Portfolio Fei Tao 2017 by Fei Tao

FEI TAO 111 E CHALMERS ST APT 16 CHAMPAIGN, IL, 61820 217-4179129 feitao1992@gmail.com

CAREER OBJECTIVE Seeking a summer internship associated with landscape architecture to utilize design sense, analytical and problem solving skills and communication skills for professional practice.

EDUCATION University of Illinois at Urbana - Champaign Master of Landscape Architecture (LAAB Accredited Program) GPA: 3.84/4.0 Southeast University, Nanjing, China Bachelor of Landscape Architecture GPA: 3.54/4.0

Expected 12/2017 08/2010-06/2015

RESEARCH EXPERIENCE Southeast University Graduation Thesis Program Program Leader, Research of Space Density in Built Environment Establish a research system of space density in built environment Completed surveying, mapping, modeling, quantitative and qualitative analysis of site Completed a garden renovation in research site

Nanjing, China 03/2015-06/2015

WORK EXPERIENCE Landscape Design Department, Architecture&Engineers Co., ltd of Southeast University Intern Landscape Design of Nanjing Jiezi Garden (modeled, made design renderings) Landscape Design of Red Cross Remains Memorial Forest (modeled, made renderings) Bridge Design of Nanjing Dabao'en Temple (designed, completed construction drawings)

Nanjing, China 07/2014-09/2014

Institute of Urban Planning and Design, Nanjing University Intern Landscape design of Siyang Community (modeled, made design renderings) Planning of â&#x20AC;&#x153;Lanxi River-Yinquehu Waterfront Districtâ&#x20AC;? (modeled, drew master plan) Participated in bidding processing of An Cultural Park

Nanjing, China 07/2013

HONORS Third Place, International Landscape Architecture Graduate Student Design Competition First Place, International Landscape Architecture Graduate Student Thesis Competition Honor Award, Level G1, Sasaki Day Awards Competition, University of Illinois at Urbana-Champaign

SKILLS Proficient in Sketchup, AutoCAD, Lumion, Rhinoceros, ArcGIS, Adobe Creative Suite, Microsoft Office Link to Online Portfolio: https://issuu.com/feitao6/docs/portfolio_fei_tao_2017

05/2014 05/2015 05/2016

CONTENT 01 QUARRY METROPOLIS

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Designing the Operational Landscape Date: 10/2016 - 12/2016 2nd Year of Master Program Tutor: Prof. Conor O'Shea Group Work

02 N.E.S.T. (NEW ENERGY SOURCE TREE)

------------------------------------------------------------------------------------------------------------------------------------------------------ 13

On Purpose - the Future Campus of University of Illinois at Urbana-Champaign Date: 3/2016 - 5/2016 1st Year of Master Program Tutor: Danika Cooper Group Work

03 DANVILLE RIVERFRONT PARK PLAN

----------------------------------------------------------------------------------------------------------------------------------------------------------- 23

Amplifying Natural Processes in Danville Riverfront Park Date: 9/2015 - 11/2015

1st Year of Master Program

Tutor: Prof. Amita Sinha Group Work

04 Hotsprings. Alligators. Ziqing Lake

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Applications of ArcGIS in Tourist Resort Planning Date: 2/2014 - 5/2014 4th Year Tutor: Prof. Yuning Cheng, Dr. Zhe Li Group Work

05 The Image of Nanjing

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Presenting City Images and Citizen Behaviors in Modern Plaza Date: 11/2012 - 1/2013 3rd Year Tutor: Dr. Jun Tang Individual Work

06 OTHER WORKS

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Models, Lighting Design, Works during Charrette 2016 Date: 9/2012 - 12/2016

QUARRY METROPOLIS [Regional Planning] Group Work

10/2016-12/2016

Location: Joliet city, Will county, Illinois

Drawn by Yiqi Deng, Suke Yao, and Fei Tao

2nd Year of MLA

Designing the

Operational Landscape

01 01

JOLIET-"CITY OF STONE" (1830-1900)

The glory and dream, the decline and despair, the quarry industry brought hopes and miseries to Joliet. From the mid 18th century, Joliet stones were extracted, manufactured and nationally transported for constructions. The Illinois & Michigan Canal, the Illinois state prison in Joliet and the Water Tower in Chicago were all constructed by Joliet stones. This resource laid out the foundation for the once prosperity of Joliet and also earned it the name â&#x20AC;&#x153;city of stoneâ&#x20AC;?. This regional map presents quarries are almost concentrated to the canal edges, taking advantage of the water transportation. The rest of the city was developed from this economic cord. 02

Drawn by Suke Yao, Data Provided by Fei Tao

EXISTING QUARRIES TOPOLOGY

However, the â&#x20AC;&#x153;byproductâ&#x20AC;? of urbanization is the rise of population, wastes, environmental problems, and decaying of old industry. The quarry industry reshaped the surface of the earth and left terrifying scattered pits on the land and it resulted in environmental contamination as well. Meanwhile, new economic like logistics emergent within the phase or globalization. Under such circumstances, it is essential to reconsider the quarry industry. Drawn by Yiqi Deng

REGIONAL PLAN OF QUARRY METROPOLIS

Drawn by Fei Tao, Proposed and Calculated by Fei Tao, Suke Yao, and Yiqi Deng

PROPOSED URBANISM PHASE I: 30 YEARS

• 7 New City Units Centering 30-Year Quarry • 1 New Logistics Park

Population: 680,000

PHASE II: 60 YEARS

• 6 City Units Expands • 1 Additional New Logistics Park • 1 New 100-Year Quarry Near Logistics Park

Population: 1,400,000

PHASE III: 100 YEARS

1,850,000

• 4 city units expands • 1 new 100-year quarry near the logistics park in phase II

Population: 1,850,000

Drawn by Fei Tao, Proposed and Calculated by Fei Tao, Suke Yao, and Yiqi Deng

1,400,000

2,050,000

PROTOTYPE

QUARRY + BUFFER ZONE + LAND USE

BUFFER ZONE

TIMELINE

Drawn by Fei Tao and Kaichao Wang, Modeled by Fei Tao and Suke Yao

METABOLIC MAP

URBANIZATION

QUARRY 08

CONTAMINATION

DESIGN STRATEGIES

Drawn by Kaichao Wang and Suke Yao, Designed by Kaichao Wang, Suke Yao, Fei Tao and Yiqi Deng

30-YEAR QUARRY

DETAILED PLAN I

DETAILED PLAN II

SITE PLAN

720

Master Plan Drawn by Fei Tao, Detialed Plan Drawned by Suke Yao, Designed by Fei Tao, Suke Yao and Yiqi Deng

1440

2880 ft

Based on local drainage texture, we define a new 30-year quarry and its surrounding city. The center quarry is initially serving as a central park, and later becoms a traffic hub after 30 years. The impacts of quarry industry, like the vibration, are utilized to make special interactive landscape for the public. 09

30-YEAR QUARRY PERSPECTIVE SECTION

Drawn by Yiqi Deng, Designed by Fei Tao, Suke Yao and Yiqi Deng

100-YEAR QUARRY

DETAILED PLAN

SITE PLAN Drawn by Kaichao Wang, Designed by Fei Tao, Suke Yao, Yiqi Deng and Kaichao Wang

2000

4000

8000 ft

The new 100-year quarry will supply the urbanization of the whole surrounding area as well as a logistic park. In order to take the opportunity of quarry mining to activate this whole place, we add more connectivity and the sense of community for this area, and integrate a green corridor to provide living area for bison and other species. The buffer zone surrounding the quarry is to absorb dust, noise and vibrance. In between the green buffer zone and the natural preserve, an artificial wetland is established to purify the waste water of the quarry. Between the manhattan town and 30 years quarry city, a regional market center will be made to supply agriculture product and serve as a community center. 11

100-YEAR QUARRY PERSPECTIVE SECTION

Drawn by Kaichao Wang, Designed by Fei Tao, Suke Yao, Yiqi Deng and Kaichao Wang

N.E.S.T. (NEW SOURCE ENERGY TREE) [Landscape Planning] 3/2016-5/2016 1st Year of MLA On PurposeGroup Work Location: University of Illinois at Urbana- Champaign

the

Rendered by Shunyao Hu, Modeled by Fei Tao, Designed by Fei Tao, Shunyao Hu and Jaewon Wang

Furture campus of UIUC

02 13

PRESENT ALTERNATIVE ENERGY

The rapid development of technology brings convenience, as well as the requirement of a huge amount of energy, which requires an incredible amount of fossil fuel usage, leads to an inevitable damage to the environment. Therefore, our group decided to develop a new alternative energy source that would decrease usage of fossil fuels and also a structure that would harmonize with the future faรงade of the University of Illinois at Urbana-Champaign. The two present alternative energy sources, solar, and the wind, have limited energy production capacity. They are not only inefficient but also take up a lot of space. 14

Drawn by Jaewon Wang, Modeled by Shunyao Hu, Data Calculated by Fei Tao, Designed by Fei Tao, Shunyao Hu and Jaewon Wang

FUTURE ALTERNATIVE ENERGY

The future timeframe that we are looking at is about 10 to 20 years later from now. We are assuming that this product would be applicable for the future campus. So we are calling this the energy tree, which is a structure that combined solar panels and wind turbine and a function that has been added is that it collects storm water. This energy tree would have an 80% efficiency for the system, which produces about 831.47kWh a day. Drawn by Jaewon Wang, Modeled by Shunyao Hu, Data Calculated by Fei Tao, Designed by Fei Tao, Shunyao Hu and Jaewon Wang

SUN AND WIND ANALYSIS MONTHLY SUN ANALYSIS

BUFFER ZONE

MONTHLY WIND ANALYSIS

Wind Speed 16

Building Drawn by Fei Tao and Shunyao Hu

SUN AND WIND ANALYSIS

SUN STUDY OF PREDOMINANT PATTERN OVER 1 YEAR Drawn by Fei Tao and Shunyao Hu

WIND STUDY OF PREDOMINANT PATTERN OVER 1 YEAR 17

SUN AND WIND ANALYSIS

IDEA LOCATION FOR SOLAR ENERGY HARNESSING

IDEA LOCATION FOR WIND ENERGY HARNESSING

We selected the 15th day of each month and three moments of each day which are 9 AM, 12 PM and 3 PM to analyze the sunshine. Then we used the same method to analyze the wind. Based on the predominate sun and wind pattern over one year, we marked the ideal locations for solar energy and wind energy harnessing. By overlapping the two types of ideal locations, we got the ideal locations for both solar and wind energy harnessing.

IDEA LOCATION FOR BOTH SOLAR AND WIND ENERGY HARNESSING 18

Drawn by Fei Tao and Shunyao Hu

SITE ANALYSIS

GREEN AREA IN FRONT OF KRANNERT ART MUSEUM • Area: approx. 22,242 ft² • Ground Cover: Green Spaces • Feature: - In the East-west axes of the campus - People come here for special events - There will be a new design center

MONTHLY SUN ANALYSIS OF ENERGY TREES

Drawn by Fei Tao and Shunyao Hu

PLAN 20

Drawn by Fei Tao

Surrounding streets and paths are extended to increase connection and accessibility. Space is divided into platforms, green areas, and gallery areas. Gallery walls are inserted to provide outside gallery space.

The landscape elements are defined by shadow pattern of energy trees. Blue pavements are used to represent water channels and reflect underground water collection system. Inside the blue cube in the middle of the site, there will be water collection and filter system. This cube can also be used as the bench for people to sit as well.

SECTION

SECTION 1-1

Drawn by Fei Tao and Shunyao Hu, Modeled by Fei Tao, Rendered by Jaewon Wang

SECTION 2-2

SECTION 3-3

For the purpose of producing the largest amount of energy, 46 energy trees would be put in every suitable place on the site based on cells uniting as 40 ft by 40 ft. These trees can produce about 40,000kWh energy per day. For water use, water system would be made underground to prevent evaporation. This water network will connect to the water supply line of campus. These energy trees can collect up to 972 ft3 water for a month. 22

Rendered by Jaewon Wang, Modeled and Deisnged by Fei Tao

DANVILLE RIVERFRONT PARK PLAN [Landscape Planning] 9/2015-11/2015 1st Year of MLA Amplifying Natural Processes Group Work Size: 106.3 acres Location: 398 Relker Ct, Danville, Illinois

Rendered by Fei Tao

in Danville

Riverfront Park

03 23

VERMILION RIVER FLOOD TIMELINE HIGHEST RECORDED GAGE HEIGHT OF EACH YEAR

FLOOD ZONE

CURRENT DYNAMIC WATERSCAPE

Erosion and Deposition Eages The Danville Riverfront Park is designed as a catalyst to revive downtown. Its main feature is a dynamic waterscape. This landscape contains a flood plain, which will be covered by water annually during the flood season. Instead of excavating channels to create constructed wetlands, changes in topography cause the riverine ecology to develop spontaneously. Mounds and depressions alternate and are planted with vegetation to create habitats. Three glass pavilions are designed on the northern bank for vistas to the river. The wooden deck system enables people to experience this natural attraction of river during non-flood periods. Boardwalks are designed to bring people to the wetlands and the river. This design of the riverfront park will be ecologically sustainable and will be a place for recreational activities. 24

Erosion Eage Deposition Eage

Current Condition

Dam removed

Drawn by Fei Tao and Junyi Gu

PLAN OF DANVILLE RIVERFRONT PARK

DYNAMIC WATERSCAPE

Phase I current condition

Phase II water height: 4ft

Phase III water height: 6ft

Phase IV water height: 12ft

Entry Plaza The design opens the north field along the Main Street and extends city streets into the park.

Glass Pavilions Three glass pavilions are designed on the northern bank for vistas to the river.

Phase V water height: 18ft

Waterfront Platforms Four waterfront platforms are designed to provide places for people to stay along the river.

Boardwalks Four waterfront platforms are designed to provide places for people to stay along the river.

Wetlands System Four waterfront platforms are designed to provide places for people to stay along the river.

Master Plan Drawn by Fei Tao, Diagram Drawn by Junyi Gu and Fei Tao

Phase VI water height: 30ft 25

SECTION

ENTRY SPACE

guide the eyesight to the river through the glass pavilion

EXTENDING SPACE glass pavilion for sightseeing

INTERLACED SPACE deal with the altitude difference

SECTION 1-1

OPENS SPACE

guide the eyesight to the river

MODERATE SPACE guide the eyesight to the river

OPEN SPACE walk over water

ENCLOSED SPACE walk in the depression

SECTION 2-2

Drawn by Fei Tao, Designed by Fei Tao and Junyi Gu

HOTSPRINGS. ALLIGATORS. ZIQING LAKE [Landscape Planning] 2/2014-5/2014 4th Year Application of ArcGIS Group Work Size: 218 acres Location: No. 8, Tangshan North Road, Jiangning District, Nanjing

Temperature

Microclimate

Humidity

Vegetation

Light Condition

Hydrology

Tourist Resort Planning Location

Background Analysis

Biotope

Traffic Format

Soil

Ventilation

Regulations on the Management of Landscape and Famous Sceneries...

Slope Aspect Elevation Viewing Range

Surface Roughness Vegetation Corverage

Space

Site Analysis

Project Position

Laws and Regulations

Regular

Behavior

Region

I III I II III

Ecological Protection Architectural Adaptivity

Construction Forbidden Zone

Target Location Revenues

Function Analysis

Certain Derivation

Tourists Market

Market Analysis

Common Occasoional

Preliminary Plan

Intervisibility Space Density

ANALIZING & POSITIONING Earthwork

Context

Landform Levels

Ecological Sensity

Enviornmental Impact Analysis

Water System Service Facilities

COUPLING Plan Elements

Facilities

Buffer Zone

Plants

Functional Facilities Protection

Roads

Improvement

Renovation

Construction Zone

Planning Program

EVALUATING & GENERATING Vertical Planning

...

Lanscape Management

Landform Treatment

Planting Design

ROAD III

ROAD II

ROAD I

Base Section

Business District

Nature Landscape Area

Villa Area

Crocodile Area

Special Hot Spring Area

Main Hot Spring Area

Main Entrance Area

Drawn by Fei Tao, Framework Produced by Fei Tao, Han Yu, Jiayu Li and Jinsong Cai

Landscape Structure

Space Oder

Traffic Planning

Space Constitution

Partition Planning

COUPLING & PLANNING

METHODOLOGY

The site is located at east suburb of Nanjing City and is to required to be planned as a tourist resort integrating ecological protection, propagation, and tourism functions. Researches and designs are intended to link the application of coupling method by using ArcGIS software and to the evaluation of landscape and ecoenvironment. 27

PROJECT POSITION

BACKGROUND ANALYSIS Background Analysis Tangshan is among the places of health-preserving hot spring with the longest history in China and is praised as “a paradise for health preservation”. According to the preliminary plans, the target is to build Tangshan into a nationally renowned tourist resort featured with hot spring and to improve the tourist area extending from Tangshan Mountain and Qinglongshan Mountain.Projects of camping and extreme sports are designed to be developed by utilizing the advantage of beautiful scenery decorated with mountains, hills, and waters.

Jiangsu Province

Tourists Market Analysis of Tangshan Tourists' Occupations

Tourists are from various jobs, mainly composed of students.

Tourists' Origins

Most tourists come from Nanjing or other big cities around (e.g. Shanghai), and many are from other cities in Jiangsu Province.

Tourists' Purposes

Site tourist projects are mainly aimed at students, whose consuming capacity is quite limited, and consider the need of other groups of tourists as well. Relaxation and entertainment are the core of site tourist projects in which tourists enjoy strong freedom. One-day tour and two-day tour are the main tourist modes. According to the prediction of General Plan for Newly-Developed District of Tangshan of Nanjing City , 2030 will witness an annual tourist flow of 20 million, an annual revenue of ¥39,900 million, and a per capita consumption of ¥1,700. With the consideration of location, transportation, and market condition, site tourist projects in Tangshan are predicted to embrace an estimate of 800,000 tourists in 2030. According to investigation, Tangshan Hot Spring enjoys a good reputation and a vast market with a continuous stream of tourists who would like to visit this spring twice or more and stay there for one or two days. Turnover mainly comes from hot spring, catering, and lodging. Open-air spa is one of the most popular hot spring service. Based on Maslow’s hierarchy of need theory and relevant survey, hot spring service is classified according to basic need for amusement, physical health, and mental pursuit, respectively referring to the common, sub-healthy people, and high-spending crowd. There are indoor and outdoor hot springs, some of which are offered with catering and massage with the purpose to improve their function of health preservation.

Nanjing City

Jiangning District

Site

Demand Analysis of Hot Spring Touring Frequency

Staying Time

Tourists' Concerns

Turnover

Tourists' Favourite Projects • Most tourists have travelled to Tangshan more than twice. • Most tourists stay in Tangshan for one or two days. • Most tourists focus on the enviornment, the reputation and the convenience. • Turnover mainly comes from hot spring, catering, and lodging. • Open-air spa is the most popular project.

Tourists visit Tangshan mainly for sightseeing and entertainment.

Tourists' Modes

Most tourists are self-service travelers.

Drawn by Fei Tao

SITE ANALYSIS

BIOTOPE ANALYSIS Animal Resources Analysis

Soil Analysis

Low

Soil Depth

High

Soil Moisture

Plant Resources Analysis

Current Soil Condition • The layer of soil in the site is thin because the stratum is hard and has slightly weathered. The layer of soil on the mountaintop and mountainside is thinner than the layer on the foot of the mountain. • The most part of soil in the site is damp and available for planting.

Currently, vegetation in Tangshan Mountain demonstrates a trend of succession, in which evergreen coniferous plants, such as Pinus massonianas, have started to be replaced by deciduous tall trees of fagaceae. Southern Tangshan Mountain is mainly covered by evergreen and deciduous broad-leaved forests while Northern Tangshan Mountain is mainly covered by evergreen coniferous forest and deciduous broad-leaved forest. This plan is designed to be consistent with natural evolution and to create a natural landscape characterized by marked cycles of seasons.

Hydrology Analysis

80m

90m

95m

100m

Plant Sensity Analysis According to some documents, the plants are devided into three categories, which account for different propotions when it comes to ecological sensity.

80m flood area 90m flood area 95m flood area

Orchard,Nursery,Bamboo Aquatic plants,wasteland

• Calculation Formula of Water Storage: RW=P-Ke×E0 RI=CI×P

Grasslands,pampasgrass

• The average annual rainfall in Nanjing is 1100mm. • The annual evaporation is 900mm. • The surface runoff coefficient is 0.5. • After culculating, the water storage in the site is 200000m3.

Plant Sensity Levels

Drawn by Fei Tao, Han Yu, Jiayu Li and Jinsong Cai

High

Intermediate

Low

SITE ANALYSIS SPACE ANALYSIS Slope

Aspect

0-8(%): 100

15-25(%): 35

8-15(%): 65

south: 100

southeast,northwest: 80

west,northeast: 40 north,east,southwest: 10 Propotion and Evaluation

25-48(%): 0 Propotion and Evaluation

According to the documents, the slope is divided into four levels, which are 0-8(%), 8-15(%), 15-25(%), 25-48(%). Relative extractions and evaluations are executed in order to quantize the impact of slope factor.

According to the documents, the aspect is divided into four levels, which are south, southeast and northwest, west and northeast, north, east and southwest. Relative extractions and evaluations are executed in order to quantize the impact of slope factor.

Elevation

Space Density I II III IV

66-81: 100

96-111: 35

81-96: 65

111-126: 0 Propotion and Evaluation

III

â&#x20AC;˘ Space density is an important indicator to evaluate the dimensional atmosphere and the spatial quality. It can help people to define the proper site of the projects.

Surface Roughness According to the documents, the slope is divided into four levels, which are 66-81, 81-96, 96-111, 111-126. Relative extractions and evaluations are executed in order to quantize the impact of slope factor.

Vegetation Corverage

According to the documents and relative research, space density can be attained by superposing the vegetation coverage on the surface roughness and then extract out the four parts based on the color.

Drawn by Han Yu, Fei Tao, Jiayu Li and Jinsong Cai

ENVIORNMENTAL IMPACT ANALYSIS ECOLOGICAL SENSITY

The Judgment Matrix of Criterion Layer to Goal Layer(Ecological Sensity) and the Experiment of Single Ranking and Consistensy Ecological Sensity Soil Plant Water Slope

Soil

Plant

Water

Slope

Multiplication

Root of n

Weight

Awi

Awi/wi

1 1/3 1/4 1/4

3 1 1/4 1/3

4 4 1 3

4 3 1/3 1

48 4 0.020833 0.25

2.632148 1.414214 0.379918 0.707107 5.133386

0.512751 0.275493 0.074009 0.137747

2.186254 4.194973 4.283059 4.209126

4.263775 4.194973 4.283059 4.209126 4.237733

0.7924

0.89

0.890337

Matrix Setting Soil

Weight Calculation Plant

Plant

Ecological Sensity

Slope

Water

Criterion Layer

Weight index of all the impact factors of ecological sensitivity are tested for consistensy with the application of matrix. Excel is employed for scoring as well as evaluation, and calculates numerical value of weighting applied to constructional adaptability superposition afterwards, with which final constructional classification can be made. In this scoring and evaluation of ecological sensitivity, every factor is scored with weighting on the basis of adjustment according to soil, vegetation, waters, and land forms. Then, the result of weighting can be calculated out.

Water

Slope Goal Layer

Result Verification

Soil

Classification

Superposing & Extracting

Extraction absolute no-construction no-construction restricted construction appropriate construction

Soil

Slope

absolute no-construction

no-construction

restricted construction

appropriate construction

Picture on the left is based on evaluation factors of ecological sensitivity that have been superposed in conformity with their weight and are then extracted out to form the final classification. Chart on the right refers to absolute no-construction zone, noconstruction zone, restricted construction zone, and appropriate construction zone. In no-construction zone, artificial facilities are allowed to be constructed in a small number; in restricted and appropriate construction zone, artificial facilities can be constructed in a proper way.

Drawn by Han Yu, Fei Tao, Jiayu Li and Jinsong Cai

Water

ENVIORNMENTAL IMPACT ANALYSIS ARCHITECTUAL ADAPTIVITY

The Judgment Matrix of Criterion Layer to Goal Layer(Architectual Adaptive) and the Experiment of Single Ranking and Consistensy Architectual Adaptive Slope Aspect Light Ventilation

Slope

Aspect

Light

Ventilation

Multiplication

Root of n

Weight

Awi

Awi/wi

1 1/5 1/3 1/5

5 1 3 1/5

3 1/3 1 1/3

5 3 3 1

75 0.2 3 0.022222

2.942831 0.66874 1.316074 0.386097 5.313743

0.553815 0.125851 0.247674 0.07266

2.800978 0.815953 1.484646 0.356798

5.057605 6.483481 5.994364 4.910499 5.611488

0.537163

0.89

0.603553

Matrix Setting Slope

Architectural Adaptivity

Aspect

Weight Calculation Sunlight

Architectual Adaptivity Aspect I

Sunlight Ventilation

Goal Layer

Result Verification

Criterion Layer

Ventilation Slope II

Superposing and Extracting In the area of the restricted construction zone and the approriate construction zone, architectual adaptive is evaluated into three levels and this will guide the positioning in the following steps.

III

Slope

Ecological Protection I

Aspect

Sunlight

Ventilation

In the area of the no-construction zone, ecological protection is evaluated into three levels and this will guide the positioning in the following steps.

Drawn by Han Yu, Fei Tao, Jiayu Li and Jinsong Cai

III

PLAN ELEMENTS AND COUPLING

COUPLING---Eco Hotel (As a case to explain specifically) Project Number

Project Name

Project Orientation

Eco Hotel

Wellness Hotel

Project Orientation

Target Group

Wellness Hotel

People with high consumption ability.

Project Name Hotel

0-5

Aspect

SE,S,SW

>80

Profitability

Provide better accommodation service to prolong visitors' tour

People with high consumption ability

Area: 40-50m2 Number of Beds:150-200

Requirements

Other Fucntions Kitchen, Restuarant, Hall, Gym...>5000m2

Ventilation

II.Project Positioning by GIS Distance to ES AA Road Water <25

<100

II,III

Construction Area:10000m2 Height:8m Floors:2-3

Superposing and Extraction

Slope:0-5

Provide good view of scenery and landscape

Room Size

45000 People/Year

Elevation

Target Group

View Requirements

Construction Standards

Slope

Operation Method

Target Population

Functions of Hotels

Provide better accommodation service to prolong visitors' tour

Operation Pattern

Lodging Catering Well-being

Construction Standards

Function

Project Number

Market Research

I.Project Generation Function

Building Area:10000m2 Site Area:4000-5000m2 Room Area: 40-50m2 Number of Beds:150-200 Other Functions:>5000m2

Requirements Landscape Good View

Project Positioning by GIS

Location

Else

Convenient Transportation

Possible Location

Aspect:SE,S,SW

Drawn by Han Yu, Fei Tao, Jiayu Li and Jinsong Cai

Elevation:>80

Distance to Water:<100

Architectural Adaptivity:II,III

PLAN ELEMENTS AND COUPLING

Thresholds for Projects

Distance to

Project Number

Project Name

1,2

Main Entrance

0-5

<25

Visiters' Center

0-5

SE,S,SW

4,5

Parking Area

0-5

6,7

Crocodil -arium

0-5

Crocodile Farm

9,10

Crocodile Viewing Plaza

0-10

Wetlands

12,13

Spa Club

14,15

Slope

Aspect Elevation Ventilation

Road

Water

Requirements

Else

Construction

Landscape

Location

I,II

Area:4000m2 Height:8m Floors:2

Good View,Open

Convenient Transportation

II,III

Area:10000m2

Good View,Open

Convenient Transportation

4000/Day

I,II

Area:20000m2

Good View

Convenient Transportation

10 Buses 800 Cars

<25

<50

I,II

Area:10000m2 Height:8m Floors:2

Close to the crocodile farm

Area:40000m2

<50

I,II

Area:3000m2

I,II

Good View

0-5

SE,S,SW

II,III

<25

<100

II,III

Good View,close to water

Convenient Transportation

Eco Hotel

0-5

SE,S,SW

>80

<25

<100

II,III

Area:4000m2 Height:8m Floors:2-3 Area:10000m2 Height:8m Floors:2-3

Good View

Convenient Transportation

Rock -scape

0-35

>90

Bare Rock

Tea Garden

5-25

>80

>50

<50

Tablelands

Mountain Bike Course

0-30

>50

Good View

19,20

Special Hot Spring

0-25

SE,S,E

II,II

>100

<50

I,II

Good View

Distant to the major area

group space

21-24

Villa Area

0-10

SE,S,SW

II,III

>25

<50

I,II

Good View,Private

Distant to the major area

6-10

Base Section

0-5

<100

II,III

Convenient Transportation

Area:1000m2 Height:4-5m Floors:1 Area:400m2 Height:5-6m Floors:1-2 Area:2000m2 Height:6m Floors:1-2

Suitable for crocodiles to live Close to the crocodile farm,Open

group space

Drawn by Han Yu, Fei Tao, Jiayu Li and Jinsong Cai

PLANNING PROGRAM

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1 19

3 4 5 6

7 8 9

1 2 4

11 5 24

10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25

Landscape Pattern Drawn by Han Yu, Fei Tao, Jiayu Li and Jinsong Cai

Function Partition

Road System

Main Entrance Grand Entrance Plaza Visitors' Center Parking Area Park-and-ride Place Dam Bridges Crocodilarium Crocodile Farm Trained Crocodile Acts Crocodile Viewing Plaza Wetlands Spa Club Waterfront Trails Eco Hotel Viewing Platform Rockscape Tea Garden Mountain Bike Course Characteristic Hot Spring Mountain Streams Sunbathing Area Fishing Area Villa Area Wooden Footway Base Section

Landscpae Nodes 35

Main Entrance

Crocodilarium

Spa Club

Rendered by Jiayu Li, Fei Tao, Han Yu and Jinsong Cai

THE IMAGE OF NANJING [Landscape Design] Individual Design

11/2012-1/2013

Size: 5.9 acres Location: Zhongyang Road, Gulou District, Nanjing, China

Rendered by Fei Tao

3rd Year

Presenting &

City Images

Citizen Behaviors in Modern Plaza

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IDEA GENERATION formation STEP 3 Sculpture

STEP 2 Platform

STEP 1 Network

STEP 3 Fuction

STEP 2 Alternate

flow organization

STEP 1 Disorder

Entrance

One main entrance is a waterscape with a special sculpture that can show the city spirit. The square is not only the traffic node in the city, but also the "name card" of Nanjing.

The Gulou Plaza is located at the intersection of main roads in downtown Nanjing It is a place to present the city image to the public, as well as to organize the traffic flows passing through this area. Thus, the texture of sycamore leaves, which is the city tree of Nanjing, is used as the guidance to the form of the plaza. Based on that, materials of the Nanjing Great Wall are used to depict the history this sixdynasty city. The Plaza is divided into several parts with specific functions and audience. These nodes of space are also connected to deal with the flows, letting people with different purposes to reach their destinations conveniently.

PLAN OF GULOU PLAZA B

Shortcut

The shortcut around the buildings fulfills the requirement of moving fast. It also emphasizes the form and topography by steps.

Water Zone

This area has an interlaced water system. This water system divides the space into some private areas with special sceneries, which can meet the demand of rest.

Dawn by Fei Tao

PROGRAMMING Private place>>>Office workers Private place>>>Residents, Office workers Open space>>>Visitors, Old people, Residents Shortcut>>>Passerby Underpass>>>Passerby, Children, Residents, Visitors Private place>>>Visitors, Old people, Residents Private place>>>Children

A-A SECTION Shortcut

Rest Zone

Water Zone

Rest Zone

Entrance

Rest Zone

Shortcut

Entrance users

office worker old people children residents passerby visitors

B-B SECTION Shortcut

Entrance

Main Zone

Water Zone

Shortcut users

office worker old people children residents passerby visitors

Drawn by Fei Tao

STREET FURNITURE DESIGN: Red Lanterns Concept Generation

Light

Chair

Chair for Biker

Chair for Children

Indicator

Dawn by Fei Tao

OTHER WORKS

• FIGURING FUTURE NATURE • CHARRETTE 2016 • LIGHTING UP THE ZHONGDA BUILDING

Designed and Constructed by Fei Tao et al.

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Figuring Future Nature

HABITAT DIORAMA OF MAGNETO SPIDER (JAN 20-23 2017)

DIORAMA OF PLUM BLOSSOM Hill, NANJING (JAN 25-30 2017)

DIORAMA OF A GIVEN ANIMAL IN ONE COLOR (FEB 1-6 2017)

Made by Fei Tao

CHARRETTE 2016: IMAGINING THE ILLINOIS CAMPUS: 2017-2067 (March 13-15 2016)

PROPOSED MATTHEW CANAL IN SPRING

PROPOSED MATTHEW CANAL IN WINTER

Drawn by Fei Tao

LIGHTING UP THE ZHONGDA BUILDING (MAY 5-10 2014)

Materials: disposable bowls, ink, water, steel-frame, borad, pebbles, parchment paper, scarlet, lamp, torch

Project description:

This design aims at the MEMORY. We would like to present our smiling faces on the road we daily walk by and in front of the academic building we have lessons by using the light. The theme of this project is to light up the academic building of the school of architecture. We use some disposable bowls with the mixture of ink and water to pile up as a mound or arrange in a square. The light of the bowls on the bottom is cool light, while the light of the photo box on the top is warm light. This comparison enables the photos to be the foucs and attract people to concentrate on the content and understand our design concept.

Designed and Constructed by Fei Tao et al.

Fei Tao https://www.linkedin.com/in/fei-tao-b9212b10a