Wu Tong Portfolio for UCL UD by Wu Tong

SENSE & SENSIBILITY TONG WU MArch, Bartlett, UCL Urban Design SELECTED WORKS 2018-2021

Table of Contents

01 REBIRTH OF THE HOSPITAL —Hospital Renovation Design

—Hospital transformation to improve the environment for patients to see the doctor

02 MANGROVE'S ANTHROPOCENE —Ecological Restoration Design To our discipline

—Wetland landscape in response to mangrove extinction in Guangzhou, China

Starting with strong interest Ending with respect and love

03 THE MOMENT —Interactive Device Design

—Interactive device in Xintiandi, Shanghai, China

04 ANTI·WAR PLAZA —Monumental Landscape Design

—The commemorative landscape of the Sino-Japanese War in Nanjing, China

05 METROPOLITAN PACEMAKER —Parametric Design

—The Urban Regeneration of Milano Porta Romana Rail Yard

06 BROWNFIELD REGENERATION —Ecological Restoration Design

—Parametric terrain combined with monumental landscape in Chongqing, China

07 OTHER WORK

01 Rebirth of the hospital Location: Shanghai, China Time: 2020.6-2021.7 Type: Academic, Individual Work Scale: 4Ha Instructor: Zhiguo Dong Email:0174@usts.edu.cn

Hospital, as a place to help people solve health problems, is a very important part of public facilities and an important part of people's daily life. At the beginning of 2020, a new crown pneumonia epidemic that swept the world affected everyone's lives, and the importance of hospitals in the health service system became even more prominent. But when we walked in the corridors of the hospital, most of the people walked in a hurry and looked sad. Illness and pain certainly bring sorrow and sorrow to people, but in a place where the main function of "healing" is in the hospital, under the premise that patients have already suffered pain, they should avoid causing more troubles, but should help people. Bring comfort and hope. Therefore, in this project, I carried out a renovation design for a hospital located in Shanghai, China. Aiming at the problems of the hospital’s pedestrian flow lines, unclear functions, and poor medical environment, a centralized + decentralized form was adopted, and the functions were reasonably arranged on the site. And the floor slab is made into a folded-plate roof garden, creating a hospital roof terrace garden where patients, medical staff, and citizens can freely pass and relax. These platforms connect the indoor and outdoor buildings as well as the original three wards at the same time. Get up and create a more comfortable medical environment.

The city's main road cuts the area within 1.5 km of the base, which I have divided into five main residential areas based on the separation of the roads, and the population, population density, average daily Number of people seeking medical treatment and age distribution of the residents were counted, as shown in the figure.

SITE ANALYSIS

Population

Population Density Number of People Seeking Medical Age Distribution Treatment

Distribution of Bus Stations

Distribution of Banks/ATMs

Distribution of Supermarkets

Numbers of Bus Stations from Different Directions

Numbers of Banks/ATMs from Different Directions

Numbers of Supermarkets from Different Directions

Sunday

611

325

223

1263

1320

1531

1488

1341

1644

1431

951

513

Saturday

423

315

261

992

1211

1522

1413

1265

1622

1561

1245

813

Friday

331

215

1414

1553

1545

1150

1249

1612

1511

1063

615

Thursday

256

196

149

1489

1598

1281

1546

1238

1441

1244

785

421

Wednesday

211

201

132

1151

1515

1344

1551

1232

1219

1341

811

513

Tuesday

282

221

151

1512

1601

1281

1435

1165

1345

1544

885

464

Monday

315

210

148

1621

1456

1394

1185

1288

1549

1641

915

544

Sunday

491

248

124

1048

1248

1415

1322

1211

1184

1151

984

483

Saturday

295

225

156

851

1154

1323

1207

1022

1220

1285

1084

522

Friday

320

211

1230

1444

1243

1420

1054

1385

1311

975

315

Thursday

213

149

101

1232

1156

1120

1041

985

996

1156

652

410

Wednesday

198

175

105

1056

1182

1151

1212

1084

978

1094

851

384

Tuesday

212

194

121

1235

1311

1223

1151

1230

1113

1211

799

344

Monday

211

182

123

1535

1544

1364

1041

1151

1252

1315

813

311

Sunday

484

245

1241

1646

1313

1443

1216

1556

1631

1216

665

Saturday

531

213

125

1315

1522

1561

1484

1386

1684

1551

1184

715

Friday

332

184

151

1651

1432

1316

1365

1256

1811

1653

1122

746

Thursday

315

232

221

1811

1585

1456

1584

1255

1651

1500

884

574

Wednesday

244

289

215

1651

1550

1510

1551

1325

1561

1446

921

660

Tuesday

288

256

184

1584

1594

1311

1488

1212

1389

1601

945

556

Monday

384

289

154

1684

1544

1449

1284

1316

1612

1689

984

594

0: 00 -0 2: 00 02 :0 004 :0 0 04 :0 006 :0 0 06 :0 008 :0 0 08 :0 010 :0 0 10 :0 012 :0 0 12 :0 014 :0 0 14 :0 016 :0 0 16 :0 018 :0 0 18 :0 020 :0 0 20 :0 022 :0 0 22 :0 024 :0 0

Zhongshan North 2nd Road

Quyang Road

Zhongshan North 1st Road

Traffic statistics for a week on the three main roads adjacent to the site are shown in the figure. Data is recorded every two hours.

MAPPING

The illustration on the right demonstrates the distribution of building plot ratios and the architecture classification within 1.5 kilometres of the site.

Distance to The Site

Plot Ratio

Architecture Classification

Residential Buildings

NP a NP NP

&RPPHUFLDO %XLOGLQJV (GXFDWLRQDO %XLOGLQJV

a a a !

2WKHU %XLOGLQJV

Space Syntax Analysis

Collage Integration Analysis The integration of the road represents the accessibility of the road. The analysis shows that the site is well accessible for both pedestrain and vehicular modes of travel.

Choice Analysis

The integration of the road represents the accessibility of the road. The analysis shows that the site is well accessible for both pedestrain and vehicular modes of travel.

Road Density Analysis The analysis shows a moderate density of roads around the base, with areas of higher road density occurring at a slightly more distant range from the base. According to the space syntax snalysis the accessibility and circulation around the site are both quite good and the road density is not high, which means that jams are likely to occur during traffic peak periods.

Problem

The current situation of large and small roads around Yueyang Hospital is complicated, with many intersections, lack of space planning, resulting in extremely complicated medical procedures and extremely poor medical environment.

Research Through the study of traditional hospital typology, I have extracted the classic shape of the "E".

FUNCTIONAL PARTITION TCM department Otolaryngology department Obstetrics and Gynecology Pediatrics Plot Ratio: 1.9 Height of ward building: 80.5m Type: Low

Pediatrics/Emergency/Ward Plot Ratio: 3.8 Height of ward building: 34m Type: Middle

Medical technology street Plot Ratio: 1.7 Height of ward building: 4m Type: Low

Parking Lot Plot Ratio: 1.5 Height of ward building: 4m Type: Low

Inpatient Department Operating Department Infectious Diseases Department Internal medicine Department Plot Ratio: 4.5 Height of ward building: 80.5m Type: Middle

Surgical Building Plot Ratio: 4.5 Height of ward building: 80.5m Type: High

INSTRUCTION R——Roof W——Wall F——Floorboard S——Structure G——Ground Number behind the word:number of layers For example,“S1”represents the structure of the first floor.

Diagram

Chaotic pedestrian flow Dismantlement Confusing flow lead to Three original ward poor medical experience. buildings were preserved.

Master Plan Landscape plan, including roof garden and the bridge which connect the building floor and square.

Available site New blocks The base was split into two Flow line problems have separate parts . not been well improved.

Ground Floor Plan On the first floor, the various departments are arranged around the medical technology main street in an orderly manner, so that patients can see a doctor in the first floor building in an orderly manner.

Linear pedestrian flow Raising the ward building to connect the spaces.

Sunlight Blocks transferred horizontally to ensure adequate sunlight.

Second floor plan

On the second floor, the second floor of each necessary doublelayer department is arranged in an orderly manner, so that patients can arrive as soon as possible and seek medical treatment in an orderly manner.

Ventilation Blocks transferred longitudinally to enhance ventilation.

Roof garden Roof garden creates a more comfortable hospital environment.

Roof Garden This illustration demonstrates the roof garden and several of the building's critical landscape staircases

Parking Lot Section view The north-south section shows the relationship between the floors inside the building and the functional areas such as the underground parking lot.

This illustration shows the large stepped roof garden and its structure on the roof of the parking lot.

Ward Building This illustration shows the connection between the new building and the existing building and its structure

XXXXX

Aerial view

Human view This human view shows people walking and relaxing in that large terraced roof garden. This is a comfortable and pleasant scene for people, which was my original intention, and it is consistent with my long-standing design philosophy of "bringing comfort to people".

02 MANGROVE'S ANTHROPOCENE Location: Guangzhou, China Time: 2021.8-2021.9 Type: Academic, Group Work Scale: 57Ha Instructor: Minkai Sun Email: 2713@usts.edu.cn Tantou Village in Nansha District faces many long-term environmental challenges, including coastline retreat, wetland degradation and sea level rise. At the same time, human gray infrastructure blocks the reproduction and migration of mangroves, and the local native mangroves degrade rapidly. Shifting Beings proposed to connect sediment flow and deposition between land and sea, expand mangrove habitat and help mangrove migration, and create an iterative self-sustaining wetland system at Nansha Port . Community residents are connected with mangroves through forestry practice. Taking mangroves as the core of the design and paying attention to the rights and needs of mangroves has become the focus of this project. The mangrove habitat connected to Dahu Island in the estuary will serve as a brand new community of mangroves and provide assistance for the continuation of the development of mangroves. The ups and downs of the terrain also correspond to the growth needs of different types of mangroves, enabling the only remaining mangrove communities in Tantou Village to spread out and ultimately save the mangroves from extinction crisis.

The relationship between humans and non-humans

BACKGROUND: MANGROVES FACE THREATS

Human awareness 1.Human Developments

It is the time for us to face the reality and make a change. We should shift our way of thinking, and change our behavior, de-centralize and de-prioritize the human's position, re-establish frameworks and mindsets that position all living beings equally and in active interaction.

1990

62872 ㎡ A. Oversteen

Nansha District, Southeast of Guangzhou

Tantou Village, Nansha District

B. Build hard displacement

2. Mangrove continues to shrink

Along the Pearl River Estuary

Human development destroy 3600.13 ㎡ mangrove, 42.5% of wetland ecosystem

3. Low efficiency artificial recovery

Disappearing tide belt

Artificial planting area

2000

48256 ㎡

Complete isolated area

Hard displacement

Artificially planted mangrove area

4. Non-human awareness-20 Meters Blow & Above A 2019 B Area A——Natural mangrove forest completely isolated by seawall and landized Area B——Artificially planted mangrove forest after landfilling Area C——Half-red tree plant

C. Sea level rise-tide belt reduction

30333 ㎡

Mangrove growth process

Arrive at Shore Hang on Trees Develop Roots

Kandelia obovata Red Mangrove

Cariops tagal Squrred Mangrove

Avicennia marina

White Mangrove

Acanthus illcifolius

Hang on Trees

Holly Mangrove

Acrostichum aureurm

Holly Mangrove

Depart from Trees

Hang on Trees

Threaten Artificial dam restrict the development of mangroves

NECESSARY CONDITION FOR MANGROVE HEALTH COMMUNITY 2. Small terrain

1.Corridiary and wetland

3. Specific form

Target migration Direction

Water Flow Direction Raised Terrain

Sunken Terrain

Small Terrain Overlay

Overall Terrain Shaping

Social circulation

Social network

The relationship between water flow and terrain

MASTER PLAN Early srage of topography 2021Year

N 0M

125M

250M

MASTER PLAN

Final srage of topography 2071Year

N 0M

125M

250M

PLANT GROWTH ANTICIPATION

PLANT GROWTH SIMULATION

1 Year

10 Years Later

20 Years Later

30 Years Later

1 Year

10 Years Later

20 Years Later

30 Years Later

1 Year

10 Years Later

20 Years Later

30 Years Later

Type1 Type2 Type3 Type4 Type5

A-A SECTION PERSPECTIVE

03 THE MOMENT Location: Xintiandi, Shanghai, China Time: 2021.2-2021.5 Type: International Exhibition, Group Work Scale: 4Ha Instructor: Hongfei Ji Email:hji@looklandscape.com

As one of the 20 interesting art installations, "The Moment" interactive installation participated in the Design Shanghai, Xintiandi Design Festival held in Shanghai in May 2021, and was selected as one of the final art installations which was built. The interactive device captures people movents' through the action camera, and gives 4 designated different actions with different colors of light feedback through the interactive algorithm, and records the moment when people are full of love or happiness through the change of light colors, and close the soul distance between people in big city. The changing colors of the light attract the crowds in the surrounding business districts to check in as a memorial, as a unique scenic spot to drive the economic vitality of the surrounding business districts.

Xintiandi Design Festival Exhibition time: 28 May-14 June Instructor: Hongfei Ji

DESIGN SHANGHAI

Team Member Tong Wu, Wenshu Huang, Xinyue Qiu Linge Li, Weiting Chi, Jiawei Yuan, Shinan Liu

A MOMENT LIKE THIS The interactive installation "Moment" was recentaly exhibited in Xintiandi, Shanghai. Visitors can make programmed poses to change the color of the installation's lights.

Whether those moments of holding hands and hugging bring momentary heartthrob? And whether you are immersed in those moments that take your breath away for a long time? Life is lonely and boring, but the emo-tional bondage with others makes us happy, as the saying goes, "Jen'ai jamais pour qui reste, et le coeur qui bat toujours." The device, A moment like this is intended to simulate the

XINTIANDI, SHANGHAI

Design Shanghai 2021 Locating in Xintiandi 2021 Design Shanghai will open in Shanghai on May 28 for a period of 16 days. The exhibited works have undergone multiple rounds of review and display, and a total of 20 art installations have been exhibited in Xintiandi. Our installation "moment" integrates interactivity and visuality, with ingenious lighting effects, and brings a different kind of scenery to Xintiandi.

rhythm of human heartbeat and breathing with the flickering of lights. When it is in calm, the breath is also smooth and profound.

When visitors approach, interactive devices will capture the moments of emotions such as holding hands and hugs in the crowd, and then it will present the inner activities that surge up rapidly between friends and lovers as lighting effects, colors and rhythms changing with the intimacy between people. People often say that love needs to be expressed. It is hoped that through this interactive installation, the introverted and reserved emotions of human can be presented with colorful effects in artistic installations, so that people can take pictures and record this passionate moment of life. It will become a new landmark of the New World at night for photography.

SITE ANALYSIS

CONCEPT Inadequate Lighting

Lack of guidance

The lack of interaction

Narrow space

This is a black box

Light flowing inside

No one has ever seen the flowing light

To see the shape of light

As an important entrance to a commercial street, the street enclosed by the tortuous buildings is too tortuous and narrow, and lacks guidance. At the same time, there is no light source with sufficient illuminance at night. And the whole passage has no interactive signs, and lacks the attraction of making people walk inward.

When people saw this flowing light, they also entered a magical state. You can clearly hear your heart beating, you can hear your slow breathing, and the light is beating in your mind. The gesture you make, the light responds, and your emotions become part of the light for this moment.

Design Purpose:

DESIGN SYSTEM AND PLANS

In order to attract the attention of passers-by and enable them to be attracted, enter the alley and increase the flow of people in the commercial area.

Frame system

Form Texture Feature Structure Connotation of form

Main entrance Light colors Dynamics of light Lighting system

Brightness Structure of the lighting system Connotation of form

Secondary entrance Actions corresponding Motion capture system

Light code Code of capture information Structure of the capture device Connotation of the action

Secondary entrance of Xintiandi, Shanghai

Installation Parts

Pedestal System

Light Strip System

System Structure Acrylic Syetem (Reflected light effect）

Computer control system (Control light effect）

Light strip system

Acrylic System

(Emit light）

Pedestal system (Support structure）

Computer Control System

KINECT DIAGRAM

SKELETION SYSTEM IMAGE ANALYSIS

In order to make the interactive device run smoothly, we conducted motion input and lighting effects testing for about two months in the early stage.

The Kinect camera converts the detected 3D depth image to the skeleton tracking system, and uses the position change of the skeleton to determine the set action. We use the Kinect system to capture the envisioned motion. To ensure the accuracy of the lighting changes of the interactive device. The experimenter must repeat each action multiple times to synthesize a superimposed action video to form a skeleton change.

Motion Keyframe-3D

HEART

Mechanism Diagram

Kinect Succession Photo Record

The lights act as a breathing effect to attract passers-by

Succession 1: HEART A total of 3 tests, with 23 frames recorder each time

Kinect motion capture

Succession 2: SUPER JUMP A total of 3 tests, with 24 frames recorder each time

nce:2.5

g dista

Workin

Succession 3: SWINGING BODY A total of 5 tests, with 30 frames recorder each time

USB connection to computer

Computer system identifies four specific movements

if YES

Show corresponding lighting effect

if NO

Succession 4: CAT FACE A total of 5 tests, with 23 frames recorder each time

SUPER JUMP

SWINGING BODY

CAT FACE

CODING FOR HUMAN GESTURES Step 1: Show the pose

Step 2: Kinect captures the image

HEART SUPER JUMP SWINGING BODY

TOURISTS

Step 3: Corresponding code for each pose if(e.GestureID == leanHeartGestureName) //Detect if the gesture is heart { GestureTextGameObject.text = "Gesture Detected: " + isDetected; ConfidenceTextGameObject.text = "Confidence: " + e.DetectionConfidence; //if the detection confidence is greater than 55% //then display the corresponding lighting effet if (e.DetectionConfidence > 0.55f) { LightingDMX.LightingHeart = true; } else { LightingDMX.LightingHeart = false; } } if (e.GestureID == leanSuperJumpGestureName) //Detect if the gesture is SuperJump { GestureTextGameObject.text = "Gesture Detected: " + isDetected; ConfidenceTextGameObject.text = "Confidence: " + e.DetectionConfidence; //if the detection confidence is greater than 52% //then display the corresponding lighting effet if (e.DetectionConfidence > 0.52f) { LightingDMX.turnSuperJump = true; } else { LightingDMX.turnSuperJump = false; } }

if (e.GestureID == leanHandupGestureName) //Detect if the gesture is handup { GestureTextGameObject.text = "Gesture Detected: " + isDetected; ConfidenceTextGameObject.text = "Confidence: " + e.DetectionConfidence; //if the detection confidence is greater than 55% //then display the corresponding lighting effet if (e.DetectionConfidence > 0.55f) { LightingDMX.LightingHandup = true; } else { LightingDMX.LightingHandup = false; } }

CAT FACE

if (e.GestureID == leanSidewayGestureName) //Detect if the gesture is sideway { GestureTextGameObject.text = "Gesture Detected: " + isDetected; ConfidenceTextGameObject.text = "Confidence: " + e.DetectionConfidence; //if the detection confidence is greater than 53% //then display the corresponding lighting effet if (e.DetectionConfidence > 0.53f) { LightingDMX.LightingSideway = true; } else { LightingDMX.LightingSideway = false; } }

Step 4: Device produces corresponding light effect

TECHNICAL DETAIL

Construction Detail

Circuit Layout 220V

220V

Transparent Acrylic Sheet

SMPS 220V TO 24V 1#A 15

1#B

2#A

2#B

3#A

3#B

4#A

4#B

5#B

6#A

6#B

7#A

7#B

8#A

8#B

9#B

10#A

10#B

11#A

11#B

12#A

12#B

13#B

14#A

14#B

15#A

15#B

DMX512

1#Controller

SMPS 220V TO 24V 5#A DMX512

2#Controller

Transparent Acrylic Sheet 9#A 15

DMX512

3#Controller

Transparent Acrylic Sheet The slots are reserved sealed with UV glue.

Permeable Layer

13#A DMX512

4#Controller

POWER LINE CONTROL LINE Matte Surface

Transparent Acrylic Sheet

Transparent Acrylic Sheet Seam with acrylic stand board UV glue.

Seam with acrylic stand board UV glue.

Circuit System Led Wall Washer Pe=1.5KW Kx=1 Cos=0.85

White Stainless Steel 30*30L Angle steel structure with anti-rust paint.

Ljs=5.35A

Pjs=1KW

30*30L Angle steel structure with anti-rust paint.

C65N-C16A/1P Coil in:BV-3×4,SC25-FC,WC

xN1 BV-3×2.5,SC15-CC,WC

1KW

C65N-C20A/2P

C65NL-C16A/2P

xN2 BV-3×2.5,SC15-FC,WC

0.5KW

Led wall washer Power controller Computer receptacle

BUILD PROCESS

Monochromatic light effect

Lighting Installation

Device Frame Installation

Construction Effect

Venue lighting effect

Device Shipping

04 ANTI·WAR PLAZA Location: NanJing, Jiangsu, China Time: 2020.7-2021.9 Type: Academic, Individual Work Scale: 1Ha Instructor: Minkai Sun Email:2713@usts.edu.cn The Nanjing Massacre was an organized, planned and premeditated mass murder, rape and arson carried out on the local residents after the Japanese Empire occupied Nanjing, the capital of China, during the initial stage of the escalation of the Japanese Empire’s war of aggression against China. Collective term for a series of war crimes and crimes against humanity, such as looting and robbery. In order to mourn the victims of the massacre, the Nanjing Municipal People's Government set up a memorial hall for the victims of the Nanjing Massacre by Japanese invaders at a major site of the Japanese massacre and the burial site of the victims. This site-type special history museum was completed and opened in 1985. After two expansions in 1995 and 2005, it now covers an area of about 74,000 square meters, a building area of 25,000 square meters, and an exhibition area of 9,800 square meters, including exhibitions, gatherings, There are four areas for the mourning of the ruins, the peace park and the exchange of collections. The exhibition display includes three parts: the square display, the bone display and the historical materials display. The former residence of John Rabe, who served as the chairman of the Nanjing Safety Zone International Committee during the Nanjing Massacre, was officially opened as the "Rabe and the International Safety Zone Memorial" in 2006. It covers a total area of 1,628 square meters and is divided into six exhibition areas. Produced more than 300 pictures, more than 50 physical objects and 4 video expansions. The Nanjing Massacre brought heavy pain to the hearts of the Chinese people, but while mourning the Nanjing Massacre, we should think about what brought the massacre. It is aggression and war. While we mourn the deceased compatriots, we should also oppose aggressive and destructive wars. At Jiangdongmen in Nanjing, buildings and landscapes commemorating the Nanjing Massacre have emerged since the beginning of the 21st century. The memorial hall built in 2005 and the victory memorial hall built in 2017 surround Jiangdongmen, and this project will be anyway. The sound continued northward.

MAPPING

In order to commemorate the victims of the massacre, the Nanjing government, factories and mines, and civil organizations have successively established 22 Nanjing Massacre by Japanese invaders at some locations where the Japanese army carried out large-scale massacres and some of the burial sites of the victims. Ruins monument. The first monument was built in the factory area by the Xiaguan Power Plant in 1947. Since 1985, the Nanjing Municipal People’s Government has been operating in Yijiangmen, Zhongshan Wharf, Coal Port, Torpedo Camp, Caoxie Gorge, Yanziji, Dongjiao, Jiangdongmen, Pute Temple, Shangxinhe, Hanzhongmen, Qingliang Mountain, Wutai Mountain , North Pole Pavilion, Zhengjue Temple, Jinling University, Flower Temple, Xianhe Gate, Taipingmen and other places established 19 monuments to the victims of the compatriots and clusters of burial sites. Villagers in Hushan Village and Xigangtou Village in Jiangning District spontaneously established two folk monuments in the local area.

"The Nanjing Massacre was an organized, planned and premeditated mass murder, rape and arson carried out on the local residents after the Japanese Empire occupied Nanjing, the capital of China, during the initial stage of the escalation of the Japanese Empire’s war of aggression against China. Collective term for a series of war crimes and crimes against humanity, such as looting and robbery."

The Nanjing Massacre brought heavy pain to the hearts of the Chinese people, but while mourning the Nanjing Massacre, we should think about what brought the massacre.It is aggression and war. While we mourn the deceased compatriots, we should also oppose aggressive and destructive wars.

In order to mourn the victims of the massacre, the Nanjing Municipal People's Government set up a memorial hall for the victims of the Nanjing Massacre by Japanese invaders at a major site of the Japanese massacre and the burial site of the victims. This site-type special history museum was completed and opened in 1985. After two expansions in 1995 and 2005, it now covers an area of about 74,000 square meters, a building area of 25,000 square meters, and an exhibition area of 9,800 square meters, including exhibitions, gatherings, There are four areas for the mourning of the ruins, the peace park and the exchange of collections. The exhibition display includes three parts: the square display, the bone display and the historical materials display.

Formation

1.The original rectangular site was divided into two rectangles without the original axis. 2.Place two anti-war signs on the field separately.

3.Carry out the treatment of chamfering and rounding the boundary to make the venue more affinity.

4.Lift up the green space and hide the Anti-War Museum in the landscape.

1 W

2 E

4 S

People enter the site from the west side, retaining the north-south axis in the original site, and at the same time using different paving to shape another east-west axis, and the two axes coexist harmoniously. At the north and south ends of the site, there are two large symmetrical curved stairs leading to the upper platform. The ground of the grand staircase is also a small square, which can hold various small activities, such as outdoor outdoor movies, outdoor chorus and so on. The museum is directly below the platform and is directly accessible along the middle road through the west entrance. Various anti-war exhibits are displayed to promote the dangers and negative factors of war. Passing through the museum will suddenly open up, facing you is a large circular square. The pine trees on the square reflect the spirit of the warriors of the Anti-Japanese War. There are no seats in this square, but you can't help but stay in the square and think.

Elevation NN

Elevation SS

Elevation WW

Elevation EE "Coincidentally, if the logo he designed is turned upside down, the'signalman' on the logo will hold two flags at a 45-degree angle, which means'U' in the semaphore. UD stands for'unilateral disarmament' (unilateral disarmament). The abbreviation for disarmament, perhaps this would have a more profound meaning than nuclear disarmament."——Ken Kolsbun

Pavement

The paving uses water-permeable floor tiles, the original north-south axis paving uses gray fishbone floor tiles, the east-west axis uses light gray floor tiles, and the junction is 500mm red stainless steel drainage ditch.

Plant

The circular plaza on the far east is made of huge pine trees, which are as high as the surrounding buildings, making the site richer without destroying the skyline and lighting, and the implication is also very suitable for the theme.

Outdoor terrazzo is used for paving the ground on the platform. Connected to the brass side panels is a bamboo stool. There is also a red metal drainage ditch between them and the terrazzo.

The whole site is growing taller from west to east, and the westernmost entrance is a combination of grass and chrysanthemums. People are taller than plants, and there is a feeling of welcome to enter the site.

On the steps of the small square, the terrazzo and the fishbone floor tiles are connected, and the red drainage ditch at the west entrance separates the landscape and the paving.

The landscape trees in the middle part are shrubs and small trees(Locust tree and fragrant dracaena), and the design of the seat makes the plants as high as people, which helps to block the view, so that the realization of the surrounding buildings cannot observe the activities in the site, and adds privacy to the outdoor space.

Axonometric renderings show the height relationship between plants and people. chrysanthemums in entrance. The small locust tree and the fragrant dracaena on the platform. There is also a large pine tree in a circular square. They are all expressing their opposition to the war and their condolences for the dead.

THE NODE DETAILS

2 1

PLANT

180cm

160cm

pine e tree e

140cm

Camellia m sasanqua a Thunb. Thunb unb

120cm Ga Gardenia G arde enia na jasminoides a n s Ellis.

100cm 80cm

viburnum b um odoratissinum d is i m

120cm 100cm

Kerria K ri japonica j p i a

80cm

60cm 40cm

140cm

60cm Spiraea p thunbergii u g Sieb. e eb

40cm

20cm

00cm

00cm Color Leaves Trees Intensive Grass

Bushes

AERIAL VIEW

While propagating against the war, the project took into account the responsibilities of the Civic Plaza. Citizens can hold a variety of activities in the square landscape: playing on the lawn, sitting on the chairs in the square to soak up the sun, communicating in privacy on the benches of the platform, walking after dinner in the main square, and visiting the museum to learn about the history of the War of Resistance against Japan......

Magnolia a a grandifl n ora ra

05 METROPOLITAN PACEMAKER Location: Milano, Italy Time: 2021.10-2021.11 Type: Academic, Group Work Scale: 24Ha Instructor: Zhiguo Dong Email:0174@usts.edu.cn

Ex Scalo Ferroviario di Porta Romana, located in Milan, Italy, was once a prosperous cargo yard a century ago. After years of wind and rain, this cargo yard was gradually abandoned as the city developed and became a stain in the bustling city. It cuts off the community development texture of the northern and southern cities of Milan, and the deserted land has seriously affected the quality of life of the residents living around the abandoned goods yard. After noticing this problem, our design ideas tried to plan the road network in the base, playing the role of "urban glue", stitching together the urban texture of the southern and northern cities of Milan. Because of the complex current characteristics of the urban roads around the abandoned goods yard, wool The internal calculation logic and principle of the algorithm become very suitable for the site. After the calculation of the algorithm, the future road network plan that is more suitable for the surrounding traffic characteristics is scientifically generated, and the land after the road network is divided into different functional attributes. , Enriching the lives of surrounding residents, but also repairing the broken urban texture.

SITE ANALYSIS

REFERENCE Wool Bunding Phenomenon When loosely interfaced wool (top) was dipped into water and slowly lifted out, it obtains wet wool (bottom) which was held together by the tension between them, creating a variety of morphological changes that transformed into a single overlap.

4km

3km

2km

Principle of Wooly Path Algorithm Milan Cathedral

1km

10m ins wa

5min sw

0km

k al

Line Segments

Anchor Attraction

Connect New Points

Path Optimising Process site

metro railway green spce agricultural land

Green space

0km

1km

2km

Facilities

3km

4km

5km

Step1 Select the surrounding points that have an impact on the site.

Step2 Connect points to points to form paths.

Transport

Step3 Apply the algorithm to make the lines attract each other and draw together.

Step4 Obtain the final most logical path result within the site. public green space

commercial

industrial

education

church

railway station

metro station

bus stop

PATH INTERGATION

FRAMEWORK

Each traffic intersection points around the block is connected according to association rules, and the connection path is optimized based on Frei Otto Wool experiment. Thus, different degrees of path optimization will get many different results.

Site selection

Anchor point selection Select surrounding road intersections as anchor points.

HORIZONTAL CONNECTION Each associated point of each intersection is connected according to the scale function and connection rules of the intersection.

Randomly connect anchor points Randomly connect according to the size of the intersection.

Algorithm of Frei Otto Wool Experiment Algorithm is used to caculate the appropriate walking path for the population in the HOPSCA, and the plot within the site is divided into new functional areas. The road division should conform to the functional requirements of the site. It makes people walk more smoothly and provides more public space and green space for people to rest and communicate.

Selection

Simulation

MULTI-DIRECTIONAL PLANS The results are selscted from the initial, intemediate and final stages of the caculation of the wool algorithm, and the site is given different functions for the different spatial features it creates, resulting in a multi-directional solution. The generation process for each scenario is as follows. ① Commerical Plan

② Residential Plan

③ Open Space Plan

Plot Ratio: 2.5 Building Statistics: 46 Building Density: 0.23

Plot Ratio: 2.4 Building Statistics: 16 Building Density: 0.22

Plot Ratio: 2.2 Building Statistics: 21 Building Density: 0.15

During the initial caculations of the wool algorithm, the point-topoint connections were not merged to any great extent, creating a large number of small-scale spaces that are more suitable for the construction of low-rise commerical complexes that serve the surrounding residential buildings and factories.

In the middle of the caculation process of the wool algorithm, a certain number of connecting lines have been merged, creating spaces that are mostly medium-sized in scale and more suitable for the construction of mid-rise residential buildings that can serve the surrounding factories and extend the urban residential functional from north to south.

In the final caculation of the wool algorithm, the connecting lines have been maximally integrated to form external spaces with smooth paths and appropriate nodes, leaving a large scale space more suitable for a park landscape, with a small number of buildings with supporting functions that can serve the urban residents living in the surrounding area and link to the network of green spaces in the rigon.

Axonometric View

Masterplan

100m 200m

The existing train tracks have been retained and are connected to the north and south of the city by a huge transport facility. It is also equipped with a variety of functions such as accommodation, sports, commercial and administration.

Building List Residence

Hotel

Library and Museum

Stadium

Sports ground

Skatepark

Administration

PERSPECTIVE

SECTION A-A A

06 BROWNFIELD REGENERATION Location: Chongqing, China Time: 2021.7-2021.8 Type: UCL RC18 Workshop, Group Work Scale: 330Ha Instructor: Enriqueta Llabres Valls Email: ellabres@relationalurbanism.com

The Chongqing Iron and Steel Plant was once the backbone of Chongqing's economy and the first steel plant in China in the old days, but it was gradually forgotten in the development of the times. Today, walking on a path full of fallen leaves, among the branches and leaves, the "old antique" stoves, gas tanks, and tall chimneys still stand upright. The iron kingdom and the mechanical battlefield vaguely maintain the majesty and glory of the past, but this still cannot change the fate of the passage of time. In this once glorious land, the industrial waste and chemical pollution left by the steel factory still erodes the people living around this land, not only endangering people's health, but also delaying the development of modern cities. And the large number of cemeteries in the surrounding mountains and forests also occupy a large number of natural habitats of animals and plants, making the animals and plants in the land on the verge of extinction and vitality. Therefore, in this design, we tried to combine the ecological restoration problem and the graveyard problem into one design strategy. By evaluating various natural conditions and ecological status in the site, and carrying out a parameterized design based on genetic algorithm, the purpose is to obtain a The terrain is most suitable for ecological restoration, and the most important issue of ashes placement in the cemetery is integrated into the ecological design, and finally humans and nature live in harmony, restoring the barren and barren ecological problems in the site for half a century.

GRACE SITUATION

REFERENCE

THE DISADVANTAGES AT THE COST OF ENVIRONMENTAL DAMAGE OCCUPY A LOT OF LAND MEANINGFUL BUT WORTHLESS

Fresh Kills Park: Lifescape Draft Master Plan James Corner Field Operation

Succession Ecosystem Thinking

The Second Digital Turn

Ecological Thinking design Practices Before

After

Before the design started, we conducted case analysis, read a lot of literature, conducted research on ecology, industrial heritage, cutting-edge technology and other fields, and learned many advanced concepts and technical methods. These preliminary studies provide a lot of ideas for the later design. High: 275

1㎡-100㎡ The highest price for a cemetery

Coking Plant&Pure Benzene Plant

Annual integrated production 3,500,000 (tons)

Steel Plant

Now

Steel production in Chongqing 1,000,000-2,000,000 (tons)

Cremation

When people become ashes, what do they leave to the world?

“万物始于自然，而归于自然。自然即使开始，也是终结。” 《Phoenix Nirvana》《The birth of venus》

“ALL THINGS BEGIN WITH NATURE, AND THEY END WITH NATURE IS THE BEGINGNING AND THE END.”

The microbial community in the site cannot survive stably due to the impact of heavy metal pollution, so the status of the microorganisms is a sensitive indicator of the health of the soil.

1993-2003

Maximum of steel production 10,000 (tons)

1942

2011 Lock of Chongqing Steel Plant

797,400m³ Contaminated earth volume

We call it “seed”

Buried into the soil

Healthy soil was detected

Regeneration

Phase1

Phase2

Phase3

Phase4

Site contamination

1947 The train open to traffic

797,400m³

Power Plant

Water funeral

DESIGN CONCEPT Steel production

Burial

300,000 yuan

Chongqing Organic Chemical Plant

Low:0

A land use area of a tomb

Electroplate factory

Contaminated earth volume

The 0-20 meters of soil in the site were contaminated to varying degrees

Victory of the war

1945

War of Resistance against Japanese Aggression

1931

Big-steel making

1993

1644-1735 Migration

Father of the heavy industy

HISTORICAL TIMELINE AND CURRENT CONDITION

Bone ash

Seeds

Put together

This is a container of memory. The ashes of loved ones, friends, and pets will be kept here. A seed is stored in the container, and the ashes will nourish the seed wrapped in it, extending the value of life after it is gone.

Microbiological degradation Buried in heavily contaminated areas

When the ashes are put into the container, they can be buried underground. The container will expose a top in the ground, like a monument, carrying the memories of the dead before life. At the same time, the container is like a seed, about to break the ground.

Release

The biofilm on the outer surface of the device is a sensitive indicator of the soil. When the pollution of the soil decreases and the microbial activity intensifies , the biofilm will be decomp osed by the micro-organism s, and the seeds and ashes will be put into the soil.

Sprout

Honor the deceased

The ashes nourish the wrapped seeds, allowing the seeds to take root and germina te. The trees emerging from the ground at this time also represent the rebirth of the dead, and in another way, continue life on this land.

URBAN AND REGIONAL RELATIONS Industrial heritage

Solar radiation intensity

Meixinmen plant Pinshan plant

Radiation duration

Haier plant Yongxin plant Hongqi plant Jiangbei Area Area : 220.8km2 Population: 925800

Chimney NO.1

Xinxin plant

Guanyinqiao plant

Zhongyan plant Jialing River

Power plant gas tank Shapingba Area Area : 396km2 Population: 1447345

Yiangzi River

Terrain and Topography

Hongyuan plant

Factory workshop NO.3

Nanan Area Area : 263.09km2 Population: 1197600

Lvyun plant Jiulongpo area Area : 432km2 Population: 1526800

Cifu plant

Chimney NO.2 Yujie plant

Blast fumae NO.5

Changle plant

The fabric of Chongqing was once dominated by the heavy industry. the residences and infrastructures distribute around the steel mills. The development of the urban area is led by the heavy industry.

Mawangxiang plant

Chongqing steel plant

Nanshan plant

Dadukou Area Area : 102.83km2 Population: 421904

Solar Angle analysis

Qinglong plant

Site

Shunqiang plant Xinhua plant

Machine repair workshop

Nature

Tengpeng plant Jianxin plant

Yingdong plant

Residential

Wind rose

Flood analysis

Xiaonanhai plant

Chimney NO.3 Yuhang plant

Banan Area Area : 1834.23km2 Population: 1178856

Haiyue plant

Concave-conves analysis Elevation analysis

Aspect

Dajiang plant Kongxin plant

Industrial heritage

Railway

After the demolition of steel mills, the residences are no longer affiliated to the steel mills. At the same time, with the decline of heavy industry, the urban development mode dominated by industry is gradually coming to an end, and the city urgently needs a new dominant attribute.

Catchment analysis

Roughness analysis

Slope analysis

SIMULATION OF SITE PLANT Estimated Crown Width Average Crown Width and height of plants on each habitat (Land Cover): Habitat

Crown Width

Height

Woodland

300cm

500cm

Shrubland

100cm

Grassland

5cm

Wetland

30cm

150cm

Section A-A

0.822134

Shrubland Section B-B

Grassland

Cropland

Wetland

Shrubland

Grassland

Cropland

Wetland

Shrubland Section D-D

Grassland

Cropland

Wetland

Shrubland

Grassland

Cropland

Wetland

Grassland

Cropland

Wetland

Grassland

Cropland

Wetland

Section C-C

Section E-E Woodland

NDVI on each vertice * Crown Width of trees on each habitat (Land Cover) = Estimated Crown Width on each vertice Remap Crown Width Exponent

Shrubland Grassland Wetland

Broadleaf Forest Coniferous Forest Juniper Thicket Paper Mulberry Copses Turf Meadow Riverside

Shrubland Section F-F

Shrubland

37.8

500m

1000m

Reshape the terrain

Site Analysis The logic of shaping the terrain NDVI Data

Land Cover Data

Set points on each vertice of the grids Integration

Land Cover Map

NDVI Map

Image Sampler

Detect land cover type on each vertice on the Land Cover Map.(Cropland, Impervious surface, forest .......)

Detect the NDVI exponent on each vertice of the map.

Estimated Crown Width

Identify the RGB in the corresponding photo at each vertice to reparameterize the analysis data.

Assign the Average Hight to each Land Cover type.

Remap the NDVI exponent.

Assign the average Conopy Width to each Land Cover Map.

Collect the pollution through Runoff for purification.

Preserve the healthy trees on the site to protect the indigenous vegetation.

Lower the locations of severe polution.

As point charge

Average Hight × Remaped NDVI exponent as the Hight of vegetation on each vertice.

Average Canopy Width × Remaped NDVI exponent as the Canopy Width of vegetation on each vertice.

Create Delauney Mesh as terrain Extract the NDVI data, place the contaminated points in the base and the recessed points in the existing terrain as three genes into the genetic algorithm to obtain the most contaminated points in the site, and superimpose the magnetic field with these points to solidify the magnetic field lines Finally, the most suitable design terrain for centralized treatment of pollution through terrain catchment is obtained.

As spin force

Genetic Algorithm Filtrate

Construct a magnetic field to form the terrain structural lines.

Create grids on the site region of the map

Extract and simplify the points from the terrain structural lines.

Runoff Map

In GH, use the image sampler battery and combine the site plant data extracted from the Chongqing species resource database to analyze the NDVI data of the plants in the site, and integrate the average plant height and average crown width to achieve the current plane and profile of the plant growth in the simulated site.

The process of shaping the terrain

Creat grids on the site rigon of the map

Pollutant Map

NDVI Map

Extract the amount of Runoff water on all 10200 points

Extract the amount of Pollutants on all 10200 points

Extract the Degree of NDVI on all 10200 points

Caculate the aggregation of the amount of Runoff Water on all selected points.

Caculate the amount of Pollutants on all selected points.

Caculate the aggregation of the Degree of NDVI on all selected points.

Select 200 points from all the vertices

Simulating Plants Conopy Width

Draw circles to show the Canopy Width of vegetation on each vertice. Simulating Plants Height

Move the circles onto the topography.

Imported into the gene pool as three impact factors.

Generate Plant growth profile

Paint the columns with the color of Land Cover type.

Extrude the circles for the height of vegetation.

Get a Habitat Diversification 3D Mapping with both the information of Land Cover type and healthiness of the vegetation.

WLC_Maximize the aggregation of the amount of Runoff on selected points.

WLC_Maximize the aggregation of the amount of Rollutants on selected points.

Take the best solution points as the lowest points of the terrain.

WLC_Minimize the aggregation of the degree of NDVI on selected points.

Gene Pool

GENETIC ALGORITHM SELECTION

GENETIC ANALYSIS Selected Solution Information Solution: Gen.53 Ind.19 FO1: Maxmize Runoff Fitness Value: Fitness Rank:

0.010809 880/4999

FO2: Maxmize Pollutant Fitness Value: Fitness Rank:

Gen:94 Ind:40 FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:86 Ind:2

FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:95 Ind:30 FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:87 Ind:4

FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:96 Ind:38 FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:88 Ind:24 FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:97 Ind:20 FV.1:0.010809 FV.2:935140.549393 FV.3:67.498041

Gen:89 Ind:22 FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:97 Ind:45 FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:90 Ind:32 FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:98 Ind:8

FV.1:0.010409 FV.2:958831.905103 FV.3:66.054904

Gen:91 Ind:38 FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:98 Ind:31

Fitness Value: Fitness Rank:

FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:57 Ind:29 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:58 Ind:30 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:81 Ind:0

FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:82 Ind:3

FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

Gen:83 Ind:5

FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

FO2

FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:49 Ind:33 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:50 Ind:29 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:51 Ind:31 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:52 Ind:27 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:53 Ind:19 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

FO3

Standard Deviation (SD)

Gen:84 Ind:2

FV.1:0.009735 FV.2:971044.930946 FV.3:71.611767

0.01

0.012 0.014 FO1: Maxmize Runoff

940000

Gen:48 Ind:42

67.498041 148/4999

Gen.53 Ind.19 Standard Deviation Graphs

FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

FO1

Gen:92 Ind:39 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:56 Ind:29

935140.549393 336/4999

FO2: Minimize Pollutant

0.016

990000 1040000 FO2: Maxmize Pollutant

0.012 FO1: Maxmize Runoff

1090000

990000 FO2: Maxmize Pollutant

0.017

1090000

Gen:54 Ind:24 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

FO3: Minimize NDVI

81 FO3: Minimize NDVI

Parallel Coordinate Plot

Gen:40 Ind:21 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:41 Ind:17 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:42 Ind:12 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:43 Ind:16 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:44 Ind:14 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:45 Ind:18 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:46 Ind:14 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Reshape the terrain

The genetic algorithm is used to screen out the best spot that meets the conditions of the site, and then superimpose the magnetic field with the spot as the center. The spot is used as the lowest point of the depression of the design site, and the magnetic field lines are solidified. Internal pollutants can be concentrated by surface runoff to the lowest point of the terrain.

Original Terrain Gen:37 Ind:2 FV.1:0.010649 FV.2:1.005e＋6 FV.3:78.647061

Gen:37 Ind:29 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:37 Ind:31 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Gen:38 Ind:1 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Gen:38 Ind:33 FV.1:0.011525 FV.2:952809.926219 FV.3:78.647061

Gen:38 Ind:38 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Gen:39 Ind:8 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Pollutant Accumulating Points Field Lines

Gen:33 Ind:3 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Gen:33 Ind:6 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Gen:34 Ind:2 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Gen:34 Ind:9 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Gen:35 Ind:2 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Gen:35 Ind:8 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

Gen:36 Ind:2 FV.1:0.010649 FV.2:1.005e＋6 FV.3:82.882355

To preserve habitats , take NDVI>0.90 as High points To collect and remove the pollutants in certain places, Pollutant accumulating points generated by Wallacei as Low points.

Reshaped Terrain

POLLUTION PROOF PLANTS CONTENT

Density

Rosa chinensis Jacq. Ginkgo biloba L. Magnolia grandiflora L.

Rosa chinensis Jacq.

Ginkgo biloba L.

Magnolia grandiflora L.

Diameter: 12 centimetre Crown diameter: 60 centimetre *GKIJV EGPVKOGVTG )TQYKPIaRGTKQFa [GCTN[ Plant type: evergreen

Diameter: 25 centimetre Crown diameter: 40 centimetre Height: 40 meter )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Diameter: 4 centimetre Crown diameter: 150 centimetre Height: 250 meter )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Hedera nepalensis K. Koch

Chrysanthemum × morifolium Ramat

Diameter:1 centimetre Crown diameter:3-20 centimetre Height: 35 meter )TQYKPIaRGTKQFa ;GCTN[ Plant type: evergreen

Diameter: 2.5-20 centimetre Crown diameter: 30 centimetre Height: 60-150 centimetre )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

P.grandidentata

Aegiceras corniculatum (Linn.)Blanco

Osmanthus fragrans (Thunb.) Lour. Diameter: 16 centimetre Crown diameter: 2-2.5 meter Height: 3-20 meter )TQYKPIaRGTKQFa [GCTN[ Plant type: evergreen

Ligustrum lucidum

Betula papyrifera

Diameter: 5-15 centimetre Crown diameter: 2.5-3 meter Height: 25 meter )TQYKPIaRGTKQFa [GCTN[ Plant type: evergreen

Diameter: 50 centimetre Crown diameter: 2-2.5 meter Height: 3-3.5 meter )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Osmanthus fragrans (Thunb.)Lour. Ligustrum lucidum Betula papyrifera Hedera nepalensis K. Koch Chrysanthemum × morifolium Ramat Aloe vera (Haw.)Berg Ananas comosus (Linn.) Merr.

Aloe vera (Haw.)Berg

#PCPCU EQOQUWUa .KPP /GTT

Morus alba L.

Cycas revoluta Thunb.

Diameter:30 centimetre Crown diameter: 1 meter Height:1.5 meter )TQYKPIaRGTKQFa OQPVJ Plant type: evergreen

Diameter:1 meter Crown diameter: 120 centimetre Height: 300 centimetre )TQYKPIaRGTKQFa OQPVJ Plant type: evergreen

Diameter:60 centimetre Crown diameter: 150-200 centimetre Height:250-300 centimetre )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Diameter: 50 centimetre Crown diameter: 2-2.5 meter Height: 3-3.5 meter )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Pteris cretica L. var. nervosa(Thunb.)

Pteridophyta

Artemisia argyi Levl. Et Vant

Diameter:2-3 centimetre Crown diameter: 10-20 centimetre *GKIJV EGPVKOGVTG )TQYKPIaRGTKQFa [GCTN[ Plant type:evergreen

&KCOGVGT OKNNKOGVGTa Crown diameter: 5-30 centimetre Height: 18 centimetre )TQYKPIaRGTKQFa [GCTN[ Plant type:evergreen

Diameter: 1.5 centimetre Crown diameter: 0.1-0.4 meter Height: 80-250 centimetre )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Pharbitis nil L. Choisy

Setaria viridis (L.) Beauv.

Crataegus L.

nervosa (Thunb.

Morus alba L. Cycas revoluta Thunb. P.grandidentata

Diameter: 50 centimetre Crown diameter: 140-160 centimetre Height: 10 meter )TQYKPIaRGTKQFa OQPVJ Plant type: deciduous tree

Aegiceras corniculatum(Linn.)Blanco Carex aequialta Pteris cretica L. var. nervosa (Thunb.)

%CTGZaCGSWKCNVC Diameter:10 centimetre Crown diameter: 30-60 centimetre Height: 30-60 centimetre )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Diameter:10 centimetre %TQYP FKCOGVGT EGPVKOGVTG Height:1.5-4 meter )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Artemisia argyi Levl. Et Vant Pteridophyta Poa annua L.

Poa annua L.

Festuca elata Keng ex E.Alexeev

Diameter: 3-4 millimeter Crown diameter: 20-30 centimetre *GKIJV EGPVKOGVTG )TQYKPIaRGTKQFa OQPVJ Plant type: evergreen

Taxus wallichiana var. Pharbitis nil(L.) Choisy Setaria viridis (L.) Beauv.

Festuca elata Keng ex E.AIexeev

Taxus wallichiana var. chinensis(Pilg.)Florin

Diameter: 2-2.5 millimeter Crown diameter: 50-100 centimetre *GKIJV EGPVKOGVTGT )TQYKPIaRGTKQFa [GCTN[ Plant type:evergreen

&KCOGVGT EGPVKOGVTGa Crown diameter: 130-150 centimetre Height: 200-240 centimetrer )TQYKPIaRGTKQFa [GCTN[ Plant type:evergreen

&KCOGVGT EGPVKOGVTGa Crown diameter: 26-30 centimetre Height: 1 meter )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

&KCOGVGT EGPVKOGVTGa Crown diameter: 2.5 meter Height: 6 meter )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Diameter: 1.5 centimetre Crown diameter: 10-40 centimetre Height: 80-250 centimetre )TQYKPIaRGTKQFa OQPVJ 2NCPV V[RG FGEKFWQWUaVTGG

Crataegus L.

POLLUTION DISTRIBUTION

PLANT GROWING STRATEGIES 1-1 SO2

1.Benzene 2.Benzopyrene 3.Total petroleum hydrocarbons 4.Pb 5.Hg

300m

2-1

1.Hg 1.Hg 2.As 2.As 3.Pb 3.Pb 4.Ni 4.Ni 5.Benzopyrene 5.Benzopyrene

3-1

1.Hg 2.Acenaphthene 3.Benzopyrene 4.Gallium

4-1

Total petroleum hydrocarbons

21.276m

20.276m

23.324m 18.276m

2-1 Pb

1.Cd 2.Cu 3.Zn 4.Benzene 5.As

Benzene

17.506m

600m

21.496m

17.016m

3-1 Benzopyrene

800m

Soot

11.242m

10.564m

4-1 Hg

Benzopyrene

Soot

1000m

SO2

10.109m 8.129m As

5-1

-9.539m

5-1

Woodland Grassland Wetland

1.Ni 2.Hexavalent Chromium 3.Benzopyrene

1000m

Benzopyrene

Hexavalent

Soot

12.876m

14.093m

URBAN AND REGIONAL RELATIONS Road Route

According to the previous proposal of using different plants to solve different pollution types in different zones, the vegetation design was carried out. The site was would be into five sections according to the three habitat types in each of the five pollution areas, and 15 areas were divided. The Density of habitats would change in the lowlying polluted areas.. At the same time, “The SEED” device would be placed in the location with serious pollution.In the end, the pollution in the site will be quickly absor bed and processed by plants, and the plants symbolizing hope in “the seed” will also pierce the degradable membrane and grow outside the device. As time goes by, after the degradable membrane is decomposed by the soil microorganisms, a piece of The lush forest was reborn. The departed would also go back to the nature.

07 OTHER WORK Curriculum Design Competition for Chinese University Students

2021 Yangzhou World Horticultural Exposition

Date: Jun, 2019 Location: Suzhou, Jiangsu province, China Director: Dong Zhiguo

Date: Nov, 2020 Location: Chengdu, Sichuan province, China Director: Minkai Sun Excellence Award

The 17th China-Japan-South Korea Landscape Architecture Design Competition for College Students Date: Oct, 2020 Location: Suzhou, Jiangsu province, China Director: Sun Minkai

Sketch

Model

Date: Dec, 2018 Location: Suzhou, Jiangsu province, China Director: Dong Zhiguo

Date: Sup, 2021 Location: Suzhou, Jiangsu province, China Director: Yu Hui

Date: Nov, 2018 Location: Suzhou, Jiangsu province, China Director: Xu Jing

Suzhou Garden Model

Campus square Design

Jiangsu University Student Art Exhibition

Date: Nov, 2020 Location: Suzhou, Jiangsu province, China Director: Dong Zhiguo Group Second Prize

Date: Nov, 2020 Location: Suzhou, Jiangsu province, China Director: Dong Zhiguo Personal Third Prize

Model

Device Installation

Site

Logo

Device Installation

Lighting Effect

Bird View

Model