIRONMENT

Reverse Search

Mechanism

Element

Architecture

CASES

Form

URBAN ENVIRONMENT

Reverse Search

Mechanism

Element

Form Element

PROTOTYPE

Mechanism

LOCAL ENVIRONMENT

Positive Generation

Prototype

FORMING OF FLOW â&#x201D;&#x192; FROM PROTOTYPE TO ARCHITECTURE PROTOTYPE

GRADIENT

Leaning forward

Front Low Back High

Front High Back Low

Same Level

= Natural Artificial

Through the introduction of infrastructure with care workers at its core to enhance the vitality of neighborhoods, establish a mechanism

Upright

Upside-down

Straight

Concatenation

PROTOTYPE

Unmerged chimney

Merged chimney

C- section

Unmerged chimney

Overlay

Variation

Open

E- section

One-side-open courtyard

Through the introduction of infrastructure with care workers at its core to enhance the vitality of neighborhoods, establish a mechanism of mutual benefit and provideGEGGEERGEEure

One-side-open

COURTYARD

SEASONAL ADAPTION

Courtyard

COLD WINTER

D- section

Merged Chimney

HOT SUMMER

COMBINATION TYPE

Unmerged Chimney

SIMULATION Through the introduction of infrastructure with care workers at its core to enhance the vitality of neighborhoods, establish a mechanism of mutual benefit and provideGEGGEERGEEure

Intersection

Stagger

EXCHANGE

B- section

FLOW

Outlet

Leaning backward

EVALUATION

A- section

Cold

Radiation

Vertical

Shape

PROTOTYPE GENERATION

Outdoor

ORIGIN

Adjoin

Outlet

Hot

Underground

Breakthrough

PROTOTYPE ELEMENT RESEARCH

Overhead

Insert

Incline

MASSING

Relationship

Indoor

MAPPING

SIMULATION

FORMING ┃ FLOWING SPACE

DETAILS

Forming Generation Through Urban & Environment

FLOW PLANE: Utilizing the flowing form of the architecture prototype, we create flow space to adapt to the visiting streamline in natural museum. From the entrance to the whole exhibition hall, visitors can experience all exhibitions in a flowing and uninterrupted way. DETAILS: The prototype needs to consider about details like how to control the energy transfers though material and façade. We try to apply flow to the material prototype and using physical models to explore the possibility of the prototype.

Massing

Gradient

MATERIAL PROPERTY 0°

5°

10°

25°

30°

35°

40°

45°

50°

55°

60°

65°

70°

75°

80°

85°

90°

95°

15°

20°

FACADE DETAILS Connected to Rainwater Harvesting System

Wa t e r- f i l l e d cooling device

Chimney

Inlet

Outlet

Flow

Axonometric Diagram

SPACE PERCEPTION ┃ FOUR VISITING EXPERIENCES 参观动线：顺着缓坡上下展品布置：沿动线布置观看方式：展品顺序观看

参观动线：顺着缓坡上下参观动线：沿等高线展品布置：沿动线布置展品布置：低处布置大型展品观看方式：展品顺序观看观看方式：单个展品多角度观看

参观动线：沿等高线展品布置：低处布置大型展品观看方式：单个展品多角度观看

Visit line: Z-type visit Exhibits layout: Arrangement along the moving line Viewing Method: Exhibit Group View 参观动线： Z型参观展品布置：沿动线组团布置观看方式：展品组团顺序观看

参观动线：面状参观动线： Z型参观展品布置：沿动线组团布置展品布置：顺著坡放置展品组合观看方式：展品组合多角度观看观看方式：展品组团顺序观看

Visit line: Along contour line Exhibits layout: Large exhibits arranged at low places Viewing Method:Multi-angle viewing of a single exhibit

Visit line: Face shape Exhibits layout: Place the exhibits along the slope Viewing Method: Exhibits Combination Viewing 参观动线：面状展品布置：顺著坡放置展品组合观看方式：展品组合多角度观看

Visit line: Along gentle slope Exhibits layout: Arrangement along the line Viewing Method: Exhibits Order Watch

参观动线：顺着缓坡上下展品布置：沿动线布置观看方式：展品顺序观看

参观动线：沿等高线展品布置：低处布置大型展品观看方式：单个展品多角度观看

参观动线：顺着缓坡上下展品布置：沿动线布置观看方式：展品顺序观看

参观动线：沿等高线展品布置：低处布置大型展品观看方式：单个展品多角度观看

参观动线： Z型参观展品布置：沿动线组团布置观看方式：展品组团顺序观看

参观动线：面状展品布置：顺著坡放置展品组合观看方式：展品组合多角度观看

参观动线： Z型参观展品布置：沿动线组团布置观看方式：展品组团顺序观看

参观动线：面状展品布置：顺著坡放置展品组合观看方式：展品组合多角度观看

PERSPECTIVE SECTION

SPACE PERCEPTION ┃ SECTION A-A SECTION

B-B SECTION

SPACE PERCEPTION ┃ OUTDOOR RENDERING

06. DYNAMIC CITY - TECHNOLOGY Urban Design In Hongkou Port, Shanghai North Bund Tongji Core Studio (9-Week Group Work) Contribution: 70%Concept & Strategy / 50%Research / 80%Design / 50%Drawing (Team Leader) Instructors: Songhua Dai E-mail. 1470119449@qq.com Collaborator: Zhengyan Hong Studio work in Fall 2017 (7th Semester); Totally Redesign in November 2018

CONCEPTION

ARCHITECTURAL ELEMENTS RESEARCH CHART

DESIGN CONCEPT:

TRADITIONAL ELEMENTS

The design hopes to introduce new visual technology to explore the characteristics of virtual architectural space, between complete virtual and absolute truth, MR in the maintenance of the original material space perception, the virtual object added to the real scene, so that the space changes visually. Because the virtual architectural element is an immaterial visual perception, there is no tactile feedback and physical collision, so that people can travel freely in the virtual space, thus challenging the basic rules of many traditional architectural design, we discuss the basic spatial composition of the virtual building elements.

Paving Materail

MR ELEMENTS

3D water

Advertisemnet

Connection

Intensify Concave

Intensify Convex

Establishment

Zone

Array

Limitation

Barrier

Separate

Single-MR Enclosure

Double-MR Enclosure

Triple-MR Enclosure

Pick Out

Cover

Shrouded

Height Difference

MIXED REALITY(MR) REAL ENVIRONMENT

AUGMENTED REALITY

AUGMENTED VIRTUALITY

VIRTUAL ENVIRONMENT Establishment

Limitaton

Enclosure

Photo Taken by Zhenyan Hong

VIRTUALITY REAL ELEMENTS

MIXED REALITY Real Space Mixed reality

VIRTUAL ELEMENTS

Virtual Space

REALITY Servant Space Served Space

kitchen toilet

Coverage

lobby gallery office

Mixed Reality (MR), which includes both augmented reality and enhanced virtualization, refers to a new visualization environment that results from merging reality and virtual worlds. Physical and digital objects coexist and interact in real time in a new visualization environment. MR is the further development of virtual reality technology, which enhances the realism of the user experience by introducing realistic scene information into the virtual environment and putting together an interactive feedback information loop between the virtual world, the real world and the user.

The architectural space formed by MR technology has the characteristics of visual and untouchable. In traditional building space, MR can replace some architectural spaces that are only used for vision, such as enhancing the identification of paving land, enhancing the visual perception of sinking or uplift, the sense of direction formed by column, the circumference of volume, and narrowing scale of ceiling cover.

SITE ANALYSIS

URBAN DESIGN SYSTEM ANALYSIS ION

TRY US

IN AL

RIC

HIS

ICS

TIO VA ER

L RE

IRC

Theatre Cinema Press Church

The historical industry existing around the base contains urban memory and becomes an important historical and cultural resource.

Well-preserved

Surrounding historic buildings have better preservation, historical value and high ornamental value.

Being Repaired Poor Save

C CE

S LIC

Re & Co Commercial

ION

Office

T NC

Municipal Education

Circulation

B PU

Sparse

SLO

Intensive

T YS

The base and its surrounding functions are more complete, basically what kind of public services can cover the entire base; But the overall is more outdated. Extroverted Public

Commercial Re & Co

N TIO

Residence Office Culture

Semi- private

Medical

Internal green

Storage

External green

Introverted Public

Extroverted Public Semi-private Introverted Public

D OA

H AC

HIE

LI UB

Semi-private space and internal and external to the public space integration, different functional types of architectural combination, resulting in rich spatial texture, the design of the base should have a wide range of public space.

Trunk roads

E ICL

Branch

According to the direction of the river, several nodes of public space are set up on both sides of the strait, so that the scene can relate.

The slow-line system is mainly arranged along the river bank, along the river part of the suitable pedestrian scale, making the river a gathering place for most visitors.

Features continue the richness of the functions of the surrounding cities, and a wide range of functional spaces can enhance the vitality of the region.

Green spaces are spread throughout the design site and become a space for public events, and green spaces can effectively link the site to the surrounding city.

The driveway is arranged as far as possible along the perimeter of the base, so that the base can obtain the flow of people from the outside while slowing down the traffic inside the base.

Open

Closed

IN TA

RE M

STE

Y DS

Branch Times Trunk Roads Trunk Roads

STE

PLA

DIN

Semi-cloesd

Times Trunk Roads

M TE

Semi-open

Public space

Function is Changed

Residence

AT UL

The interface of the river is negative, the levee is too high to block the view, the old street interface is rich and cordial, the new building interface is monotonous and boring.

The road network is rich in level, with a wide fast road inside the base, and the rest of the narrow road system and the urban pattern permeate each other.

IL BU

Old buildings Semi-old buildings New buildings

Local reservations have been made to the old buildings, and there has been a certain degree of architectural transformation and functional renewal.

NTE

SUMMARY Urban design hopes to enrich the vitality of the area by enriching the public space of the Riverside, and public space nodes formed along the river are flexibly changed according to the needs of peacetime and festivals, while slow system and greening make the whole block more cordial and pleasant.

AXONOMETRIC DIAGRAM ┃ ORDINARY TIMES

AXONOMETRIC DIAGRAM ┃ FESTIVAL TIMES

MIXED REALITY SMALL-SCALE EXPERIENTIAL SPACE

VIRTUALITY MR ELEMENTS

MIXED REALITY LARGE-SCALE CONCENTRATED SPACE

VIRTUALITY MR ELEMENTS

we use MR elements to add more small scale space to add more experivenced space at ordinary times, which can attract more visitors.

We use MR elements to create more large and concentrated space to organize activities for large pedestrian volume at festival times.

REALITY SHARED REAL BUILDING

MASTER PLAN

SPACE PERCEPTION ┃ AXONOMETRIC AT ORDINARY TIMES

SPACE PERCEPTION ┃ AXONOMETRIC AT FESTIVAL TIMES

SPACE PERCEPTION ┃ SCENES AT ORDINARY TIMES

SPACE PERCEPTION ┃ SCENES AT FESTIVAL TIMES

03. MARSH SCHOOL - TECHNIQUES Interaction Between Modern And Traditional Construction Techniques Personal Work October 2018 Tigris-Euphrates Marsh, Iraq 26

HISTORICAL REVOLUTION OF MARSH Maps Source: Google Earth

1984 & before The original marsh.

1994 2004 2008 2014 2016-now The Saddam government began The marsh began to recover owe The recover stepped down due Utilizing the Glory river's water The marsh keeps a stable rate to construct embankment. to the organization"Nature Iraq" to dry and lack of water. to irrigate the central marsh. of the land.

1,2 photos' Source: Google

Local people have used the reeds’ roots to build floating houses and their stems to construct arched houses for hundreds of years. I established a connection between modern and traditional construction techniques. I used double skins to reflect the relationship between new transparent materials and crossed two circular arches cross to form a new type of pointed arch. Students who attend such a school would not only be able to visualize their people’s collective memory, but also enjoy a new space created by modern techniques.

RESEARCH OF ARCH ┃ USING TRADITIONAL PROTOTYPE TO CREATE NEW SPACE 1 NUMBER OF ARCH 2 3 Multiple

CONTEXT ┃ MULTIPLE USE OF REEDS

CONCEPT ┃ COMBINATION BETWEEN MODERN AND TRADITIONAL TECHNIQUES Structure: strapping

Transparent Materials

Roof: dense weaving Wall: loose network

Loose Reeds Network Ground Moisture Barrier

D i ff e re n t w a y s o f c o p i n g w i t h climate and corresponding functions. For example, in the form of a bundle in the structural part, in the form of dense weaving on the roof, and a loose porous network in the wall.

Strapping Reeds

Floating foundations

Steel Structure 4

1,2,3 photos source: website of "Nature Iraq "

The hollow nature of the reed root allows the tread to float on the water. Local residents woven the reeds into grass to make floating foundations as their home. 5

Reeds Foundations

Floating Foundations

Ground Moisture Barrier

Outside Transparent Roof

BIRD VIEW PERSPECTIVE

SPACE PERCEPTION ┃ POINTED ARCH a new type of pointed arch is formed by crossing two traditional circular arches, which enable students in this school to enjoy a new space created by modern techniques.

SPACE PERCEPTION ┃ CIRCULAR ARCH The traditional circular arches still remains the ordinary perception, which would be able to visualize their people’s collective memory in this special marsh environment. 29

DIVERSITY SPACE PERCEPTION ┃ SECTIONS

STEEL STRUCTURE OF ARCH

SINGLE UNIT

11M

12.5M

14M

DOUBLE UNITS

Outside Transparent Roof

12.5M

TREBLE UNITS 3M

Outside Reed Woven Wall

Outside Reeds Beam

STRUCTURE OF REEDS ARCH

Outside Timber Rafter

11M

12.5M

Outside Steel Structure

Inside Reed Woven Wall

14M

Inside Reeds Beam

AXONOMETRIC DIAGRAM ┃ MERGE OF DOUBLE STRUCTURE

11M

GROUND FLOOR PLAN N

184M 8M

24M

16M

H B

16M

48M

16M

6 18

10. Canteen 11. Music Classroom 12. Preparation Room 13. Laboratory 14. Classroom 15. Library 16. Teacher's Office 17. Playground 18. Courtyard

1. Multipurpose hall 2. Gym 3. Equipment Room 4. Locker Room 5. Storage Room 6. Toilet 7. Lobby 8. Activity Room 9. Kitchen

1: 750

36M

D 4.4M

E 8M

F 12M

G 12M

16M

124.4M

PERSPECTIVE SECTION

04. CITY FIELDS - MOBILITY HALL My goal of my project is to use mobility hub as multiple city fields for event goers and communities. The whole hub consists of fields and spectators. These fields not only provide functional space for people to enjoy, but also Multiple fields are connected by spectators and playing UCLA AUD, Mobility Studio Personal Work. Winter 2020 Instructors: Greg Lynn, Marta Nowak

SITE ANALYSIS

Existing and functioning various forms of transportation High Olympic relevance Intensive business relevance Capability of holding high volume people Many residential projects which are under construction Preference for using micro vehicles

Limited space for expansion Lacked commercial activities Not well-organized mobility system Congestion caused by narrow sidewalk and high volume pedestrians

07. FRAME OF AN EXQUISITE INFLATABLE - DESIGN STUDIO-TRANSÂˇFORM

Starting with four famous sculptures, the first step of this project was to disassemble them and create a matrix of parts (kitbashing). Our group examined the relationship between deformed inflatables and an agglomeration of solids as a single frame, following the idea of an exquisite corpse. Therefore we combined the matrix parts according to that strategy and created a series of morphologies. The aim of this course was the acquisition of a diverse skillset through a series of exercises on the aforementioned morphologies. The final documentation of the project includes drawings, animation, 3 VR applications, and 2 AR applications.

UCLA AUD, Mobility Studio Studio, Summer 2019 Instructors: David Jimenez Iniesta Collaborator: Gesthimani Roumpani, Jingyi Wang, Xiaoman Zhang 35

KITBASHING STATEGY

COLOR STUDY

Solids & Inflatables

Scalar Dissection

Planes & Tessellation

Seen / Unseen Inversion

THE MATRIX

MORPHOLOGY STATEGY inflatables linear objects

surfaces curved surfaces curved solids other solids

i. sphere GROUP 6

JINGYI WANG

GESTHIMANI ROUMPANI

JINGYI HUANG

XIAOMAN ZHANG

ii. deform

iii. rebuild

iv. exquisite corpse

v. population

PHYSICAL MODEL

Mister Wink, Cosmos Ball Takashi Murakami, 2000

Agglomeration Population 3D Grid

Right Arm Bowl

Ursula Von Rydingsvard, 2009

Untitled (Domestic) Rachel Whiteread, 2002

Rabbit

Jeff Koons, 1986

220 Layers Of Lasercut Cardboard Air Brushed

3d Printed Components Sanded, Painted White

Openings For Sticks

Wooden Sticks Painted White

37 09

LOCALIZATION perpendicular pressure points

perpendicular pressure points condition size distance

AUGMENT REALITY

VIRTUAL REALITY

08. OTHER WORKS A. RETRACTABLE CIRCLE - MOUNTAIN KAYAKING CLUB

Tongji Core Studio (9-Week Group Work) Personal Work Instructors: ZhenDong Wang E-mail. zhendong@tongji.edu.cn Studio work in Fall 2016 (5th Semester)

B. BUOYANCY - ALUMNI HOUSE Tongji Core Studio (18-Week Group Work) Personal Work Instructors: Wei Cen E-mail. cenwei@vip.sina.com Studio work in Spring 2016 (4th Semester)

C. TRADITIONAL ARCHITECTURE MAPPING - SUQIAN, JIANGSU Group Work Collaborator: Ran Mo, Yiran Xia Instructors: Jing Wen, Diyu Liu Studio work in summer 2017 (6th Semester)

09. WORKS DC Alliance Intern Architect in C+D Design Research Center (Employer: Yi Dong)

Shanghai, China July. 2018-Jan. 2019

Intern Architect of Harry Den Hartogâ&#x20AC;&#x2122;s Design Group

Nov. 2017-Feb. 2018

(Unless otherwise stated, the rest of the projects are participated in DC Alliance.) 41

SUPER C, HUZHOU BINHU MIDDLE SCHOOL â&#x201D;&#x192; COMPETITION PROJECT

The project is the first long-term rental apartment project in Shanghai. Close to hongqiao international trade center development zone, the base is located in the core of the ancient north, and tianshan area linkage development. Within 500m of the base, there are three subway stations, namely yili road station, songyuan road station and yahong road station, with convenient transportation.

INTERNATIONAL ZONE OF 2022 ASIAN GAMES ATHLETE VILLAGE (HANGZHOU) â&#x201D;&#x192; UNDER CONSTRUCTION

GOLDEN CITY ROAD EAST â&#x201D;&#x192; UNDER CONSTRUCTION

HALF SHANSHUI HALF CITY: The Asian Games Village is the carrier of important functions such as finance, business, and residence in Qianjiang Century City. Asian Games Athlete Village will be another milestone in Hangzhou development. Introduce the concept of city walls, implant the city's jogging movement system through the site and building, establish a dynamic link between the sites, and endow different spatial functions in the space between the city and the wall. The courtyard is given a variety of activities.

MILK TEA TUBE EXPERIENCE CENTER ┃ COMPETITION PROJECT

CHANGSHA HOUHU REGENERATION HUANGHE - PARCEL 4 ┃ COMPLETED

The base is located in the north of huzhou city center, surrounded by mountains in the west, and the famous taihu lake scenic spot in the north, with excellent geographical position. The project aims to create a unique and interesting experience of milk tea culture, making it an open and Shared public event space, and an iconic regional landmark. The milk tea TUBE experience center is one of the three conceptual schemes. The design takes the milk tea container as the starting point. Through the analysis of the container elements, two hidden spatial prototypes -"straw" and "cup" are extracted.

Intern Project in January 2018 Contributed to the concept, the façade design strategy and digital model Employer: Harry Den Hartog in Tongji University E-mail. 3376547279@qq.com Status: COMPLETED

WENCHANG STREET FOUR - DOOR RENOVATION PLAN,YUYUAN GARDEN, SHANGHAI â&#x201D;&#x192; COMPLETED This design is based on the idea of "exquisite yuyuan garden" to "beautiful yuyuan garden" to renew the whole yuyuan garden, restore the image of yuyuan garden, enhance the vitality of space, and empower the city. According to the historical space form, improve the current architectural style; Back the wall and build the corridor, dredging the air tour line, double-line interaction, to create a three-dimensional urban public space; Integrate the space line to enhance the vitality of space.

NANXIANG STEAMED BREAD SHOP RENOVATION PLAN â&#x201D;&#x192; COMPLETED

HUABAO BUILDING STAIRCASE RENOVATION DESIGN â&#x201D;&#x192; UNDER CONSTRUCTION