Design_Beta
Design and Research Portfolio
Leshan Fu Apply for MSc Architectural Computation The Bartlett School of Architecture University College London
Prologue
- An Experimental Design Beta means a nearly complete prototype of a product (such as software), or a stage of development in which a product is nearly complete but not yet ready for release. How do we face potential, multidisciplinary, and complex problems now or in the future? With the development of society, new types of social problems have also emerged. Traditional design methods will be difficult to solve these problems. As a method and means to solve problems, design should also develop with the times. The design is in Beta again. Design_Beta: experimental design. As a conceptual technical response to complex problems, the purpose of beta_design is not to propose a perfect solution, but to propose an avant-garde and pioneering idea and explore its possibilities.
Contents 01 A Design_Beta for Democracy
3
Community Co-generation Platform Oakland, California, United States, 2019
02 A Design_Beta for Perception
20
Living Environment Recommendation Website Berlin, Germany, 2020
03
A Design_Beta for Restoration
30
Ecotourism Planning of Ziqinghu Park Nanjing, Jiangsu Province, China, 2020
04 A Design_Beta for Social Equity
42
Park Distribution Analysis and Optimization Proposal of Yancheng Yancheng, Jiangsu Province, China, 2018-2020
05 Other Works Historic Street Design, Nanjing, China, 2019 Micro Film: The Threshold of Dreams, 2018
54
A Design_Beta for Democracy [ Community Co-Generation Platform ] Course: Academic Work - Fourth Grade Studio II Insctructor: Professor Biao Li, Waishan Qiu, vTianyu Su Location: Oakland, California Time: Nov. 2019 - Feb. 2020 Type: Collaboration Work Role: Collaborator Specific Contribution: Training AI model, building database, making 3D model and evaluation Contributor: Jieyu Zhou Participatory design is hands-on democracy in action. For over half a century it has guided us in understanding communities, honoring difference, creating vibrant neighborhoods and ecosystems, challenging environmental injustice, and fostering citizenship. However, design team have found it difficult for all the stakeholders to reach a consensus. The platform is intended to solve this problem by using deep learning for quick generating schemes and Grasshopper for rapid evaluation. A community in West Oakland is used as a case study.
Existing Problems in Community Meeting – Difficult to Incorporate diffe Many public participation approaches of urban design and planning, such as online surveys or ideation, are characterised by asynchronous engagement, which means that citizens participate individually whenever it is convenient for them. However, design team have found it difficult for all the stakeholders to reach a consensus. There fore, a new form of decision-making process is required.
SITE
Government: Reducing carbon emissions, and building green to support the Sustainable Oakland Program.
16th Train Station started in 1912
Residents: We want a better environment, and we need to see the historic station from any angle.
erent Needs
E 16th Train Station started in 1912
Developers: We fo c u s o n t h e m a r ke t viability , profit and business opportunities.
Framework of Co-generation Platform
Input and Output Module – Introduction of Interactive Installation
The stakeholders can build up models with the pre-set blocks of different programs. The camera on the top will capture what they have built and then sent the image to the mainframe for next generation and evaluation.
Projector Showing the site and analysis images
Webcam Capturing which blocks users put
Computing Unit Picture processing, generating and analyzing
Analysis Evaluating scheme by environment, economy and ecology indicators
Physical Model Users assemble blocks on the site model. Results are captured by camera
Discussion
Assembling Blocks
Generating
Analysis
Redoing
Blocks
Start Button
Regenerating
AI Generated Design Module – An Algorithm That Can Optimize the Lay
2. Model training and ev
1. Principle of AI(Pix2pix) In this step, 500 paired images (image A & image B) of appropriate census block groups’ plans(500m*500m) in American cities were collected by Python in Open Street Map. Image A shows the landuse and image B shows the building outline. These paired images are used to train the pix2pix model. Then input the user's sketch into the trained model to generate a plan. Database
3. Generating plan The structure of Pix2pix
yout
valuation
Evaluation Module – Results Testing Catalogue
Residents
Job Offering
Developers
View of the historic Station
Sunlight
Government
Revenue
Eco-friendly
Economy
v En
me iron
nt
Rooftop Solar Potential
Accessibility
CO2 Emission
Environment
Job Offering
Space
2
7 2.9
4
S p a ce
Eco - f r i e
n dl
y
7
3.1 1 Form: Data
Predicted by: dataset Google Environment Insights Explorer
1 4.8
2 Form: Data 3
9
Economy
Rating for Plan 19
Predicted by: dataset U.S. Bureau of Labor S and Data USA
3 Form: Model Simulati
Predicted by: Honeyb Pedsim in Grasshopp
t from tal
t from Statistics
ion
bee and per
Evaluatiion Module – Scores for Each Plan
Participatory design is hands-on democracy in action. For over half a century it the stakeholders to reach a consensus. The platform is intended to solve this problem by using deep learning for quick. Sunlight 1
2
3
4
5
6
View of Station
Accessiblity
Overall
① Plan ② Plan ③ Plan ④ Plan
1 4 8 11
①
Sunlight 7
8
9
10
11
12
②
View of Station
Accessiblity
③
Overall
④
Output Module – Scenes of Interaction
A Design_Beta for Perception [ Living Environment Recommendation Website ] Course: DigitalFUTURES Summer Workshop 2020 Insctructor: Professor Brad Cantrell, Waishan Qiu, Xun Liu Location: Belin, Germany Time: June - July, 2020 Type: Collaboration Work Role: Team Leader Specific Contribution: Data collection, front-end development Contributor: Lecturer Dan Luo, Peng Cheng, Yuwen Yang
The research on landscape visual impact is limited by the lack of methods that can be used to quantify the perceptions of landscapes or to analyze large amounts of image data samples. Unlike the existing empirical landscape measurement methods, this website uses computer vision and machine learning to develop an effective approach to quantify subjective perception of landscapes and to apply to regional-scale studies. We hope this work will inspire opportunities for novel quantitative analysis and an evidence-based approach to the design process.
Introduction – Perception of Landscape
Livin
How do people quickly perceive the Berlin that they have never been to before and decide a place to live? Firsthand experience
Space limitation
×
Browse photos in bulk online
Time limitation
×
Filter by conditions and keywords
Expert Evaluation : (Perception questions)
Lack of accuracy
×
Uplo ideal
Pro-train A Machine Learning : (Supervised : KNN, RF, DT...)
Objective Feat 30+ Streetscape Fe
Training Data
Preduction Mo (60%+ accura
8 Perceptual Scores (Y)
Training Sample : 300 Street View Images
30+ Streetscape Features ( X )
Objective Feat 30+ Streetscape Fe
Prediction Inp
150K Street View I
Computer Vision : (Neural Networks : Pspnet, ResNet...)
ng Environment Recommendation Website
Step 1 : oad a photo of an living environment
Step 2 : Trained AI Calculation
Step 3 : Additional condition filtering
Step 4 : Feedback results of places and ranking
AI Section
Calculation Section
Street View Images Score
tures eatures(X)
odel acy)
tures eatures(X)
put :
Images
Uploaded Image
Landscape Perceptions 8 Street Scores (Y)
10 Principle Features MSE 10 Principle Features
Similarity Score (0-100%)
Principle of Pro-train AI Section 1. Sampling for Training Models
4.
Randmly sample 300 street view image points across Berlin as the training data and download street view images with consistent angles and requirements from Google Static Image API.
Ex
Random point
Angle adjustment
Colletion
Samples of SVI
2. Feature(x) Decision 30+ features(x) extracted from SVI Theoratical Framework from Urban Design and Landscape Perception Literature Select Limited Features.
Sky
Sildwalk
Wat
Road
Fence
Tree
Streetlight
Building
Ceiling
Building
Skyscraper Signboard
Person
Bicycle
Minbike
Sculpture
Plant
Skyscraper
Car
Streetlight
Tree
Factory
River
Bridge
3. Dimensional scores(y) Evaluation
5.
8 dimensional scores(y) After the 8 Dimension are determined, a large amount of online questionnaire data collection is used to score each dimension of the GSI image.
Co y
10 8 6 4 2 0
D1
D2
D3
D4
D5
D6
D7
D8
D1 = Imagery D2 = Order D3 = Access D4 = Beauty D5 = Ecology D6 = Enclosure D7 = Richness D8 = Human-scale
. Street Feature Exatraction
xatract the feature with pre-trained PSPNET model, 85% accuracy on cityscapes.
. Model Training and Selection
omparing the accuracy of difference ML aglorithom = f(log(X)) Imagery
Order
Access
Beauty
Ecology
0.47
0.36
0.40
0.38
0.48
0.60
0.48
0.55
0.54
0.59
0.49
0.50
0.58
0.44
0.58 0.56
Enclosure
Richness
Human-scale
0.44
0.49
0.41
KNN
0.56
0.59
0.59
0.51
Random Forest
0.54
0.52
0.56
0.53
0.49
Decision Tree
0.51
0.52
0.55
0.53
0.58
0.45
Gaussian Process
0.46
0.52
0.49
0.52
0.57
0.54
0.48
GradientBoosting Regression
0.47
0.51
0.49
0.54
0.54
0.53
0.48
ADA
Processing of Front end and Back end
Step 1 : Input Image Upload a photo of an ideal living environment.
Step 2 : General information Get basic information about Berlin(POI, Traffic, etc.).
Step 3 : Distr Select a district inform
Front end Back end Input Images
Database - Berlin Street View Images
P
rict Selection based on basic mation.
Step 4 : Visualizaztion Visualize the results of similarity score in the selected district.
Step 5 : Zoom In Recommend the top three locations to users.
Condition Screening
Prediction
Output scores
ResNet50
ResNet50
Dense20
Principle Component Analysis(PCA)
10 Principle Features
Dense20
Principle Component Analysis(PCA)
10 Principle Features
Similarity Score (0-100%)
Calculation Results – Similarity Score and Visualization
Building
Road
Sidewalk
Bicycle
Green
Plant
Person
Sky
Analysis of Score of Similarity of Each Street View Image
Score Visualization in Berlin
Factor
River
Street Feature Exatraction
A Design_Beta for Restoration [ Ecotourism Planning of Ziqinghu Park ] Course: Academic Work - Fourth Grade Studio III Insctructor: Professor Yuning Cheng, Professor Zhe LI, Associate Professor Yangyang Yuan Location: Nanjing, China Time: March - June, 2020 Type: Collaboration Work Role: Team Leader Specific Contribution: Concept proposing, GIS analysis, plan generation, sensor device design Contributor: Jin Jiang, Ruoxuan Huang, Huilin Deng, Yujun Zhou Located in Tangshan, Nanjing, Ziqinghu Park is a famous hot spring attraction in history and the habitat of the endangered Chinese alligator. Due to the recent overdevelopment, the groundwater level has dropped sharply, seriously threatening the survival of Chinese alligators. Since the surrounding area has been urbanized, it is impossible to completely restore it to its natural state. So try to use a digital method to minimize the harm of development and tourism to the site.
Introduction of the Site Ziqing lake is located in Tangshan New Town, Nanjing. It has always been famous for its hot spring industry. In recent years, the tourism industry has been over developed, and the rate of urbanization nearby is also accelerating. As a result, groundwater has been seriously polluted, and the habitat of Chinese alligators has been threatened.
Volcano Eruption Nanjing Volcano belongs to the Cenozoic volcanic group in Jiangsu and Anhui. The name of Nanjing Volcano was first proposed by Richthofen, and Anderson (1871, 1876) made an investigation.
Design Strategy History Line
A relatively complete fossi was unearthed. This was bo years ago. It also confirmed is one of the birthplaces of t
Ape Man
Aerial View of Current Site
Hot Springs Discovery
Tourism Development
In the Southern and Northern Dynasties of China, hot springs were discovered in Ziqing Lake. People gradually began to travel here. Many poets in history have left poems describing Ziqing Lake.
The Nanjing government carried out large-scale development of Tangshan. Tourism development has led to the continuous deterioration of the environment and the continuous decline of groundwater levels.
il of an ancient human skull orn in Nanjing about 300,000 d that the Yangtze River Basin the Chinese nation.
President Chiang Kai-shek of the Republic of China had a private villa here, which is small, divided into upper and lower floors. The basement is hot springs, and the ground is the honeymoon residence of Chiang Kai-shek.
Hot Spring Villa
The Nanjing government established a Chinese alligator conservation base here, and there are now thousands of Chinese alligators here.
Chinese Alligator Reserve
Chinese Alligator Study and Ecological Sensor Station Design Chinese alligator is a kind of crocodile in the alligator family Alligator. It is a kind of crocodile unique to China and one of the smallest crocodile species in the world. He lives in the Yangtze River valley in China and has an evolutionary history of more than 150 million years. It is listed as Critically Endangered species by the World Conservation Union.
Maiin Habits of Chinese Alligators Critically Endangered Once the number of wild Chinese alligators was less than 200. Today there are only about 500 wild Chinese alligators. Nocturnal Chinese alligators like to be quiet. They often hide in caves during the day and go out for food at night. It sometimes comes out during the day, especially in the sun on the shore and beach near the cave. Hibernatioin A alligator hibernation lasts from October to April of the following year. The outside temperature drops below 0 degrees in winter, but it can maintain a temperature of about 10 degrees in the cave. Cave Dwelling Its caves often have several openings, some on the banks of the beach where reeds and bamboo forests grow, and some are on the ground at the bottom of the pond, and has entrances and exits, vents, and side openings adapted to various water levels.
Compound Sensor In order to better monitor the physical environment of the habitat, and to better observe the growth status of the Chinese alligator, while avoiding excessive interference to it, composite sensors are designed to achieve the above goals.
Program - Restoration and Educational Tourism In the GIS platform, the ecological sensitivity analysis and construction suitability analysis are analyzed. The superposition of the two can find the suitable construction area and the area needing strict protection. At the same time, through the analysis of catchment area, the suitable water body is found. Then these water bodies are further optimized. After the project site selection and site entrance are determined on the construction land. Using GIS to calculate the appropriate path, and through optimization to get the final road system. There are three main parts of the plan atmosphere: core reserve, Chinese alligator habitat, and ecotourism area.
Section - F
From Analysis to Generation of Plan
Section - R
Nature Reserve Determination
Construction Land Determination
Water Landscape Determination
Traffic System Generation
1. Tourist Cen 2. Alligator M 3. Cultural Ma 4. Parent-chil 5. Rural Style 6. Hot Spring 7. Multi-funct 8. Mid-lake Pa 9. Cruise Ship 10.Forest Hote 11.Botanical M 12.Viewing Pla 13.Viewing Pla 14.Parking Lot
From the Highest to the Lowest of the Site
Rich Topo Experience Fit With Programs
ntre Museum arket ld Park Hotel Hotel tion Centre avilion p Terminal el Museum atforms atforms t
Master Plan
Aerial View of Tow Layers – Tourist Service Facilities and Ecological Sen
Sensor Control Center Area of Forest
Ecological Sensor S
Consultation Parking Lot Entrance Toilet Hot Spring Hotel First Aid Museum Restaurant
Land Type
Tour Route
nsor Distribution
Sensor Control Center Area of Forest
Sensor Control Center Area of Alligator's Habitat
Station
Sensor Distribution
Vegetation
Ecotourism Experence – Low Disturbance Tourism In order not to affect the normal life of Chinese alligators, all Chinese alligators breed in wetlands, not in zoos. For better science education and a better travel experience for tourists, the cameras on weather stations and drones can take photos and live videos on the road, in the air or even underwater. Visitors can observe alligators up close through AR and VR devices. At the same time, the sky plank also allows visitors to experience the fun of safari in the alligator habitat.
Data Collection with Sensor Station
Live Broadcast by Unmanned Vehicles
Firsthand Experience on the Overhead Corridor
Perspective Section of Chinese Alligator Habitat Area
A Design_Beta for Social Equity [ Park Distribution Analysis and Optimization Proposal of Yancheng ] Type: National Student Research Training Program (N-SRTP) Insctructor: Associate Professor Conghui Zhou Location: Yanchen, China Time: March 2018 - June 2020 Type: Collaboration Work Role: Team Leader Specific Contribution: Data collection and analysis, proposal, evaluation Contributor: Ziyue Liu, Mengjie Cui, Zhijie Wang, Yanwen Xue As Chinese cities enter the post-industrial era, urban planning will focus on more detailed issues. The distribution of urban parks is one aspect of concern. In the field of social sciences, the Gini coefficient is often used to measure fairness. This analysis refers to the Gini Index analysis method, and proposes the Green Gini Index to measure the fairness of park distribution. At the same time, we also pay attention to the different needs of people of different ages for the park.
Introduction – Optimization Goal and Park Classification Background According to Yancheng 2035 green space planning, by 2035, the relevant indicators of Yancheng Park, including coverage rate and per capita area, should meet the requirements of China's national garden city. Our research team was invited by Yancheng Planning Bureau to analyze the current situation of Yancheng green space and give guidance.
Location
China
Jiangsu
Yancheng
Stakeholders NDRC : The per capita green area should be more than 4m� . Yanchen Government : 300m buffer of all residential land should cover park.
Consultant team : Pay attention to the balance of distribution.
Optimization Goal Insufficience of park Imbalance Distribution Sufficience and Equity
Current Distribution of Park in Centre of Yanchen City Range of Centre of Yanchen City
COmprehensive Pa
ark
Park classification standard Yandu Park
Qintinhu Park
Chuanchanghe Park
Community Park
Mini-Park
Comprehensive Park (>Area>10ha)
Community Park
(10ha>Area>1ha)
Mini-park (1ha>Area>0.1ha)
Framework – Analysis, Optimization and Evaluation Strategy Aspect
Analysis
Population of each community
Generation Structure
Demand Analysis Frequency and duration
Demand Index
Demand-Supply Analysis Residential land distribution
Supply of pa of each com
Supply Analysis 300m buffer zone of parks
Current Park Layout Positive Factors
Point of interest
Raster of POI density
SLow traffic system
Raster of road density
TUD people data
Raster of people density
Current park
Park spatial gravity model
Potential Evaluation
Negative Factors Construction land
Result
Demand of park area of each community
Evaluation
Demand degree enaluation
For Social Equity: Green Gini Index
ark area mmunity
For Spatial Distribution: Park Cover Rate Positive evaluation
Park Development Suitibility
Proposal of Park Supply
For Total Area: Sufficient Community Negative evaluationl
Potential degree evaluation
Demand - Supply Analysis
0
50,000
100,000
150,000
200,000
Communi 海龙路社区 沿河社区 西苑社区 盐马路社区 北城路社区 幸福路社区 越河路社区 东河村 城西村 先锋社区 盐海社区 杨坝居民委员会 旭日居民委员会 金水湾社区 裕新社区居委会 何桥村民委员会 宝才村民委员会 吴杨居民委员会 新洋社区 圩洋村民委员会 袁庄村 跃马村民委员会 孙吴居民委员会 合心村民委员会 健仁村民委员会 正丰村民委员会 东滩村民委员会 合心社区 伍东村民委员会 兴民村民委员会 县前路社区 莲花路社区 剧场路社区 新街社区 朱庄村民委员会 东升居民委员会 三墩社区 新墩社区 聚亨社区 童家沟社区 新丰社区 中舍村民委员会 繁荣居民委员会 洋桥居民委员会 民主居民委员会 亭湖经济开发区光荣居委会 亭湖经济开发区南映居委会 雨露社区 蔡尖社区 板桥社区 康欣社区 钱江社区 桥东社区 八十间社区 旭日社区 印汽社区 众想社区 东关社区 洋西社区 美丽居民委员会 苑北社区 海悦社区 城北社区 新河社区 声远路社区 大孙居民委员会 朝阳社区 儒学社区 盐湾村 城东社区 滩涂社区 耿伙村 兆泉居民委员会 新唐社区 盐南社区 新阳社区居委会 五星村 南苑社区 野丁村民委员会 健康路社区 通榆北村社区 洋中社区 东闸村 鹿鸣居委会 东闸社区 庆康社区 供电北村社区 雅和社区 悦河社区 解放桥社区 南新河社区 建新社区 双元路社区 东闸新村社区 盐电社区 福才社区居委会 亭湖经济开发区富康居委会 江动社区 方向居民委员会 凌桥社区 迎宾桥社区 大庆社区 育才社区 纺南社区 北闸村 大圣社区 海纯社区 娱乐社区居委会 文曲社区 阳光社区 东进社区 海嘉社区 兴城社区居委会 大星村 万胜社区居委会 毓龙公园社区 民富社区 益民居民委员会 亭湖经济开发区新丰居委会 新怡社区 新伙村民委员会 大洋村 东升新村社区 宝龙社区 亭湖经济开发区新民居委会 益丰社区 平湖社区 北港村 刘朋社区居委会 民航村民委员会 vv
We collected a total of 607 questionnaires online and offline to collect statistics on recreational behaviors of people of different ages, including the frequency of using parks and the duration of each use. And then calculate the demand index of each age group for the park.
C(G) =Coefficient of demand (Generation) D = Demand of park area F(G) = Frequency (Generation) T(G) =Time of duration (Generation)
Children (age 0-10) Frequency = 2.46 Times/week Duration =56 min/each time
Youth (age 10-30) Frequency = 1.64 Times/week Duration =59 min/each time
Middle age (age 30-65) Frequency = 2.84 Times/week Duration =66 min/each time
Old age (age 65+) Frequency = 5.50 Times/week Duration =83 min
Demand of park area Supply of park area (park area covered by residential 500m buffer) (by each community by different generation)
Children
Youth
Middle Age
Old Age
ity
a a)
Demand of park area by each residential land
Demand and supply analysis by each community
Community population and is seperated into each residential land according to area of each residential and demand of park area is calculated by each residential land’s population, considering different generations.
There are 14 communities whose parks area is sufficient, 7 communities whose park area is balance and 106 communities whose parks area is insufficient.
300m buffer area of park
Residential land covered by parks’ buffer
According to the Yanchen government and NDRC (National Development and Reform Commission), for better use, a important target of park is that residential land should be covered by 300m buffer of park.
Only 37.6% of residential land is covered by 300m buffer area of park and 62.4 of residential land is uncovered by the buffer area.
Potential Analysis POI Four diferent kinds of POI are selected, including parking lot, shop, bus stop and publi toilet, which are thought to have positive influence on people who want to visit parks, and point density analysis considers the points within 150m, in which distance the facilities can serve people better.
Point of interest
POI density
Pos i ti ve fa cto rs
Slow Traffic System Slow traffic system, according Chinese stander, includes third calss road and pavement. It is suitable for people walk alone and has higher accessibility. Line density considers slow traffic system within 150m, in which distance road can connect parks better.
Slow traffic system
Line density
TUD People Density TUD(Tecent User Data) collects location of people who are using Tencent’s App and it can show people’s distribution in some area. People density analysis considers data points within 150m.
Tencent user data
People density
Current Park Negat ive fa cto rs
The places nearby parks are less likely to add new park. The gravity model of park shows that, for better parks performance, the larger the park, or the closer it is to the park, the less likely it is to build new park.
Park distribution
Gravity model
Construction Land Construction land is the land which have occupied by building, facilities or will be occupied according to the Yanchen 2035 planning. These lands are less likely to build park.
Construction land
Rasterize
Park Development Suitability Generation : The demand-supply analysis and potential analysis were standardized separately and added together to calculate the park development suitability analysis. The higher the score, the higher the need for green space and the greater the potential for addition, the lower the score, the less the potential for addition.
Park Development Suitability
Demand Degree Evaluation
Potential Degree Evaluation
Proposal of Park Supply
New Supplied Park
Park DEvelopment Suitability Potential DEgree Evaluation Demand Degree Evaluation
Current Park Distribution
Evaluation In the centre of Yanchen City, building density is high and it is difficult to supply large park. Mini-park, and know as pocket park, is the main supplied parks because Mini-park is more flexible in these area. The higher the suitability, the more priority to supply new park. While on the outskirts of the centre, where building density is comparedly lower, community park can increase the park area more efficiently. After supplement, 3 indexes are used to evaluate the performance, including covered residential land rage, demand-supply analysis and green Gini Index.
Green Gini Index Before
After
Communities Example of Park Supply Existing Park Supplied Park
Entrance to the old community, with poor environment and little greenery, the park needs to improve its qualityand green Gini Index.
The space of corner is open, the traffic is convenient, and the current utilization rate is not high.
Rate of Covered Residential Land
By the entrance of the community, the elderly are playing chess on the street, lacking public space and facilities
Demand - Supply Analysis
Before
After
Before
After
Covered residential land
Covered residential land
Sufficient communities
Sufficient communities
Other Work - Historic Street Design Course: Academic Work - Fourth Grade Studio I Insctructor: Professor Xin Zheng, Professor Xiaojun Wang Location: Nanjing, China Time: Sep. - Nov. , 2019 Plan of 4m Elevation Type: Collaboration Work Role: Team Leader Contributor: Ziyue Liu
Plan of 8m Elevation
Mountain Garden
Cloud Street
Pe
Pier Plaza
Master Plan
Tea Field
Facade View Plan of 12m Elevation
Section View
First Floor Layout
eak Court
Second Floor Layout
Ancient Building & Structure Design – Peak Court
South Facade
Other Work - Micro Film : The Threshold of Dreams Role: Director, Editor Crew: Zirui Wang(Screenwriter), Chuhong Liao(Starring), Shi Pu(Editor), Zhengran He(Producer), Yunting Zhang (Cinematographer) Time: 2018 Type: Micor Film Award: First Prize, Micro Film Competition of Student Financial Assistance Agency of Jiangsu Province, 2018; First Prize, Southeast University Micro Film Competition, 2018 Plot: The film tells the story of poor student Zhang Qing who had to work hard and part-time when he first entered the campus. However, because they don't want to recognize that poor students are receiving school funding, they have set a threshold that is difficult to cross in their hearts, and they feel pressured to move forward. Finally, he finally crossed the threshold of his heart and applied for a grant.
Draft storyboard
Still
Still : Zhang Qing mother was afraid that he would not accept the soil and water(meaning that he was not used to the new place), and asked him to bring a pot of home soil.
Still. Zhang Qing distributes flyers outside the school alone for work-study purposes.
The design will be in beta again