Portfolio_Bowen Li

B OW E N LI S ELE CTED P O RTFO LI O 2019 leobowen198482@gmail.com bowen.li@berkeley.edu 510.604.0736

EDUCATION: 2018 - 2019 UC Berkeley Master of Architecture 2008 - 2011 Hefei University of Technology Master of Architecture 2003 - 2008 Anhui Jianzhu University Bachelor of Science in Urban Planning

WORK EXPERIENCE: 03. 2018 - 07. 2018 Perkins+Will, Shanghai Office Architectual Design Consultant

Bowen Li 510.604.0736

10. 2016 - 12. 2017 Day Lab, Shanghai Architectual Design Consultant 04. 2012 - 09. 2016

leobowen198482@gmail.com

AECOM, Shanghai Office

bowen.li@berkeley.edu

Project Architect 04. 2011 - 04. 2012

2520 College Ave, Berkeley, CA 94704

Anhui Provincial Architectural Design & Research Institute Architect SPECIALIZATION: Conceptual Design/Schematic Design /Design Development/Detail Design/Urban Design/ Conceptual Master Planning SOFTWARE PROFICIENCY: AutoCAD / Revit Rhino (Grasshooper) / MODO / Cinema4D / Zbrush / SketchUP V-Ray / Unity Adobe Creative Suit (Photoshop/Illustrator/InDesign/Premiere)

RESEARCHES/ PUBLICATIONS/ THESIS Drawing science/ Drawing Fiction: The Future of California Ecololgy. “The Oasis” The Appraisal and Remodeling of The Image of University Campus Space - Taking Hefei University of Technology campus as a studying case http://xueshu.baidu.com/s?wd=paperuri%3A%28422026753bc516373af93af6abe836ff%29&filter=sc_long_sign&tn=SE_xueshusource_2kduw22v&sc_vurl=http%3A%2F%2Fd.wanfangdata.com.cn%2FThesis_ Y1887208.aspx&ie=utf-8&sc_us=3330057494207269895 The Nature of Space is Concerned with Human Subconscious Needs http://www.cqvip.com/QK/71135X/201107/37115969.html

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PROJECT EXPERIENCE 2018 Duke Kunshan University, Kunshan 2016-2017 Living Community on Mars, 2018 EVOLO Competition, Editor’s Choice China Shaoxing Opera Museum, Sheng Zhou Zhengzhou Jinrong Centre Conceptual Plan, Zhengzhou The Art Gallery Sponsored by Shangshan Psycology Center, Beijing 2012-2016 1111 Yuanshen Road Office Building, Shanghai Shanghai Candor Plaza of D&J China, Shanghai Ningbo LiuTing St. TOD, Ningbo Shanghai Dongjiadu Financial City, Shanghai Facade Design of WANDA Shudu Shopping Mall and SOHO, Chengdu Architecture Design of KingBox Hotel and Club, Shanghai Design & Research for Prototype Facade of WANDA Shopping Mall Facade Design of WANDA shopping mall and SOHO, Neijiang, Chongqing Cultural Tourism Concept Planning of Dragon Water Lake District, Dazu, Chongqing Cultural Tourism concept Planning of Zhongjing Village, Jinan Urban Design and Architectural Design of New City Core Area,Tong Liang, Chong Qing Wanxiang Jiangshan 2nd phase of Commercial Planning and Architectural Design,Meizhou Concept Tourism Planning of Changle Riverside and Coastal Area, Fuzhou, Fujian Lijing City Complex Design, Tong Ling, Anhui Taizhou Bay Cyclic Economic Industrial Area Conceptual Master Planning, Zhejiang 2011-2012 Office Building Design of Win-all high-tech Seed Industrial Campus, Heifei. Anhui Concept Design of AnHui Foreign Economic Hotel, Harare, Zimbabwe Planning and Architectural Design of Xing Huayuan area C, Hefei Garden Church Design of YeJi, Lu An, Anhui Architecture Design of Ink Painting Academy, Jing Xian, Anhui Before 2011 Building Design of Architecture and Art Department Hall in HeFei University of Technology, Hefei Master Planning of Integrated Support Community of The Sixth Army Ordnance, Xi’an Architecture and Landscape Renovation of NO.1 building in HeFei University of Technology, Hefei

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CONTENT I. PROFESSIONAL WORK ARCHITECTURE 05 Facade Design & Research of Wanda Plaza Chengdu/Chongqing/Zhengzhou, China 25 Liu Ting St. Mixed Use Ningbo, China 35 1111 Yuanshen Road Office Building Shanghai, China 45 Candor Plaza of D&J China Shanghai, China 57 Duke Kunshan University Kunshan Campus Shanghai, China

URBAN DESIGN 71 Taizhou Bay Cyclic Economic Industrial Area Conceptual Master Planning Zhejiang, China 81 Jinrong Centre Conceptual Plan Zhengzhou, China 87 Tongliang New City Core Area Design Chongqing, China

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II. OWN WORK 95 Living Community on Mars eVolo 2018 Skyscraper Competition 107 The Art Gallery Beijing, China

III. ACADEMIC WORK 113 Architecture and Art Department Hall HeFei University of Technology, China 123 1# Building Renovation HeFei University of Technology, China 133 Drawing science/ Drawing Fiction: The Future of California Ecololgy UC Berkeley, U.S. 155 Berkeley Map: Bioengineering UC Berkeley, U.S.

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Facade Design & Research of Wanda Plaza_1 Shudu Facade Design of Shudu Wanda Plaza Time: 2015 The concept comes from the local natural cavern, in order to use Location: Chengdu shape and size to create a natural in different cave Type: Commercial Facade Design andthe 1stimage Prizeofin Project Competition flowing commercial façade and enhance the image of several Responsibility: Chief Designer main entrance. From the building column-grid , we teased out a Supervisor: Ke Zheng

Structure System

derivative structure system to set up a façade generation-logic, in order to support the curtain wall effectively.

Participation: Conceptual Design 100% Schematic Design 100% Design Development 80% Construction Coordination 50%

This project is a shopping mall developed by Wanda corporation (land developer). The client separated the façade design for bidding, the scope is mainly about three faces along the primary road. Because this is a real project and the clients gave a severe budget control, we need to limit our shape into a certain scope. Structure System to usecavern, natural from the local comescomes The concept The concept from thecavern, localin order natural in order to use the image of cave in of cave in different shape and size to create a natural image the different shape and size to create a natural flowing commercial façade and enhance the flowing commercial façade and enhance the image of several image of severalthemain entrance. From the building column-grid , we teased out a derivative building column-grid , we teased out a main entrance. From structure system to set up façade generation-logic, in order to support the curtain wall ic, generation-log up aafaçade set to system structure derivative effectively. in order to support the curtain wall effectively.

FACADE DESIGN FOR WANDA SHOPPING MALL 2015 Design 100% Production 80% Team Leader/ Project Manager

PAGE 007

Won 1st Prize in Project Biding

DESIGN FOR

This project is a shopping mall developed by Wanda corporation. The client separate the façade for bidding, the scope is mainly about three faces along the primary road. Because this is a real project and the clients give a severe budget control so that we need put our thinking in a very limited situation. Including the material and the structure support system. The concept comes from the local cavern, in order to use the image of cave in different shape and size to create a flowing commercial façade.

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PROFESSIONAL WORK ARCHITECTURE

Perforated Aluminum Plate

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Pattern Glazing

Aluminum Profile

Triangle Aluminum Plate

Facade Design & Research of Wanda Plaza

The faรงade system has different layers, each layer has their own t ex t u re o r p a t t e r n t h a t meets the requirement o f p e r f o r m a n c e . We customized most materials with supplier and made numerous detailed comparison including the color, seams, glossiness, reflection and transparency, etc, as well as testing the material performance under different weather and time.

Since some key parts of the facade have complex surface, like shifting curves and changing bumps, we need to communicate with constructional engineers in advance to discuss together and find a better way to build and install.

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PROFESSIONAL WORK ARCHITECTURE

Take the original building axis as the main frame to vertically divide the facade into columns. Based on this, In terms of facade materials, we had tried several kinds of cells in various size and shape.

Facade Panel's Type & Quantity Analysis

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We had studied the quantity of hyperboloid aluminum panels in different types of combination. By comparing and analyzing the data provided by material suppliers, we found an optimal way to divide the facade hence gained the balance between cost and performance .

Facade Design & Research of Wanda Plaza

Test of Different of Panel Shape

Performance high

low high

Unit Price

high

Quantity

Flat Panels single-curved Panels hyperboloid Panels

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PROFESSIONAL WORK ARCHITECTURE

Facade Subdivision

Facade Vertical Division

Facade Keel System

Extended Structure Support

Base Grid

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Facade Design & Research of Wanda Plaza

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Photos Taken During Construction

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Facade Design & Research of Wanda Plaza_2 Neijiang Facade Design of Neijiang Wanda Plaza Time: 2013 Location: Neijiang Type: Commercial Facade Design and 1st Prize in Project Competition Responsibility: Chief Designer Supervisor: Ke Zheng Participation: Conceptual Design 100% Schematic Design 100% Design Development 80% Construction Coordination 40%

This project locate in a city surrounded by beautiful mountains The client expected us to bring as many regional features as possible into the design concept. The strip-shaped "blocks" with different scales and directions are shuttling and extending on the building surface, mimicring the local natural cliff, the design try to emphasize the staggered collision of rocks.

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PROFESSIONAL WORK ARCHITECTURE

Illustrative Example of Aluminum Panel Division

Color Gradient of Aluminum Panels

Photos Taken During Construction

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Aluminum Prototypes

Facade Design & Research of Wanda Plaza

Section of Facade with Light Box

Section of Facade with Light Box

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PROFESSIONAL WORK ARCHITECTURE

Placement of Different Aluminum Panel Types

Facade Supportive Structure Plan

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Facade Design & Research of Wanda Plaza

L-Shape Component Details

West Elevation

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Facade Design & Research of Wanda Plaza_3 Asset Light Standard Facade Design of Asset Light Shoppingmall Time: 2015 Location: China Type: Commercial Facade Prototype Research & Design Responsibility: Chief Designer Project Manager Supervisor: Fanye Wang Participation: Conceptual Design 100% Schematic Design 100% Design Development 80% Construction Coordination 20%

This project is a prototype facade design of Asset-light Wanda Shoppingmall. Aiming to expedite the construction and present unified corporate culture, the key objective of this prototype facade is to design a standard pattern units that can be easily copied and applied onto a variety of floor plan of shoppingmall with the lowest budget. The ideas was start from the rhythm and cadence of scales which can vary by the angle between units.

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PROFESSIONAL WORK ARCHITECTURE

Single Aluminum Panel Details

Aluminum Panel Combination

Facade Elevation

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Facade Design & Research of Wanda Plaza

Single Aluminum Panel Details

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PROFESSIONAL WORK ARCHITECTURE

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Corner Joint Detail Plan - 1F

Corner Joint Detail Plan - 4F

Corner Joint Detail Plan - 2F

Corner Joint Detail Plan - 5F

Corner Joint Detail Plan - 3F

Corner Joint Detail Plan - Roof

Facade Design & Research of Wanda Plaza

Photos Taken Before Grand Openning

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Ningbo LiuTing St. Mixed-Use Development Time: 2015 Location: Ningbo Area: 3.9 ha GFA: 200,000 m2 Scope: Conceptual Design in Project Competition Responsibility: Chief Designer Supervisor: Fanye Wang Participation: Conceptual Design 80%

This project is located in the core area of Ningbo where abundant residence around this site, besides, a high speed rail station were constructed nearby the site's corner. The design was trying to creat a city complex as a platform which integrate different fanctionality and build Three-dimensional transportation system. The main challenge was how to solve the confliction between office , residence and comercial flow.

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PROFESSIONAL WORK ARCHITECTURE

Function Zoning

Office Building 16F GFA 32460m2 Residential 29F GFA 50000m2

Mall 6F GFA 72596m2

Parking Lot 8F GFA 9182m2 Shopping Street 3F GFA 27620m2

SOHO 10F GFA 7113m2

Building Layer

Business Park

Roof Park Layer Mall/Retail Commercial Layer Ground Entrance Layer

Elevated Residence Park

LG Commerical Layer

Landscape Connection Subway Connection Layer

B2 Parking Layer

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Ningbo Liuting St. Mixed -Use Development

To SOHO/ Cinema Sunken Plaza

LG Circulation Analysis

To Residential

Metro/Highspeed Circulation

Mall Atrium

Outdoor Retail Street Circulation

Customer Entrance

Shopping Mall Circulation

Parking Lot Entrance

Office Circulation Cinema/KTV Circulation

To Residential

Residencial Customer Entrance M

Metro Entrance

To Residential

Mall Atrium To Office To Residential

Traffic Hub

M

Metro Entrance

GF Circulation Analysis Cinema Entrance Soho Entrance

1F Circulation Analysis Primary Customer Entrance

Soho Drop-off Street Front Shopping Circulation

Skywalk Bridge

Outdoor Shopping Circulation

Customer Drop-off

Mall Shopping Circulation

Customer Drop-off

Office Circulation

Secondary Customer Entrance

Entrance

Outdoor Shopping Circulation Mall Shopping Circulation

Outdoor Shopping Circulation

Parking Lot Circulation Entrance

Drop-off

Residential Entrance

Office Drop-off Office Entrance

Secondary Customer Entrance

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PROFESSIONAL WORK ARCHITECTURE

Vehicle Circulation

Landscape Zoning

Luting Road Main Customer Entrance

SOHO Drop-off Parking Building Entrance/Exit Landscape Shopping Street Retail Customer Drop-off Secondary Customer Entrance

Shopping Mall Customer Drop-off Retail Undergroud Parking Entrance

Central Plaza

Business Park

Residential Entrance Shopping Mall Skylight Elevated Residential Park

Residential Drop-off To 2F Parking Lot

Recreational Landscape Unloading Parking Lot Entrance

Residential Undergroud Parking

Ma Yua n

Office Drop-off

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We st

Ro ad

Vehicle Main Entrance

Secondary Customer Entrance

Nan

Zha

nR oad

External Road Internal Road

Parking Lot Entrance/Exit

Internal Circulation

Surface Car Parking Surface Bicycle Parking

Drop-off Entrance

Landscape Node

Customer Entrance

Shopping Street

Residential Landscape Business Park

Ningbo Liuting St. Mixed -Use Development

Floor Plans

Outdoor Retail Street Office Residential Drive Way Residential Bicycle Parking Commercial Bicycle Parking Anchor Store For Sale Residential Retail Mall Shopping Street Sunken Plaza Commercial Drive Way Equipment BOH Parking Lot

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PROFESSIONAL WORK ARCHITECTURE

SOHO Floor Plan

Residential Floor Plan

Functional Section I

Cinema Kids Land F&B Club Anchor Retail Commercial Corridor Commercial Atrium Parking External Corridor

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Ningbo Liuting St. Mixed -Use Development

Office Floor Plans

Functional Section II

Residential Cinema Elevator Hall Retail For Sale Residential Entry Hall Commercial Corridor Apatment Parking Residential Parking Bicycle Parking Communication Core Rooftop Park External Corridor

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PROFESSIONAL WORK ARCHITECTURE

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Ningbo Liuting St. Mixed -Use Development

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1111 Yuanshen Road Office Building Time: 2016 Location: Shanghai Area: 2.6 ha GFA: 48,700 m2 Scope: Office Building Design Responsibility: Designer Supervisor: Paul Rice Participation: Conceptual Design 60%

The project is adjacent to Century Avenue that is an important extension of Shanghai XiaoLujiazui finance and trade zone. The former industrial land has been idle for many years. Now the local block development function is adjusted to the new industry R&D campus. Our main task is to design a high rise office building to provide modern office space which link to surrounding abundant green landscape resources.s

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PROFESSIONAL WORK ARCHITECTURE

Site & Context

Massing Pre-Analysis

Massing Formation

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1111 Yuanshen Road Office Building

Master Plan

Massing & Height Study

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PROFESSIONAL WORK ARCHITECTURE

Massing Option I - 100m

Shadow Analysis - 100m

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Massing Option II - 70m

1111 Yuanshen Road Office Building

Elevation

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PROFESSIONAL WORK ARCHITECTURE

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1111 Yuanshen Road Office Building

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PROFESSIONAL WORK ARCHITECTURE

Ground Floor Plan

Typical Floor Plan - Single Tenant

Floor Area 2090 m2 Core 283 m2 Efficiency 86 %

Typical Floor Plan - Multi Tenants

Floor Area 2090 m2 Core 450 m2 Efficiency 78 %

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Executive Floor Plan

Floor Area 1350 m2 Core 283 m2 Efficiency 79 %

1111 Yuanshen Road Office Building

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Shanghai Candor Plaza of D&J China Time: 2015 Location: Shanghai Type: Office Park Responsibility: Designer Supervisor: Zhehui Li Participation: Conceptual Design 60% Schematic Design 50%

As a new landmark in the Central District of Zhangjiang High-Tech Park, Shanghai Candor Plaza is the first Grade A office benchmark in the region. Located in the heart of the Central District of Zhangjiang High-Tech Park, With one 18-storey Grade A standard office building, four detached 3-storey headquarter office buildings and proprietary commercial facilities, this park is an emerging commercial complex in the region and creatively integrates modern simplicity with traditional Chinese waterscape features. This park was designed to hold exclusive commercial facilities, including recreational staff canteens, fine dining, cafĂŠ shops and convenience stores, which can fully satisfy daily office needs and allows swift shift between work and life.

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PROFESSIONAL WORK ARCHITECTURE

Site & Massing Study with LEGO

We started the design brain storm with LEGO, as it could quickly reflect the context and help us bring out several massing options for the site. Also, the massing cubes inspired me in the future design concept of function modules and mix-match spaces.

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Shanghai Candor Plaza of D&J China

Site The site is postioned as a commercial centralized mixeduse land according to the uper level master planning. It is located at the Zhangjiang Entreprenurs Service Centre covering research & design, education and cultural functions. The site is 300m distance from the Middle Ring Road, and 200m distance from the exit of Metro Line 13. The site has a good exposure to the Middle Ring Road.

The office tower location will bring different impression to passing-by vehicles. Option A shows more green open space, while Option B shows the architecture facade better.

Strategy A - Urban Public Plaza The space is compressed by the surrounding plots with consolid corners. It is suggested to open the space at this corner to provide a more welcoming feeling to people.

Strategy B - Space Enclosure Following the planning gene of the context, it is suggested to form an enclosed space of the site with internal courtyard.

Strategy C - Landscape Corridor It is suggested to build green corridors to connect surrounded open space and greens, in oder to provide a better walking experience.

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PROFESSIONAL WORK ARCHITECTURE

Grand Entrance Plaza

Open Air Green Court

Flexible Combination

Central Plaza

Vertical Green

Design Concept

Office Mixed Use Green Space Site

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Site

Function Insert

Dissolve & Reform

Container

Simple Division

Variety & Diversity

Shanghai Candor Plaza of D&J China

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PROFESSIONAL WORK ARCHITECTURE

Ground Floor Plan

Open Space Study

H/W Ratio=1:2.5

Highrise Setback Line

Architecture Setback Line

Skyline Analysis

Open Space

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Open Space

Shanghai Candor Plaza of D&J China

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PROFESSIONAL WORK ARCHITECTURE

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Shanghai Candor Plaza of D&J China

Office Tower Standard Floor Plan

Executive Floor Plan

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PROFESSIONAL WORK ARCHITECTURE

Low Rise Office GF Plan

Low Rise Office 1F Plan

Low Rise Office Section

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Shanghai Candor Plaza of D&J China

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Duke Kunshan University Phase II Time: 2018 Location: Kunshan Area: 18.6 ha GFA: 153,000m2 Scope: Concept Design of Library, Grad-Students Residence and Employee Residence Responsibility: Designer Supervisor: Paul Rice Participation: Concept Design 90% Design Development 50%

The campus is sited to the north west of Kunshan city centre, along the development corridor that runs west from Shanghai towards Nanjing. The highways and rail lines that radiate from the Hongqiao transportation hub and Shanghai city run close to the site location. Yangcheng Lake, one of the key freshwater lakes in the Yangtze river delta, lies immediately to the west of the project. In the design, we were trying to create a strong sense of place that weaves together the unique cultures of Duke University, USA and Kunshan, China. Besides the campus community is designed to encourage planned and serendipitous interactions between students, faculty, and staff.

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PROFESSIONAL WORK ARCHITECTURE

Campus Landscape Planning Strategy

Bring the nature lanscape to the campus The site is close to a city park with a lake opposite to the site on the other side of the road, which provides great nature landscape value to the site. It is suggested to invite the landscape into the campus by forming a entry plaza with broad open green space.

Connect develpment phases Duke Kunshan Univesity is generally developed from north to south, and divided into three phases. this project is the second phase in the middle of the big plan. Phase II is most impotant phase as it is the center of the whole campus geographcally, also, it is the connecting joint to link the diffent phases from the funcition and mobility perspectives. A green connection is proposed as it brings a green axis with great vision accessibility and outdoor flexibility.

Open Space Network Despite of the entry plaza, a serie of green open space is proposed for: 1, It serves as a stepstone in the regional ecological system; 2, It provides plenty of open space for students and staff to relax, do outdoor activities, sports, and meeting/communication space.

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Duke Kunshan University Phase II

Functional Analysis of the Campus

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PROFESSIONAL WORK ARCHITECTURE

Library Design

- The central atrium would create an element of "surprise" a special space carved within the solid volume of the block. - The entry points to the building would be from the South-East and North-West corners facing the "front door" of the university and suggesting a diagonal line of access from the entrace quad towards the phase 1 building. - Classrooms and collaborative work spaces are grouped tat the outer edges at level 1&2. Individual learning spaces and open work areas are largely arranged around the central volume. The library administrative areas are placed at the top floor at the south edge of the block. - The vertical circulation would be contained in four cores that rise throughthe block, with open stairs moving around the central core.

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Duke Kunshan University Phase II

Level 3

2,094 sqm

Seating Collections

Level 2

2,837 sqm

Seating Collections Tea House

Level 1

2,713 sqm

Classroom/Training Room Group Study Lecture Conference Staff Office

Ground Level

3,042 sqm

Access Services Collaboration Staff Office Bookstore Coffee Shop Gallery

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PROFESSIONAL WORK ARCHITECTURE

Library Design

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Duke Kunshan University Phase II

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PROFESSIONAL WORK ARCHITECTURE

Library Design This form creates the idea of a single central space that is the focal point of the building. The floor plates area a series of continuous shelves, around a dynamic internal space internal space which runs the full height of the building.

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Duke Kunshan University Phase II

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PROFESSIONAL WORK ARCHITECTURE

Graduates Apartment Building Design

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Duke Kunshan University Phase II

Level 4

208 sqm

5 * Four-Bed Room 2 * Goup Study Room

Level 3

832 sqm

6 * Four-Bed Room 2 * Goup Study Room

Level 1&2

971 sqm

7 * Four-Bed Room 2 * Group Study Room

Ground Level

653 sqm

1 * Coordinatior Room 2* ADA Room Lobby Social Lounge 2 * Group Study

Lower Ground

268 sqm

Storage Laundry

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PROFESSIONAL WORK ARCHITECTURE

Staff Apartment Building Design

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Duke Kunshan University Phase II

Level 3

3,321 sqm

12 * One Bedroom Unit 17 * Two Bedrooms Unit 7 * Three Bedrooms Unit

Level 2

3,887 sqm

12 * One Bedroom Unit 22 * Two Bedrooms Unit 8 * Three Bedrooms Unit Social Lounge

Level 1

3,887 sqm

12 * One Bedroom Unit 22 * Two Bedrooms Unit 8 * Three Bedrooms Unit Social Lounge

Ground Level

4,198sqm

12 * One Bedroom Unit 15 * Two Bedrooms Unit 7 * Three Bedrooms Unit Lobby Storage GYM Package Delivery Office House Keeping Sevice Room

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Taizhou Bay Cyclic Economic Industrial Area Conceptual Master Planning Time: 2013 Location:Taizhou, Zhejiang, China Area: 3.6 ha GFA: 228,700 m2 Scope: Conceptual Master Planning. Urban Design, Conceptual Architecture Design Supervisor: Ke Zheng Participation: Urban Design 80% Urban Planning 20% Production 40%

One important meaning of the City is the disappearance of the physical distance between people and people, between people and work, and between people and urban functions. It represents population aggregation (urban density), links and communication (connectivity), and interpersonal harmony (closeness). A successful city allows us to work together, live and play, meet the field and create unlimited creativity. A successful urban center with a high population density needs to ensure three elements at the same time: the sustainability of the environment, the tight connection of urban functions through the landscape, the creation of a large number of streets and spaces in scale, and the provision of diverse lifestyles. In view of the urban development of Taizhou Bay, the design focuses on the two themes: “facing the ocean” and “human care”. On the basis of the above-mentioned planning elements, we will integrate the urban design strategies, with new concepts and technologies to develop Taizhou Bay as a "City of Future".

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PROFESSIONAL WORK URBAN DESIGN

Project Background Due to massive urban expansion, more marine reclamation lands are needed to fit the requirments of recycle and marine industries. The location of the new urban centre of Taizhou city is well connected to the city east. 15mins driving distance from downtown to new centre, and well connected to aireport

Concept - Module City Clear Layers of nature green belt and water stream, transportation system, infrastructure, highly mixed land uses. Arrange differernt functional module blocks to form community cells with characteristic central parks that differentiate with each other. Provide full necessary services in each cell with 5mins walking distance. Create multi-level landscape sequence to gather and connect various community cells.

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Taizhou Bay Cyclic Economic Industrial Area

Plot Typology Study

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PROFESSIONAL WORK URBAN DESIGN

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Taizhou Bay Cyclic Economic Industrial Area

3D Green Connections

Based on the factors fore mentioned, we design with the following strategies: 1. Natural environment framework - Preserve and lay out the developable parcels under our respect to existing natural condition. Ocean water is introduced into the site to create a multi-functional canal system as a linkage, and more potentially high-value waterfront parcels are created for future development. 2. Linked Landscape - A variety of public open spaces are connected at multiple levels and extended. 3. Block Module - A 100 X100m module is applied as a basic block unit. Meanwhile, the road width in the residential areas is reduced to foster a more pedestrian friendly street environment and an efficient community level road system.

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PROFESSIONAL WORK URBAN DESIGN

Planning Layers

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Taizhou Bay Cyclic Economic Industrial Area

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PROFESSIONAL WORK URBAN DESIGN

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Taizhou Bay Cyclic Economic Industrial Area

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Zhengzhou Jinrong Center Concepture Plan Time: 2017 Location: Zhengzhou Area: 50.9 ha GFA: 1,714,886m2 Scope: Urban Design, Conceptual Architecture Design Responsibility: Urban Designer, Architecture Consultant Supervisor: Paul Rice Participation: Urban Design 90% Conceptual Architecture Design 80%

This project is designed to be a complex creative center in Zhengzhou, With the creative city as the core, we try to help clients to design an international creative platform linking the central city of zhengzhou with new area, forming a new urban landmark integrating fashion, vitality and culture, and build a compound modern city integrating office, hotel, entertainment, shopping, residence and leisure.

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PROFESSIONAL WORK URBAN DESIGN

The site is divided into seven core functional blocks, each has a creative recreation space arise out of the canal axis to form a 7-block city center throughout the green. Through the connected walk system, the site is interlinked by creative spaces, and will be commercial, business, entertainment, culture, convention and exhibition, research and development of composite functions such as integrating weaving, forming a continuous creative cities organic interface.

Current Road System

Planning Road System

Land Value Analysis

Function - Location Analysis

Retail, F&B SOHO Tower

Landscape Skywalk

HQ Office

Retail, F&B

Shopping Street City Plaza

Surface/Highway Transportation

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Plot 1 - Energy Center

Plot 2 - Commercial Center

Plot 5 - Recreation Center

Surface Transportation

S Tr

Surface/Underground Transportation

Zhengzhou Jinrong Center Conceptual Plan

The site is divided into 7 pieces by main roads. Also, the site is seperated from the City by the highway.

Plot 2 - Commercial Center

Form a link from the West metro to the SE gatem, in order to connect the 7 plots to one site.

Plot 3 - Design Academy

Connect our site with the A new public realm from city from perspectives of north to south. transportation, function and landscape. Create new public space to enhance site identity.

Plot 7 - Exhibition Center

Surface/Highway Transportation

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PROFESSIONAL WORK URBAN DESIGN

Planning System

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Traffic System

Open Space Connection

Basement Planning System

Landscape Planning & Reference

Commercial Circulation System

Function Map

Zhengzhou Jinrong Center Conceptual Plan

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Tonglian New City Core Urban Design Time: 2013 Location: Tongliang, Chongqing Type: Urban Design and Architectural Conceptual Design of City New Core Area Responsibility: Chief Designer Supervisor: Fanye Wang Participation: Urban Design 50% Architectural Conceptual Design 100%

According to the concept and design of the upper-level planning, the new business district is in contrast, expansion and supplement with the old city in terms of scale, style and business type. The scale of commercial development and the planning of urban infrastructure will match the predicted value of the Tongliang population in the next 20 years, and the development indicators will be in line with the national and Chongqing relevant regulations.

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PROFESSIONAL WORK URBAN DESIGN

Master Plan

Siganature Plaza Deisgn Guideline

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Cultural Art Plaza

Family/Kids Playground

•

Local Dragon Culture

•

Fun and Interesting Form

•

Organic Shape

•

Zoning for different activities

•

Specific for senior people to walk, relax and do exercises

•

•

Handicap Design

Different landscape furnatures, styles, colors, pavement and plantings for specific activities

•

Children’s safety

Tongliang New City Core Urban Design

The new business core extends the characteristics of the surrounding three districts from the land function, and the type of business is also concentrated on the characteristics of the surrounding customers. In the design of the street, it is basically kept in a simple atmosphere, appropriate and regular changes to enrich the space. In the traffic organization within the core of the business, it is recommended to give priority to walking, and to expand the sidewalks while compressing the roadway. Force the vehicle to travel in one direction and unify the road. Parking meets demand forecasts and combines an open space system to design an ecological parking lot. The planning and design of the underground space conforms to the development volume of the core area, and the underground flow line is reasonably preset and the corresponding import and export layout is given.

Planning System

NS-2

NS-6

NS-1

金龙大道

NS-4

NS-4

NS-7

≤60m

EW-4

NS-7

NS-2

E-2 E-6

E-4

≤40m

NS-4

≤100m NS-6

E-3

≤40m

NS-3

NS-1

NS-7

NS-6

NS-5 NS-5

NS-1

NS-2

NS-7 NS-7

D-6 D-5

D-4

≤60m

E-5

≤40m EW-6 0

100

25

50

100

NS-7

A-5

NS-6

A-4

B-3

B-4

F-7

300m米步行距离

50

D-6 D-5

300m米步行距离

NS-7

人 30 民医 0m 院 米 公 步 交 行 站 距 点 离

E-5

E-4

300m米步行距离

EW-4

EW-6

100

0

Vehicle Hierachy

NS-7

NS-1 25

D-4

中兴路

EW-6 0

100

F-9

E-2

NS-1

EW-6

300m米步行距离

NS-6

C-5

EW-3

D-3

EW-5

Architecture Setback

F-9

中兴路

300m米步行距离

C-4

E-3

50

NS-6 NS-6

F-6

F-8

E-6

25

金龙大道

NS-4

NS-4

NS-6

NS-1

NS-4 NS-3

F-5

C-3

EW-4

0

NS-7

NS-1

NS-5 NS-5

NS-2

NS-1

F-4

E-1

NS-6

NS-4 NS-3

NS-1

F-2

F-3

D-2

EW-4

E-5

EW-6

D-3

≤80m

Height Control

A-3

EW-3

D-1

NS-7

NS-2 EW-5

50

C-5

≤60m

EW-2

B-2

C-2

E-2

E-4

NS-2

NS-7

NS-7

D-6 D-5

金龙大道

NS-4

NS-4

D-4

中兴路

EW-4

E-3

F-9

F-1

A-2

NS-2

NS-2

NS-6

C-1

NS-1

D-3

25

F-7

≤100m

Cˊ

C-5

EW-3

EW-3

D-2

≤60m

F-6

C-4

EW-6

EW-6

B-1

NS-5

C

E-1

NS-2

NS-7

NS-6

金龙大道

F-7

≤120m

EW-3

D-2

≤40m

NS-6

C-4

A-5

≤60m

B-4

EW-1

A-1

B-4

F-8

EW-5

0

Aˊ

A-4

≤60m

B-3

F-5

≤200m

≤60m

≤40%

EW-6

A

F-4

C-3

EW-3

D-1

≤100m

Land Density

Bˊ

≤150m

EW-4

E-5

A-3

≤80m

NS-5

F-6

F-8

≤50%

F-2

B-2

≤60m

EW-4

NS-4

F-5

C-3

D-6 D-5

≤60%

NS-5

B

C-1

≤60m

≤55%

NS-4

F-4

D-4

≤60%

F-1

EW-2

E-1

NS-4

F-3

F-9

EW-2

B-3

≤55%

100

NS-3

F-2

B-2

C-2

≤55%

EW-6

NS-1

NS-5

NS-2

A-5

C-2

E-2

E-4

E-3

≤55%

A-2

≤80m

F-3

C-5

E-6

EW-2

B-1

≤60m

F-7

EW-1

A-4

NS-7

A-3

NS-6

F-1

A-2

EW-2

D-1

≤55%

≤3.0

50

≤55%

中兴路

EW-5

25

≤65%

EW-3

D-3

≤60%

E-1

0

B-1

≤65%

F-8

EW-4

100

B-3

B-4

C-4

≤65%

≤50%

≤60m

EW-2

F-6

F-5

C-3

D-2

D-1

≤65%

EW-1

A-1

F-4

≤3.0

E-5

F-2

EW-3

≤3.0

EW-4

FAR

EW-1

C-1

D-6

A-5

≤50%

金龙大道

50

NS-5

NS-6

E-4

≤3.0 EW-6

25

Land Use

NS-1

E-3

≤3.0 EW-6 0

D-5

≤3.0

A-4

≤50%

NS-2

EW-6

NS-5

NS-1 NS-1

NS-6

NS-4

商娱混合用地

B-2

≤65%

NS-2

商娱混合用地

NS-3

商娱混合用地

D-4

≤3.0

E-6 EW-5

酒店用地 （混合≤30%公寓）

E-5

F-9

EW-1

A-1

A-3

≤60% EW-2

≤50%

≤65%

C-1

≤55%

E-2

≤3.0

NS-7

NS-2

E-6

E-4

NS-2

E-1

E-2

E-3

≤3.5

中兴路

F-1

≤60%

B-1

C-2

EW-3

D-3

≤3.5

≤3.0 EW-4

交通设施用地

EW-5 NS-1

EW-3

D-2

D-1

≤4.5

EW-4

A-2

≤50%

F-3

F-7

C-5

NS-6

E-1

D-6

商务办公用地

≤5.0

NS-4

D-5

商务办公用地

F-8

NS-4

D-4

商娱混合用地

中兴路

≤3.5

F-6

EW-1

EW-1

A-1

B-4

B-3

C-4

≤6.0

NS-3

广场用地

A-5

≤3.0

EW-2

≤5.0 F-5

NS-4

NS-6

≤2.5

F-2

C-3

≤3.0

C-1

金龙大道

F-9

NS-4

NS-4

商娱混合用地

EW-4

商娱混合用地

NS-2

NS-6

商务办公用地

EW-1

A-4

≤2.5

EW-2

F-4

C-2

C-5

EW-3 D-3

商娱混合用地

≤3.0

≤5.5

≤3.0 F-3

F-7

C-4

商办混合用地 （混合≤50%办公）

F-8

A-3

F-1

B-2

B-1

商务办公用地

F-6

广场用地

EW-3 D-2

D-1

商务办公用地

A-2

≤3.0

NS-2

NS-2

NS-5

商办混合用地 （混合≤50%办公） F-5

F-4

C-3

商办混合用地 （混合≤50%办公）

商娱混合用地

B-4

NS-1

商住混合 （混合≤30%商业）

EW-1

A-1

≤2.5

EW-2

B-3

F-2

商办混合用地 （混合≤50%办公）

F-3

C-2

商务办公用地

NS-1

B-2

商住混合 （混合≤30%商业）

C-1

A-5

商住混合 （混合≤30%商业）

EW-2

NS-7

B-1

EW-1

A-4

商住混合 （混合≤30%商业）

NS-5

NS-1

NS-2

A-3

F-1

NS-7

EW-1

A-2

商住混合 （混合≤30%商业） EW-2

NS-7

EW-1 A-1

商住混合 （混合≤30%商业）

25

50

100

Underground Parking Entrance/Exit

0

25

50

100

Public Transportation Coverage

Business Plaza

Grand Entrance Plaza

•

Modern geometrical style

•

Graphically Symetric

•

•

Ritual space with the use of tree array and broad water surface

•

Variety of small spaces providing informal communication spaces Combining some fast F&B sevices.

•

Broad and direct walking path

•

Balance of shading and openness

•

Grand Open Plaza for big events

90

PROFESSIONAL WORK URBAN DESIGN

Street Scape Design Guideline

EW-1

EW-1

F-1

A-3

A-4

EW-2

EW-2

F-2

B-2

B-3

F-3

F-4

F-5

F-6

C-3

F-8

C-4

B-4

F-7

NS-2

NS-5

B-1

C-5 NS-6

C-2 NS-1

C-1

A-5

NS-5

NS-2

NS-1

A-2

NS-6

A-1

EW-3

D-3

F-9

D-6

D-4

D-5

中兴路

EW-4

EW-4

E-2

NS-2

E-5

NS-1

NS-4

EW-5

NS-3

E-3

NS-6

E-1

金龙大道

D-2

NS-4

D-1

NS-4

EW-3

E-4

EW-6

EW-6 0

Relax&Communication, Play&Fun, Lunch Break, Flexible Acctivity

Green space on both sides

A

B

Colonnated Space on both sides

Promotion&Sale, Outdoor F&B, Communication

C

商业休闲活动

办公

办公

办公

商业

办公

办公

办公

商业

零售/商业

办公

办公

商业

零售/商业

零售/商业

商业

零售/商业

停车

停车

灰空间

91

街头绿地/口袋公园

步行道

车行道

步行道

街头休憩空间

≥30M

6.75M

10.5M

3.75M

12M

商业空间

Relax Walking, Window Shopping

零售/商业

停车

商业空间

商业休闲

商业休闲

商业休闲

中央景观步行街

商业休闲

商业零售空间 HOTDOG

停车

Solid Front on both sides

100

ENJOY HERE

口袋公园

50

办公

办公

商业

25

双层步行道

车行道

步行道

街头休憩空间

9.75M

10.5M

3.75M

12M

商业空间

商业休闲

停车

停车

商业空间

休闲步道

中央景观步行街

休闲步道

5M

30M

5M

商业空间

Tongliang New City Core Urban Design

92

PROFESSIONAL WORK URBAN DESIGN

Location Zoning

Architecture & Open Space Followed the main axis, the space opens at the portals of four directions. Through the retreat of the tower position, the podiums combine the landscape square to form landmark urban open spaces. Specially, the open space of the southern entrance should be highlighted, so that the entire center area can get the content to be displayed.

93

Tongliang New City Core Urban Design

Skyline Strategy The height of the tower gradually rises from the periphery to the middle area, and the central area gathers into a ring shape. The general trend of the towers spirals upward.

View Strategy Highlighting the central area by ensuring the visibility of the central area, and maximizing viewing of the central area, especially from the four anchor open spaces. With the sight line angle varying from 15 degrees to 45 degrees, it is guaranteed that 3 to 4 central towers can be viewed simultaneously in the portal area to ensure the overall and complete image of the central area.

94

95

Living Community on Mars Time: 2018 Location: the Mars Area: 3.6 ha GFA: 115,000m2 EVOLO 2018 Skyscraper Competition Prize: Editor's Choice Individual Project

In this era, the population explosion, terrorism, energy crisis, environmental pollution and nuclear weapon are like a huge cloud hanging over us. Faced with these threats, we are exerting our effort to ease conflicts while we still need expand our living space. Fortunately, the great progress of technology in various fields is bringing about new possibilities. People had left footprint on the moon fifty years ago. Recently, people begin to focus on landing on the Mars, even constructing colony such like Elon Musk’s SpaceX plan, if so, this will be a big step for human beings.

96

OWN WORK

“The Stars, My Destination” - Alfred Bester

97

Living Community On Mars

About MARS

1 Year = 687 days

1/10 Air Pressure

1 Day = 24 hours

95% Carbon Dioxide

39 mins 25 secs 1,000,000 + Highest: +70o Lowest: -100o

Cubic Miles of Water Gravity = 0.38 * Earth

Apart from space technology, before we land on the mars, we need figure out a series of ways to support human living on such extreme environment including getting water, producing oxygen, acquiring energy and so on. Though it is difficult to tell precisely how much, there is definitely water on mars, mostly in the form of ice. From the image of ESA’s Mars Express spacecraft, show a patch of water ice sitting on the floor of an unnamed crater. Besides, NASA’s Mars Reconnaissance Orbiter found 8-meter (26-foot)-diameter meteorite impact crater with water ice in it. Craters gouged into the ruddy Martian terrain have revealed subsurface water ice closer to the red planet’s equator than would be expected.

This project try to discuss a way to build a big space which provides people first colony to the red planet a big community, build a life-support system to meet their daily life. In this case, I select a typical impact crater as the site, assuming there would be enough subsurface ice water even flow water to support the Mars Base. Besides, the crater rim uplifted structurally by impact, which could protect the site from being damage by storm.

Image from ESA’s Mars Express spacecraft

98

OWN WORK

Planning Strategy Since the atmosphere on Mars is very thin and contains very little oxygen, we need enclosed internal space to produce and deliver similar air environment, meanwhile allowing the nature light enters. In order to create a huge space, there is a need for a huge structure and life supply system formulated by interconnected domes, different functional spaces for food storage, energy and water, and even on-site agricultural planting.

Planning System

Water

Air

Food

Energy

Groundwater Collection

Air Inlet/ Oxygen deliver

Agricultural Planting

Energy Supply Center

Sewage Purifications

Air outlet

Food Processing

Nuclear Power

Flammable Gas Collection

Food Storage

Solar Power Wind Power

Functional Rings

99

Forum

Amenity

Residential

Forum

Office

Commercial

R&D

Production

Residential

Education

manufacture

Amenity/manufacture

Hospital

Planting

Planting

Retail

Storage

Energy/Power Plant

Information

Power

Residential Tower Community Space

Living Community On Mars

The overall structure concept is inspired by the classic pendentive and cross arch structure. In case that the Mars has smaller gravity, design the highrise buildings as the columns to constitute a hexagon-grid structure to support the light-weight steel structure dome, by which insulate the site from the outside environment. Pendentive

Crossvault

Frame system

100

OWN WORK

Forum Obervation Station/FBR Pad/ Transfer Station/Air Inlet Residential Tower Air Outlet ETFE Lossless Sunshine/ Resilient/ Light Weight

ETFE Holder Surface Road System

Main Frame

Forum Multi Functional Tower Residential Tower Air Towers

FBR Pad Lift Platform/Ordinary Maintanance/ Transfer Station The Community Urban Public Space The Suburb Storage/ Planting/ Manufacture

Out Ring Metetor Crater Redefination/ Transportation Terrace Planting/Agriculture/ Underground Warehouse Central Plaza Public Space/ Functional Pocket Space Factory Onsite Manufacture/ Transportation Hub

101

Living Community On Mars

102

103

Underground

Water Supply

Stock Amenity

Residential

Service Apartment/ Service/Commercial

Controlling Center/Office

Air Management

Data Forum

Open Air

OWN WORK

Living Community On Mars

Windmill/Solar Power Bank Signal Tower

Air Inlet Air Exhaust

Domestic Waste

Air Inlet

Water Tank

Air Purification

Air Filter Information Forum

Air Channel Oxygen Producer/Mixer Air Storage

O2 Delivery

CO Transporting

Fresh Air Pipe

Domestic Water Supply

Fresh Air Heating System Fresh Air Internet Connection Fresh Air

Fresh Air Domestic Electricity Fresh Air Grey Water Collecting

Grey Water Management

Planting/Agriculture

Factory Waste Management

Water Storage Memory Pool Super Battery Power Generator Groundwater Exploitation

Vertical Supply System The highrise buildings have equipments for air intake, through purification system and oxygen producing then deliver air into the inner space.

104

OWN WORK

105

Living Community On Mars

106

107

The Art Gallary Sponsored by Beijing Shanghan Psychology Foundation Time: 2017 Location: Beijing, China Area: 1 ha GFA: 5,000m2 Responsibility: Conceptual Architecture Design Individual Project

Iceberg is regarded as a metaphor of human mind togography. Freud described conscious mind which we are aware could be seen as the tip of the iceberg, which is only 10 percent of the iceberg. While, the other 90 percent beneath the water is preconscious and unconscious. The design tries to use the narrative space to encourge visitors to think about the conscious topic. As humanbeing, though locked in an intangible cage, we somehow try to explore selfawareness from the initial observation deepen down to our own hearts. It is a journey to think about who we truly are.

108

OWN WORK

Iceberg

Box

109

Reverse

Open Roof

Expand

The Art Gallary

Metal + Glazing + Acoustic Material

Titanium

The design is to create a three-layer exhibiting space: The core space is shaped like an iceberg, which is a monolithic theater. It is also regarded as the spiritual sculpture of the entire gallery, around which people revolve and feel the mega art work. According to the functional requirements, the mid and outer layers are designated into two ring areas divided by curtain walls in order to meet various exhibiting needs.

Office

Exhibition

Public/Grand Entry

Structure

Glass

Mirror

Facade Study of The Core

110

OWN WORK

Meeting Room

Roof Garden

Exhibition Room (Natural Light Space)

Exhibition Room (Manual Light Space)

Iceberg Cover

111

The Art Gallary

Office/Study Room

Library Research Centre

Vertical Communication Space

Theatre

Iceberg Sculpture

Elevator

Grand Exhibition Hall

112

113

THE BUILDING of ART & ARCHITECTURE DEPARTMENT in Hefei University of Technology Facade Design of Shudu Wanda Plaza Time: 2010 Location: Hefei Type: Education Architecture Responsibility: Designer Supervisor: Yongfa, Wu Participation: Research: 80% Schematic Design: 40% Design Development 70%

The new school design aims to be a representative work of incorporating the building tradition and history. Thus a modern expression could be tracked back to those historical elements: the courtyard space versus central open space with a contrast shape. a big entrance versus the traditional portal, and the well-arranged window cubes versus horse head wall. Especially, in the center of courtyard, there is a communicating space with translucent wall and roof, in which users could view it as a small landmark and use it as a meeting point. The flexible space under the glazing roof implys the water pond in the centre of traditional courtyard that connecting to different functions on lower ground level.

114

ACADEMIC WORK

Concept - Traditional Hui Zhou Architecture

Courtyard

Roof/Portal

Horse Head Wall

The layout of typical courtyard can be extracted to apply to a new cube.

Taking four side inclining roofs as a basic unit, reforming by splitting, cutting and scaling.

Reforming a rhythmical elevation to express the traditional image of the wall.

Horse Head Wall A traditional wall style in Huizhou Architecture. It is used to prevent fire from spreading originally and gradually formulate an iconic local style.

Roof Four side roofs incline downwardly to the inner court, usually accompanying with a water pond in the centre, to collect rain water.

Portal Layers of decorations are used on the fascia to emphasize the formality of the entrance.

Courtyard Inner court provides the communication space, and organizes other functional rooms.

Courtyard

Roof

Horse Head Wall/ Portal

115

Model and Photo are from Historical Building Measuremet Class Group Work, 2009

The Building of Art & Architecture Department of HUT

116

ACADEMIC WORK

Function Distribution Function Distribution Green Building Exchange Center Hui Architecture Exchange Center Professional Exchange Room Student Exchange Room Art Exchange Room Virtual Animation Production Image and Graphics Production Computer Center College Reading-room

Communication/ Communication/

1F

Exchnge Exchnge

Assisting Assisting Functions Functions

College Library Hui Architecture Experimental Center Building Model Laboratory Building Workshop

7F

7F

Laboratory Laboratory

Materials And Construction Laboratory Building Physics Laboratory Multi-Function Hall

6F

6F

Classroom Postgraduate Classroom Art Classroom Multimedia Classroom

5F

5F

Art Design Workshop

Worshops

Worshops

Urban Planning Workshop

4F

4F

Architecture Design Workshop Administration Office Residential Industrialization Research Center

3F

3F

Green building Research Center

2F

Research Office Architecture Research Office

2F

2F

Landscape Research Office Urban Planning Research Office Design Studio Technique Research Office

1F B1F

1F

B1F

History Research office Art Research Office Teaching And Research Office Hui style Architecture Research Center Meeting Room

Offices &

Offices &

Professor Studios

Professor Studios

College Meeting Room College Office Dean's Office Teacher Art Exhibition Center Student Art Exhibition center Ancient Architecture Display Art Work Display Student Work Exhibition Model Exhibition Artwork Stockroom Senarios Exhibition Sculpture Exhibition

117

Exhibition/

Exhibition/ Collection Collection

The Building of Art & Architecture Department of HUT

1F

2F

16

7

15

4

14

7

9

13

7

7

7

7

7

7

7

8

7

12 2

2

A

A' 11

1

11

10

1

8 2 9 6

3

4

7

6

7

4

3

5

3

5

1. Main Lobby

Architecture

13. Void Above Sculpture

1. Library of Architecture

6. Media Art Exhibition

2. Void

7. Antique Collection

Studio

2. Print Room

7. Classroom

3. Void Above Architectural Model

8. Equipment Stock

14. Student's Work Exhibition

3. Media Art Exhibition

8. Pantry

& Sculpture Lab

9. Sunken Water Pond

15. Security Office

4. Media room

9. Multi-Media Classroom

4. Small Lobby

10. Lighting Lounge

16. Void Above Architecture

5. Meeting Room

5. Art work exhibition room

11. Courtyard

Physics Lab

6. Model Exhibition of Ancient

12. Void Above Sculpture Hall

Entry Garden

Horse Head Wall

Courtyard

Portal

7F

7F

6F

6F

5F

5F

4F

4F

3F

3F

2F

2F

1F

1F

-1F

-1F

Section A - A'

1

6

118

ACADEMIC WORK

Function Analysis

Space Analysis

Ass

Clas

Prof Wor

Vert Com

Com

Res

Stud

Exh

Des

119

The wit trad rep

The Building of Art & Architecture Department of HUT

Assisting Functions

2F: Library Print Room

3F: Computer Center IT Room

Classrooms 7F: Painiting Classrooms

2-4F: Design Workshops

Professional

Multimedia Classroom

Workshops

Pantry Roof Garden

Vertical Communication

Communicating Space 2F: Communication Zone

4F: Free Rest/Communication Zone

Research & Office 3F: Offices/ Meeting Room

5F: Professional Research Center

4F: Research Offices

Studio 2F: Studios 1F: Lobby

1F: Model Exhibition

Exhibtion Space

Courtyard Design Labs

B1F: Exhibition Space Design Labs

120

ACADEMIC WORK

121

The Building of Art & Architecture Department of HUT

122

123

THE 1# BUILDING RENOVATION in Hefei University of Technology Time: 2011 Location: Hefei Type: Campus Planning Study, Landscape Architectural Renovation Master Graduation Thesis Supervisor: Yongfa, Wu Participation: 100%

This is a research-by-design project. Although the scale is not big, this old building was the first dormitory in the campus, hence for staffs and students, there are lots of memories and emotions in it. A wide range of field research was conducted from general campus context to users' experience anaylsis. A large number of interviews and questionnaires covering students, staffs and alumni were adopted.

124

Graduate School Canteen/Retail Residential

Office Dormitory Residential Residential

Dormitory

ACADEMIC WORK NE Teaching Building Middle School

Forum

Campus Analysis Primary Road This building closely related to students and teachers daily life, By statistically analyze data from interviews and questionnaire,

This building closely related to students and teachers daily life, By statistically analyze data from interviews and questionnaire, Circulation Secondary Road infering the of mode of people’s activity the site. infering the mode people’s activity aroundaround the site. Tertiary Road

s Weekday kday

s Weekend kend eekday

GraduateGraduate School School Canteen/Retail Canteen/Retail Residential Residential

Swimming Pool Swimming Pool Office Office Dormitory Dormitory

90% Forum Forum 70% Sport Court Sport Court 50%

Primary Road Primary Road Secondary Road Secondary Road Tertiary Road Tertiary Road

NW Teaching 30% NW Teaching Building Building 10%

Circulation Circulation

Community Community Garden Garden NE Garden NE Garden

Function

Hubing Lake

Community Garden

Community Garden

NE Garden

Residential Residential Residential Residential

Dormitory Dormitory

NE Teaching NE Teaching Building Building

Library

Sport Court NW Teaching Building

Middle School Middle School Library Library

Welcome Plaza

Lab Garden

Centre Park

NW Garden

Function Function Recognation

Open Space

Hubing Lake Hubing Lake Community Community Garden Garden

green

46%

refit

38%

cons.

16%

HABITANT "i have been living in this building for over 10 years, but we'll move out recently since we rent a better apartment nearby where

Plaza WelcomeWelcome Plaza

Lab Garden Lab Garden

we70% have private bathrooms and kitchens." 50%

Centre Park Centre Park

NW Garden NW Garden

90%

90% 70% 50% 30% 10%

30%

Mr. 10% Zhang

Recognation Recognation

Open Space Open Space

79%

green

WEEKEND

PASSING BY

WEEKDAY

"The road is quite winding. Is it possible to straighten it up? hah ... We would like to have more trees/

95%

refit

5%

refit

56%

cons.

25%

green

19%

green

89%

refit

11%

NEIGHBOR

- Ma

green

KEND

refit

3% 18%

shades/green in campus."

"I live in Dom A north to No.1 Building. We really want this builidng to be renovated into an open space as it is too blocking and providing too much shade." - Xing

RETAILER "I'm running a small business here, dont look down this small window, it is very convenient for students" - Mrs. Huang

ALUMINI "I graduated in 1997. The 1# Building was the oldest dormitory in campus built in 50s, which we call the Red Building. So many memories there and the red bulding building watched the campus growing all these years." - Mr. Liu

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Lab Garden

Welcome Plaza 90% 70% 50% 30% 10%

NW Garden The 1# Building Renovation of HUT

Centre Park

Recognation

Open Space

Through surveying and investigating of this old building, we synthesize the data to Through surveying and investigating of this old building, we synthesize the data to tease out several memory patterns

about it, extracting element from old site, which can it, arouse people’s memory and people’s emotion for this building. for tease out severalthe memory patterns about which can arouse memory Accordingly, we figured out six approaches trying to establish a new space form in ways that people can trace the

thishistorical building. Accordingly, we figured out six approaches trying to establish a new footprint of campus. space form in ways that people can trace the historical footprint of campus. Approach

Circulation

Sight Line

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ACADEMIC WORK

Possible Interactions with 1# Building This building closely related to students and teachers daily life, By statistically analyze data from interviews and questionnaire, infering the mode of people’s activity around the site. Students Weekday Students Weekend Staff Weekday

WEEKEND

WEEKDAY 127

The 1# Building Renovation of HUT

Issue: Filtrate out the mos Issue: Filtrate out the most important elements to be conserved important elements to be conserved. Strategy: 1. corridors and vertica Strategy: 1. The corridors and The vertical of the building communication ofcommunication the building

records people's records people's interaction, which interaction, which valuable are valuable to beare kept; 2. Alongto be kept; 2. Along with the communication space with the communication space,

lobby, hally way are the part gate, lobby, hally gate, way are the parts be renovated to be renovated intopublic landscapein public landscape design language. design language.

Issue: After survey, demolishment is demolishment i Issue: After survey, more voted, while,more the building has voted, while, the building ha long history and carry of carry memories o long memories history and the campus to certain extent. the campus to certain extent. Strategy:1.Partially demolish and Strategy:1.Partially demolish and partially rebuild with original partially rebuild with origina materials; 2. The new layout should materials; 2. The new layout should herit historical building grammers; herit historical building grammers;

Issue: school A lot of important schoo Issue: A lot of important functions are located aroundare thelocated 1# functions around the 1# building. People pass the building building. People pass the building frequently, however, it blocks the frequently, however, it blocks the main passages and provides few main passages and provides few functions. functions. Strategy: 1. The road infront 1. ofThe the road infront of the Strategy: 1# building could 1# be upgraded to building could be upgraded to the secondary level that works the secondary level that work better for the overall circulation; better for the 2. overall circulation; 2 More specific easyMore functions should specific easy functions should be injected to provide services to be injected to provide services to people living here or passing by. people living here or passing by.

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SEAS O GARD N EN PTUR

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SCUL

The old Walls left their footprints, while provide small pockets greenland for barious outdoor activities, like fleamarket in weekends.

SEASO GARDEN N

Some of the old walls are partially remodeled into public benchens, which are highlighted with green bushes.

Bike Parking Plots are mainted and renewed with clear boundaries, as it is a popular function for students.

Broadened path which was the entrance in 1# building now bridges the two domitories.

Connecting back to existed paths Linking NE Teaching Building and Canteen Smoothly.

Dense trees and native plants are introduce to this small plot, providing shading gardens and create a pleasnt seasonal green view.

ACADEMIC WORK

T

FLEA M ARKE

E/AR T MUSI

Renovate the old walls by palying bricks in different ways. Allowing the sunlight getting through the walls brings new life to the space. The shadows reminds people the building left its footprint in a gentel and friendly way.

Old staircases are revised to walking paths,

The 1# Building Renovation of HUT

FLEA M ARKE T FLEA M ARKET

IC PA RK

POP PARK

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Drawing Science/ Drawing Fiction: The Future of California Ecololgy

Time: 2018-2019 Location: California Type: Sci-Fi inspired Architectural Design Individual Master Graduation Project Supervisor: Nicholas de Monchaux 2045, as reported, some weird Joshua trees appeared in the desert area even outside “The Oasis”. Although the government tried to block this news, abundant photos and articles in social media were spreading out panic among people. While the gossip went wild, large-scale protests were organized both in San Francisco and Los Angeles, demanding that the government immediately to stop the experiment and to control proliferation. At the same time, the peripheral monitoring system of “The Oasis” detected an abnormal signal from the abandoned laboratory. After deciphering, this group of signals was identified as actually distress signal. A scientific research team composed of experts from a wide spectrum of professions enter “the oasis” again…

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ACADEMIC WORK

Conceptual Collage, MacGuffin and Model

As California becomes increasingly digital and inter-connected, the concept of intelligent connection has been extended to a much wider range, The entire society has been greatly improved by IOE which has successfully passed its infant stage, billions of objects have been equipped by sensors to detect measure and assess their status. Even when you pull out grass, you can see the grain-size chip that connects the whole ecosystem. However, California faces a series of technical challenges such as reliable connectivity, continued power supply as well as faster and more powerful information processing systems, which in turn require more land and space. Limited rural areas are permitted to construct quantum-based information processing systems with energy supply stations in a much bigger scale. Such systems need stable energy to produce a giant magnetic field in which every single electron in their own state-machine will being resonated by neighbouring electron. Besides, an efficient cooling system within each machine could provide extremely low temperature, which is beneficial for stability of quantum states.

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Drawing Science / Drawing Fiction

Conceptual Hand Sketch

The whole system should be arranged as a spatial matrix, radiating the surrounding regions. In this era, space is no longer purely human-centralized, but, trying to define or follow the relationship between man and machine, constructions are hugely complex and dynamic processes. In order to achieve greater flexibility and variability, information transmission systems, energy infrastructure, transportation networks and hyperloop occupying different layers, pass through the ecological corridors where a huge number of bio-chips have been installed beneath the biological soil crust, by which nanorobots monitor the entire ecosystem and analyze data collected by sensors.

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ACADEMIC WORK

“BRING THE FARIES BACK TO THE FOREST.” WOOD WIDE WEB is a symbiotic system between trees and mycorrhizal, trees provide photosynthesis energy for fungi, while fungi build a web to help trees absorb nutrients, this is a literally neural network by which trees are able to transmit information among each other. So, in this plan, scientists use nano-robots to transform mycelial cells into bio-chips. using chemical elements as signal to stimulate the cells, Thus, this natural network is similar to a giant computer or a giant brain, human even can be part of them if they like. This plan also has a slogan: “Bring the fairies back to the forest.”

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Drawing Science / Drawing Fiction

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ACADEMIC WORK

General Structure In a 200 hectares semi-closed land, 50 specialties and researcher work in the circle field includes Research & Lab Center, support system and Experiment Field.The Oasis is an across scale system, laboratory technologically provide facilities and equipments for candidates to research and work here.The support system provided necessary life-supply system like food and water meanwhile maintain the operation of the oasis. Mechanic Grid facilities in the experiment field providing the supports to help plants grow: channels transmitting the microfluidics containing genetically engineered fungi from lab to soil crust; data cable connecting to every plant as well as tubes Controlling nutrient distribution in ways that each tree in the field shares one support system.

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Drawing Science / Drawing Fiction

Model Photo

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ACADEMIC WORK

By editing DNA of Plants, aparting from enhanced immune system, Scientists Manage them to computationally grow and to generate new biological functionality including data processing, data storage, energy self-support and interaction. Thus, The Joshua tree roots are expected to grow strong structural patterns both vertically and horizontally to hold the soil crust and to provide the basic underground network. At the core area of the root, there is a chamber contains liquids, which is the center processing unit directly connecting to the mechanical grid by cable. Firstly, Gene editing enhance the computational capability of plant’s cells, greatly improve the efficiency and effectiveness of their chemical information transmission. The leaves grow transparent light-sensitive pores as a sensor that monitor and capture the environment information. At the junction of branch and trunk, the tree grows voice system and auditory system consisting of a series vocal cord and membrane. Secondly, in order to prevent the seeds from escaping the fields and maintaining the fixed quantity, there is only one tree has flower and bear fruit. The small stems in the branch can produce holographic scene which can be interaction as interface since the sensor can response the subtle change of light, creating a highly interactive responsive environments based on plants Thirdly, Genetically Engineered Fungi will be distributed in to the soil crust where they will be growing micro scale neuron structural pattern along with the root hair maintain their structural integrity. The fungi web presented an ordered form than nature.

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Drawing Science / Drawing Fiction

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ACADEMIC WORK

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ACADEMIC WORK

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Drawing Science / Drawing Fiction

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ACADEMIC WORK

2F Office Conference & Meeting Resource & Reading Observation Room Environmental monitoring Laboratory Media Lab

1F Enterance

LG1

Office

Main DNA Computing Machine

Consultant

Genome-editing Lab

Gallery

Storage

Lecture & Multi-Media

Biological sterilization

Cafeteria

Pure Water Storage

Computer Experience

Instrument Storage

Emergency Medical Service

Test& Analysis Room Sewage Treatment Life Support System ME Room Refuge chamber Evacuation Tunnel Protection Units IT Office Computer Rooms Isolation Corridor

GF lsolation&Connection Layer Air Filtration& Pressure System Emergency Medical Service

LG2 Main DNA Computing Machine Genome-editing Lab Storage Biological sterilization Pure Water Storage Instrument Storage Test& Analysis Room Sewage Treatment Life Support System ME Room Refuge chamber Evacuation Tunnel Protection Units Isolation Corridor

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ACADEMIC WORK

2040, after 5 years of operation, Surprisingly, researcher found the tree units performed much more powerful computing capability even than they expected, besides, each Joshua tree trunk can store almost thousand times more data than the equivalent scale of traditional computer storage hardware, at the same time, a large amount of data is Continuous access to the laboratory for analysis and simulation. 2041, the oasis began to be used for military to decipher the information, thus the military took over the oasis. 2042, excessive growth of plant roots caused by negligent management suppressed the living space of newborn seedlings, the manager had to remove some plants, and strengthen the monitoring. The problem has been alleviated to some extent. 2043, an unknown new virus invaded the oasis almost causing the system to be paralyzed, plants either began to grow uncontrollably or died away. The California government launched a crisis emergency: first of all, cutting off the connectivity between laboratory and test field, secondly, evacuating the staff while some of employees were prosecuted for spying, thirdly, saving the large amount of valuable data stored in plants. Since it was difficult to transfer those data quickly, the California government try to maintain the oasis’s operation in ways that they choose to continue to supply the water and nutrients. Meanwhile, a temporary laboratory was built outside the field to kill the virus program and repair the entire system with a slow progress. 2045, as reported, some weird Joshua trees appeared in the desert area outside “the oasis”. Although the government try to block this news, abundant photos and articles in social media were spreading out panic among people. At the same time, the peripheral monitoring system detected an abnormal signal from the abandoned laboratory. After deciphering, this group of signals was identified as actually distress signal. Professionals were forced to enter “the oasis” again. They saw some Joshua trees bloomed flowers bearing dandelion-shape seeds. What’s more, there was a huge root body emerge from the center of abandoned laboratory. 149

Drawing Science / Drawing Fiction

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ACADEMIC WORK

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VR Berkeley Map Bioengineering

Time: 2019 Location: California Type: VR Development with Bioengineering Supervisor: Luisa Caldas Team Member: Casey Alexander, Melissa Sandoval

This VR Project includes doing a 360 video of the lab itself, so that people can visit the space in VR. The second is representing some aspects of the research in 3D to allow people to navigate molecular structures in VR. In particular, using VR to represent some aspects of the CRISPP-Cas9 DNA-targeting technology.

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VIRTUAL REALITY

DNA Ocean Nanotube Forrest The first scene is a nanotube forest with a huge number of nanotubes. You find tree sphere like bubbles floating over your head. The first is lab tour 360 video, second is interview video, the third is experimental journey. You can use trigger to point them then enter either of them. The third bubble “ experimental journey “ will lead you into another scene.

After you successfully get into the cell nucleus, you will find there are some DNA structure floating in there. Firstly, follow the hint to approach the short sequence of DNA (PAM), according the gRNA to find correct sequence. Secondly, manipulate the CAS9 to unzip the DNA then use trigger to match the RNA to the target DNA. If it’s complete, thirdly, use the CAS9 molucular scissors to cut the DNA.

Cell Gallaxy In this scene, you can see some giant cells like planet dotted in galaxy. Also , there are some protein object and one nanotube in front of you Use controller grab the protein, DNA sequence and nanotube then use trigger combine them together Get onto the nanotube space shuttle, Use controller move the nanotube toward the nearest cell.

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VR Berkeley Map- Bioengineering

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VIRTUAL REALITY

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