ZHUANG YUANYUAN portfolio
TABLE OF CONTENTS /目录
1
PERSONAL INFORMATION /个人信息 MORPHOSYS design strategy for areas designated for eviction process / 伊斯坦布尔城中村建筑形态研究及解决方案
(DIA SS2013)
3
PERFORMANCE THEATER design strategy for ideal theater in budapest / 性能驱动化建筑-布达佩斯优化表演馆设计 (DIA SS2012)
13
SPACE GENERATED FOR EVICITION NEIGHBORHOOD case study in istanbul/ 土耳其棚户区城市更新空间探索 (DIA WS2012-2013)
21
THE SIGNATURE OF NATURE local culture museum in LinYi/ 城市签名-临沂自然文脉美术馆
27
(QDTU 2011)
VERTICAL APARTMENT design strategy for High-density residential lifestyle / 高密度生活空间的探索-竖向居住单元 NEUES BAUHAUSMUSEUM / 新包豪斯展览馆
(QDTU 2010)
33 37
(DIA WS2011-2012)
ELASTIC SPIDER NETWORK voronoi decomposition / 弹性蜘蛛网结构的空间探索及其演变
(DIA WS2011-2012)
41
GARDEN ATMOSPHERE/ 庭园气氛 (DIA SS2012)
43
TRAINING CETER / 职工培训中心
45
(QDTU 2010)
MINIMAL SURFACE / 最小曲面的张拉膜结构 (DIA WW2012-2013)
47
WOODEN STRUCTURE / 木构营造实验 (DIA SW2012)
49
TELL STORY WITH YOUR BODY (interface kinect)/ KINECT交互设计 MORPHOSYS PHYSICAL MODEL/ 物理实物模型的空间探索
(DIA WW2012-2013)
(DIA SS2013)
51 53
个人信息
教育背景 2011.09 —— 2013.08
姓名 出生年月 民族 籍贯 学历 外语水平
联系电话 邮箱
庄媛媛 1988.03 汉 山东临沂 建筑学硕士 英语熟练 韩语熟练 德语入门 +4915777709474(德国) lilian.zhuang333@gmail.com
学位 专业 毕业院校
建筑学硕士 建筑设计 Hochschule Anhalt University of Applied Sciences,Germany (安哈尔特应用技术大学,德国) 2006.09 —— 2011.08
学位 专业 毕业院校
建筑学学士 建筑设计 青岛理工大学 광운대학교(Kwangwon University /光云大学,韩国)
专业技能 三维建模软件 Rhino 3D + Grasshopper以及相关插件,Revit Architecture, 3D Max ,AutoCAD,SketchUp 渲染软件 V-ray for Rhino, V-ray for Sketchup ,Keyshot ,Artlantis,Lumion 图形处理以及其他软件 Photoshop,Illustrator ,InDesign,AfterEffects,Premier 负责,工作认真,有创造力,团队合作能力,行动力,学习能力,英语,韩语,基础德语,参数化,BIM
获奖情况 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
1
2013年毕业获得Hochschule Anhalt University of Applied Sciences(其研究生所在学校)授予的“STUDY BUDDY”称号。 2012年作品 “TRANSFORMANCE THEATER” 入围布达佩斯“PERFORMANCE -DRIVEN ARCHITECTURE”(性能驱动化建 筑)竞赛展览,并将于2013年3月于FUGA Gallery美术馆中展览。 2011年作品 “THE SIGNATURE OF THE NATURE”获得韩国光云大学优秀毕业生作品。 2009年获第十一届挑战杯全国课外科技竞赛山东省特等奖、国家三等奖; 2008-2009学年度因表现突出,获得国家励志奖学金; 2007-2009学年先后参加青岛理工大学科技创新基金项目“锚杆水平倾斜角测量装置的研发与应用”、 “地震动模拟加载台的研发与应用”等; 2009-2010学年,获得青岛理工大学优秀奖学金,青岛理工优秀学生; 2008-2009学年,获得青岛理工大学优秀学生标兵,优秀学生标兵奖学金; 2007-2008学年,多次获得思想品德奖学金,优秀学生奖学金,学习优秀奖学金; 2009-2010学年,分别获得青岛理工大学优秀学生标兵,优秀学生奖学金; 2008学年,获得青岛理工头脑奥林匹克创新大赛优秀奖; 2008年5月,获得青岛理工大学第五届结构设计大赛三等奖;
THE TABLE OF CONTENTS
PERSONAL INFORMATION
EDUCATION BACKGROUND Dates
Name Date of birth Nationality Gender Education Language(s) Telephone E-mail
Yuanyuan Zhuang 1988.03 China Female Master of Architecture( MArch) English Korean German Basic user +4915777709474(Germany) lilian.zhuang333@gmail.com
2011.09 —— 2013.08
Master of Architecture( MArch) Architecture Design Dessau Institute of Architecture Hochschule Anhalt University of Applied Sciences, Germany Dates 2006.09 —— 2011.08 Bachelor of Architecture( MArch) Architecture Design Qingdao Science and Engineering University ,China Kwangwon University,Korea
COMPUTER SKILLS 3D modeling and drafting software Rhino 3D + Grasshopper related plugins,Revit Architecture, 3D Max ,AutoCAD,Sketchup, Maya Render engines V-ray for Rhino, V-ray for Sketchup ,Keyshot ,Lumion Other software
Photoshop,Illustrator ,InDesign,AffterEffects,Premier
responsible,hard-working,creative,teamwork, learning ability, motivated, parameter,BIM
AWARDS 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
I was conferred an honorary title named "study buddy" by Hochschule Anhalt University of Applied Science in 2013. The project "transformace theater" was nominated by "Performance - driven Architecture" architecture design competition 2012 in Budapest, it will be exhibited in March of 2013. The project "signature of the nature" won the "Outstanding Graduation Project" prize of Kwangwon University in 2011. I won the "Outstanding Award of ShanDong Province" & "Third Prize of NationWide" prize in the eleventh Challenge Cup--technology competition. I won the "National Scholarship for Encouragement" prize in 2008 winter semester. I participated in "Scientific and Technological Innovation project" of QTU in 2007 & 2009. I won the "Outstanding Student" Scholarship & "Excellent Student" title in 2009 winter semester. I won the "Outstanding model student" Scholarship & title in 2008 winter semester. I won the "honorary scholarship", "Outstanding Student" & "Outstanding Academic Performance Scholarship" for several times in 2007 winter semester. I won the "Outstanding model student" Scholarship & "Outstanding Student " Scholarship in 2009 winter semester. I won the "Outstanding Award" of "QTU OM competition" in 2008 summer semester. I won the "third prize" of "The Fifth Structure Design Competition of QTU" in May 2008.
THE TABLE OF CONTENTS 2
MORPHOSYS design strategy for areas designated for eviction process thesis project DIA WS/2012-2013 studio master: Krassimir Krassitev second advisor: Alexander Kalachev The proposal is a desing strategy to improve conditions of contemporary lifestyles in areas designated for eviction. This is tested on historical site with valuable cultural heritage in Istanbul. I am creating a residential neighbourhood that integrates conditions for different income groups as the opposed to the current trends to segregate of residential communities. Using developers logic based on return of investment we are offering a stra tegy to benefit from the site in a more conscious and humaneway. We provide an interactive tool that tests how the emergence ofdifferent public spaces may affect the value of properties 3
MORPHOSYS design strategy for areas designated for eviction process
INTERACTIVE TOOL
GREENZONE
MARKET
KINDERGARDEN
As part of the strategy was to develop an interactive tool which developers would be able to create an economic scheme space area.This tool can help predict pricing of spce after fixing the public space,including space types ,amount of space ,space size ,space location ande etc. CONFIGURATION 6
CONFIGURATION 6
CONFIGURATION 6
CONFIGURATION 6
MORPHOSYS design strategy for areas designated for eviction process 4
STRCTURE GENERATION ON THE COMMUNITY LEVEL
Volumetrical representation of the location different income group on the site.One of the criteria for the tool was to reach the percentage difference between different income group / upper income group 25%,middle income group 32% and lower income group 43% / as far as an attempt was to create a mixed type of community on the site.
HOUSE VOLUME
5 MORPHOSYS design strategy for areas designated for eviction process
STRCTURE AVOID HOUSE VOLUME CONNECT ALL THE APPARTMENT
STRCTURE CONTROL LINE
HOUSE VOLUME ON THE SITE
STRCTURE CONTROL LINE
STRCTURE CONTROL LINE
STRCTURE CONTROL LINE ON THE SITE
STRCTURE VOLUME
STRCTURE CONFIGURATION
MORPHOSYS design strategy for areas designated for eviction process 6
SETTLEMENT SCHEME ON THE SITE
3D PRINTING AS CONSTRUCTION METHOD ON THE SITE
DEMOLISHING SITE IN PARTS
RECYCLING CONSTRUCTION WASTE
USING RECYCLING WASTE AS THE POWDER FOR CONSTRCUTION 7 MORPHOSYS design strategy for areas designated for eviction process
BUS STOP
GREENZONE
LANDMARK
GREENZONE
KINDERGARDEN
GREENZONE
GREENZONE
MARKET
KINDERGARDEN
BUS STOP
MORPHOSYS design strategy for areas designated for eviction process 8
The task was took up the challenge todevelop visionary prototypes for housing structures in the Istanbul,engaging the rich variety of topography-related, socio-economic andurban growth-related conditions this dynamic metropolis has to offer.Each group in our studio have concertrated their attention on the particular problem that we found more interesting for each of us. My project based on the dealing with eviction problem.Since Istanbul currently is under the transformation process the mass forsed eviction process started few years ago. The project was an investigation of eviction process in the Istanbul with an attempt how to build the strategy of dealing with this problem. As far as eviction process is more political, economical and social problem, the idea was first to explore the social question and find the posibility to bring it on the architectural level, to explore the posibility of using the social network as a base for the designing process. I worked with the social network 9 MORPHOSYS design strategy for areas designated for eviction process
as with a materials that apears on the place apropriate family location/position. I proposal is a desing strategy to improve conditions of contemporary lifestyles in areas designated for eviction. This is tested on historical site with valuable cultural heritage in Istanbul. I am creating a residential neighbourhood that integrates conditions for different income groups as the opposed to the current trends tosegregate of residential communities. Using developers logic based on return of investment we are offering a strategy to benefit from the site in a more conscious and humane way. We provide an interactive tool that tests how the emergence of different public spaces may affect the value of properties.
MORPHOSYS design strategy for areas designated for eviction process 10
By this project the space inside the strcture going to be sold,as far as interior design has own criteria of pricing caculation.it means that the interior design completely might be defined by the apartment owner. Here you can see the example of the interior design / aparment belong to the middle income group family.
APARTMENT PLAN ON THE LEVEL +6.300
APARTMENT PLAN ON THE LEVEL +9.300
11 MORPHOSYS design strategy for areas designated for eviction process
APARTMENT PLAN ON THE LEVEL +6.300
MORPHOSYS design strategy for areas designated for eviction process 12
PERFORMANCE THEATER design strategy for ideal theater in the pudapest thesis project DIA SS/2011-2012 studio master: Krassimir Krassitev 13 PERFORMANCE THEATER design strategy for ideal theater in budapest
PASSIVE amplify sound through direct sound using reflectors
assumption: 1.only specular reflection(for analysis)relative to texture and structure 2.the dimension of a room is much bigger than wave length,then anaylogy:light rays - options
Different performances require different stage forms, It is difficult to find a form of stage to suit all performances.After the analysis of different performances, I design corresponding stages. I also apply different location relationships between stage and audiences. I set optimal location for panel through acoustic analysis. These are the basic starting points of the design. It shows "performance driven design" and future trend of adaptive performance spaces.
JAGZAW 拼图
STAGE 舞台
SEATING 座位
ACOUSTIC CEILING 声学
PERFORMANCE THEATER design strategy for ideal theater in budapest 14
1.OPENING MODEL
15 PERFORMANCE THEATER design strategy for ideal theater in budapest
2.OPEN & CLOSE MODEL
3.CLOSING MODEL
CONFIGURATION 1
CONFIGURATION 2
CEILING PLAN STRUTURE DETAIL
ACOUSTICS STRATEGIES PASSIVE: amplify sound through direct sound using reflectors assumption: 1.only specular reflection(for analysis)relative to texture and structure 2.the dimension of a room is much bigger than wave length, then analogy:light rays - options Law of reflection:
THE DISTANCE BETWEEN PANEL AND SEATING BOWL 35m
STRUTURE DETAIL
0m
the distance to the stage
ECOTECT ACOUSTIC
ADAPTABILITY SURFACE 17 PERFORMANCE THEATER design strategy for ideal theater in budapest
/
建筑表皮的自适应性
Configuration1/ 平面形式 3 The stage is in the short side named end stage,this kind of form is on the speech oriented. 舞台的位置位于短边,这是主要适用于演讲类的舞台形式。
Configuration2/ 平面形式 3 The stage is in the long side named transverse stage,this kind of form is on the drama oriented. 舞台的位置位于长边,这是主要适用于戏剧类的舞台形式。
Configuration3/ 平面形式 3 The stage is in the center named theatre in the round,this kind of form is heliodispaly oriented. 舞台的位置位于中间,这是主要适用于3D投影的舞台形式。
H d
19 PERFORMANCE THEATER design strategy for ideal theater in budapest
DESIGN PROCESS/设计过程
INTERDEPENCE 4 MORPHOSYS design strategy for areas designated CONCEPT for eviction process
ACOUSTIC ENVELOPE METHOD 1.FIRST REFLECTION:
2.GROUND CURVE
P + Q <= R + X where 8.5m < x <10.2 R max music <= 27.44m Rmax speech <= 17.15m intimacy if x= 8.5m,the room is more intimate clarity if the SL within 27.44m is bigger than the late reverberant energy(>27.44m)
3.ISCIDOMAL CURVE relation between distance and height
STAGE HEIGHT
SPACE GENERATION FOR EVICTION NEIGBORHOOD / case study in istanbul / studio project: DIA WS/2012-2013 studio master: Krassimir Krassitev second advisor: Alexander Kalachev This project foncuses on the processes eviction in istanbul.An attempt to understand the social aspect of this process has led to the study of relationships in neigborhood.in order to understand how this mechanism is working.How to locate the family inside the mixed type of community and try to correct the zoning of the street as a key elemment in the creation of social ties - it was the goal of this project. 21 SPACE GENERATION FOR EVICTION NEIGBORHOOD / case study in istanbul /
DEFINING THE POSIBLE LOCATION DIFFERENT INCOME
LOWER INCOME GROUP
MIDDLE INCOME GROUP
INCOME GROUP DIAGRAM
UPPER INCOME GROUP SPACE GENERATION FOR EVICTION NEIGBORHOOD / case study in istanbul / 22
The project decicated to the historical and cultural research,the conclusion of which was eventually presented as a data of family typology,economic indicators prcing of housing in the istanbul,religious relations between people. Social network i presented as material that fulfill the space.The appearance of the material was based on the algorithm according economical, religious and social indicators that influensed on the families location.The next step was to consider the relationship that exist within the same material,and to understand what may be happening at the intersection of these connection between different materials.
23 SPACE GENERATION FOR EVICTION NEIGBORHOOD / case study in istanbul /
Social network we presented as a material that fulfill the space.The appearance of the material was based on an algorithm according econmical, religious and social indicators that influensed on the families location.The next step was to consider the relationships that exist within the same material. and to understand what may be happening at the intersection of these connection between different materials(different social groups).As far as our desire to make the lower income group live next to the upper we had to build a program that will help to resolve the intersection of different classes and allow people to feel very comfortable on the street.Very simple rules,such as not to place the commercial functions at the intersection ,but to place there minarets or playgrounds will help people feel more comfortable. SPACE GENERATION FOR EVICTION NEIGBORHOOD / case study in istanbul /
24
25 SPACE GENERATION FOR EVICTION NEIGBORHOOD / case study in istanbul /
THE SIGNATURE OF NATURE / local culture museum in LinYi thesis project BACHELOR THESIS 2011 studio master: KIM,Soyeon 27 THE SIGNATURE OF NATURE / local culture museum in LinYi
site
shape
divide
pass 1
pass 7 pass 1
pass 2
pass 3
pass 4
pass 5
pass 65
pass 75
Speaking of Linyi, may be just a few people may know about it, but talking about YimengMountain , most people know more or less about it.LinYi is a small city,but it is famous for its montains.This is the start point for my project. After research the city's geographic, the program is looking for a fault in the horizontal and vertical direction, with the mountain terrain echo each other, space mutual jumbled, so as to form a sense of rhythm. Avoid the surrounding mountains blind corners, interspersed with mountain building, to fully integrate the building with the surrounding environment, the project pursuit of building a natural experience.
THE SIGNATURE OF NATURE / local culture museum in LinYi
28
29 THE SIGNATURE OF NATURE / local culture museum in LinYi
THE SIGNATURE OF NATURE / local culture museum in LinYi
30
31 THE SIGNATURE OF NATURE / local culture museum in LinYi
THE SIGNATURE OF NATURE / local culture museum in LinYi
32
VERTICAL APARTMENT design strategy for High-density residential lifestyle bachelor competition project 2010 studio master: KIM,Soyeon 33 VERTICAL APARTMENTdesign strategy for High-density residential lifestyle
SUBDIVISION PROCESS
Delaunay triangulation of the point set with trailers to the outer bounding triangle
Example circules showing the circum-circle property
GRASSHOPPER DEFINIATION
CONSTRUCTURE PROCESS
VERTICAL APARTMENTdesign strategy for High-density residential lifestyle 34
SOLID BOUNDARY
POINTCLOUD
35 VERTICAL APARTMENTdesign strategy for High-density residential lifestyle
POINTCLOUD CUBE
VORONOI CELLS
SUBRACT CELLS
REMAINDER CELL
EXAMPLE OF THE FUNCTION DISTRIBUTION INSIDE CELL
EXAMPLE OF THE FUNCTION DISTRIBUTION INSIDE CELL
VERTICAL APARTMENTdesign strategy for High-density residential lifestyle 36
NEUES BAUHAUSMUSEUM studio project DIA WS/2011-2012 studio master: Kister Scheithauer Grossev
The site of the project located in the German town Weimar, the challenge is to design a new art museum for Bauhau . The programs take full account of urban context, to make a dialogue between the new building and the urban environment . In order to better express bauhaus design concept, the project pursuit the simple volume block and space .On the one side of the site is the main street for the city,and on the other side of the site is a park,but this park is underground level.So how to deal with the entrance is a big problem.The light is conside as a main element in the entire design. 37 NEUES BAUHAUSMUSEUM
NEUES BAUHAUSMUSEUM 38
A SECTION / A剖面
C SECTION
39 NEUES BAUHAUSMUSEUM
/ C剖面
E SECTION
D SECTION
/ D剖面
/ E剖面
B SECTION / B剖面
PERSPECTIVE 1
PERSPECTIVE 2
PERSPECTIVE 3
PERSPECTIVE 4 PERSPECTIVE
PERSPECTIVE 5
PERSPECTIVE 6
Main site view 1S
tructure on the site view 1
Main site view 2S
tructure on the site view 2
ELASTIC SPIDER NETWORK elective group work DIA WS/2011-2012 elective master: Alexander Kalachev
Basic pattern
Pattern side view 1
Voronoi modification with curve attractors
Pattern side view 2
Pattern top view
Main site view 3
4 ELASTIC SPIDER NETWORK
Structure on the site view 3
Main site with structure side view
Perspective view 1 Main site top view
Main site with structure top view
Perspective view 1
Perspective view 2
Perspective view 2
Perspective view 3
Perspective view 3
ELASTIC SPIDER NETWORK 42
GARDEN ATMOSPHERE elective project DIA WS/2011-2012 elective master: Sam Chermayeff & Johanna Meyer-Grohbrugge
43 GARDEN ATMOSPHERE
TRAINING CENTER bachelor studio project DIA studio master: KIM,Soyeon 45 TRAINING CENTER
AXIS DEVELOPMENT 轴线的发展
LANDSCAPE 绿化
PLAN DEVELOPMENT 平面的发展
VOLUME ANALYSIS 空间体量
PUBLIC SPACE & PRIVATE SPACE 公共空间 & 私密空间
TRAINING CENTER
46
MINIMAL SURFACE elective project DIA elective studio master: Peter Rugor 47 MINIMAL SURFACE
formation of a catenoid
minimal surface between two planes
hyperbolic parabolid
change in surface
minimal surface between three plane
On Mathematics, minimal surface is (under the given boundary conditions)area of minimal surfaces.In the cable-membrane structure, minimal surface is a minimal surface energy with some mechanical characteristics.By using kangaroo soft ware on series based on the spatial form of the minimal surface. Software automatically test the different surface morphology to get minimal surface. Then according to the function and then fine-tune the final form. A function of relative fitness.Corresponding form is created, adapted to site.
MINIMAL SURFACE
48
SPACE AND VOLUME elective project DIA elective master: Weber Carl Constantine
The idea of this project is to improv sensibility for detail in 3 dimensional objects (this applies to houses as well as sculptures). The main purpose of this project is to explore the architectural design of the module design reasonable. Normally,when designing a skeleton structure it is sensible to reduce a skeleton structure it is sensible to reduce material. The volume and structural strength by using a minimum of material.This project will explor the oppsite strategy by creating a structured vertical volume.This choice of structure ele ments is combine close space and open space.Into this model i build the tower made by wood.I try to build the structure in a solid way,the openings in proportion to material could be very small.
这个方案的主要想法是提高一个三维 物体空间的光影细节,可以是一种居 住空间的探索也可以是雕刻艺术的探 索。这个训练的主要目的是探索模块 设计在建筑设计中的合理性和必然性 。首先,先使用最少的材料建立模型 的基本空间结构。然后用模块填满空 间,旨在使用最少的材料创造最丰富 的光影空间。在空间生成上主要着重 物体的竖向空间。我采用了木材料建 立这个模型,模型的主体是闭合空间 ,少数空间是开放空间。
49 SPACE AND VOLUME
module 2
module 1
module 2 module 3
module 3
SPACE AND VOLUME
50
TELL STORY WITH YOUR BODY (INTERFACE KINECT) bachelor studio project DIA2013 studio master: Alexander Kalachev 51 TELL STORY WITH YOUR BODY (INTERFACE KINECT)
TELL STORY WITH YOUR BODY (INTERFACE KINECT)
52
office building
MORPHOSYS PHYSICAL MODEL design strategy for areas designated for eviction process
54
MORPHOSYS PHYSICAL MODEL design strategy for areas designated for eviction process thesis project DIA WS/2012-2013 studio master: Krassimir Krassitev second advisor: Alexander Kalachev 55 MORPHOSYS PHYSICAL MODEL design strategy for areas designated for eviction process
13
16
13
16
PublicSpaceSize(m^2) 16
13
10
20
25
10
20
25
10
INTERACTIVE TOOL CONFIGURATION 1
16 13
13
16
16 13
16
PublicSpaceSize(m^2) 16 13 PublicSpaceSize(m^2) 16 PublicSpaceSize(m^2) PublicSpaceSize(m^2)
13
10
20 10
25 20
25
10
20 10
25 20
10 PublicSpaceSize(m^2) 20 25 10 PublicSpaceSize(m^2) 20 25 PublicSpaceSize(m^2) PublicSpaceSize(m^2)
25
INTERACTIVE INTERACTIVETOOL TOOL
12
MARKET MARKET MARKET MARKETRADIUS MARKET MARKETRADIUS
15 12
20 15
20
12
15 12
20 15
GREENZONE GREENZONE GREENZONE GREENZONERADIUS GREENZONE GREENZONERADIUS
20
12PublicSpaceSize(m^2) 15 20 12PublicSpaceSize(m^2) 15 20 PublicSpaceSize(m^2) PublicSpaceSize(m^2)
1
2 1
3 2
3
1
2 1
3 2
3
1
3 AmountofSpace 2 AmountofSpace 3 AmountofSpace AmountofSpace
2 1
KINDERGARDEN KINDERGARDEN KINDERGARDEN KINDERGARDENRADIUS KINDERGARDEN KINDERGARDENRADIUS
M3 on the site = 413 478 CONFIGURATION 3 CONFIGURATION M3 fot function =3 18 522
CONFIGURATION 2 CONFIGURATION 2
CON
CONFIGURATION 2
GREENZONERADIUS KINDERGARDENRADIUS UPPERINCOMEGROUP MIDDLEINCOMEGROUP LOWERINCOMEGROUP MAXIMUN /SPACE CALCULATION / / MARKETRADIUS MARKETRADIUS KINDERGARDENRADIUS UPPERINCOMEGROUP GREENZONERADIUS MIDDLEINCOMEGROUP LOWERINCOMEGROUP MAXIMUNFUNCTION FUNCTIONAMOUNT AMOUNT /SPACE CALCULATION MIDDLEINCOMEGROUP LOWERINCOMEGROUP UPPERINCOMEGROUP MIDDLEINCOMEGROUP LOWERINCOMEGROUP UPPERINCOMEGROUP
CONFIGURATION 1 CONFIGURATION 1
1
MARKET GRE MARKET GREE MARKETRADIUS GR MARKETRADIUS UPPERINCOMEGROUP GREE MID MIDDL UPPERINCOMEGROUP
MAXIMUN FUNCTION AMOUNT /SPACE CALCULATION /
13
PublicSpaceSize(m^2) 20 25
PublicSpaceSize(m^2)
PublicSpaceSize(m^2)
Amount of Markets = 0 Amount of GreenZone = 2 Amount of Kindergarden = 0
CONFIGURATION 4
M3 on the site = 413 478 M3 on the site = 413 478 M3 fot = 18 M3function on function the site ==522 410 507 M3 fot 18 522
Amount of Markets = 0 Amount of Markets = 0 Amount Amount of GreenZone =2 =1 of Markets Amount of GreenZone =2 AmountAmount of Kindergarden =0 =1 of GreenZone Amount of Kindergarden =0
M3 fot function = 21 493
CONFIGURATION 4 CONFIGURATION 4
M3 on t M3 M3 foto M3 M3
M3 f
CONFIG CO
Amount of Kindergarden = 1
CONFIGURATION CONFIGURATION5 1 CONFIGURATION 1
CON C
MAXIMUN FUNCTION AMOUNT / SITE = 144 000 m2, POINT NUM = 26 064, CONFIGURATION 1
16
13
16
13
PublicSpaceSize(m^2) 16
10
20
25
10
20
25
10
PublicSpaceSize(m^2) 20 25
12
15
20
12
15
IVE TOOL
NCTION AMOUNT /SPACE CALCULATION / CONFIGURATION 2
12PublicSpaceSize(m^2) 15 20
20
PublicSpaceSize(m^2)
PublicSpaceSize(m^2)
1
2
3
1
2
3
1
PublicSpaceSize(m^2)
MARKET GREENZONE KINDERGARDEN MARKET GREENZONE KINDERGARDEN MARKETRADIUS GREENZONERADIUS KINDERGARDENRADIUS MARKETRADIUS KINDERGARDENRADIUS UPPERINCOMEGROUP GREENZONERADIUS MIDDLEINCOMEGROUP LOWERINCOMEGROUP M3 on the site = 413 478 Amount of Markets = 0 MIDDLEINCOMEGROUP LOWERINCOMEGROUP UPPERINCOMEGROUP M3 on the site = 413 478 Amount of Markets = 0 M3 fot function = 18 522 Amount of GreenZone = 2 M3 fot function3= 18 522 Amount of GreenZone = 2 CONFIGURATION Amount of Kindergarden = 0 Amount of Kindergarden = 0 CONFIGURATION 4 CONFIGURATION 4
2
3 AmountofSpace
3
4
5
3
4
5
AmountofSpace
M3 onon the site = 410 507 M3 the site = 413 478 M3 on the site = 410 507 M3fot fotfunction function= =2118 522 M3 493 M3 fot function = 21 493 CONFIGURATION54 CONFIGURATION CONFIGURATION 5 CONFIGURATION 1
C
CONFIGURATION 2
3
4
5 AmountofSpace
1
2
3
1
2
3
1
2AmountofSpace 3
AmountofSpace
AmountofSpace
MARKET GREENZONE KINDERGARDEN MARKET GREENZONE KINDERGARDEN MARKETRADIUS GREENZONERADIUS KINDERGARDENRADIUS MARKETRADIUS GREENZONERADIUS KINDERGARDENRADIUS UPPERINCOMEGROUP MIDDLEINCOMEGROUP LOWERINCOMEGROUP M3 on 406 187 507 Amount of Markets =1 M3the on site the = site = 410 Amount of Markets =1 M3 onsite the=site = 897 406 187 Amount of Markets M3 on the 399 Amount of Markets =0 =1 MIDDLEINCOMEGROUP LOWERINCOMEGROUP UPPERINCOMEGROUP M3 on the site = 406 187 Amount of Markets = 1 M3 onfotthe site = 399 AmountofofGreenZone Markets = 0 M3function fot function 21 493 Amount of GreenZone =1 M3 function = 25897 813 Amount M3 fot = 25 = 813 Amount of GreenZone =1 M3 fot function = 32 103 Amount of GreenZone = 3 = 1 M3 fot function = 25 813 Amount of GreenZone = 1 M3 fot function = 32 103 Amount ofGroup= GreenZone == 3M2 Amount of Kindergarden =1 Amount of Kindergarden 2 Amount of Kindergarden =2 Poor Income 59 265 Amount of Kindergarden =1 AmountAmount of Kindergarden =2 Poor Income 59 265 M3 on the site = 399 M3 on the site = 384 of Markets =0 Amount ofGroup= Markets 2 M2 Amount of Kindergarden ==1 CONFIGURATION 5 897 CONFIGURATION 6 073 CONFIGURATION 6 Middle Income Group= 44 104 M2 CONFIGURATION Middle Income Group= 44= 104 M3 fot function =6 32 103 M3 fot function = 47 927 Amount of GreenZone = 3 Amount of GreenZone 3 M2 Upper Income Group= 34 456 M2 CONFIGURATION 3 CONFIGURATION 2 Upper Income Group= 34= 456 Amount of Kindergarden = 1 Amount of Kindergarden 1 M2 Poor Income Group= 59 265 M2 Poor Income Group= 58 839 M2 Middle Income Group= 44 104 M2 CONFIGURATION 3 Middle Income Group= 43 787 M2 CONFIGURATION 4 CONFIGURATION 3 CONFIGURATION 4 Upper Income Group= 34 456 M2 Upper Income Group= 34 208 M2
Amount ofofMarkets = 1= 0 Amount Markets Amount of Markets = 1 Amountofof GreenZone Amount GreenZone = 1= 2 Amount of GreenZone = 1 AmountofofKindergarden Kindergarden Amount = 1= 0 Amount of Kindergarden = 1
M3 on M3 M3 fot M3
M3 o M3 f
MAXIMUN FUNCTION / SITE = 144 000 m2, NUM = 26 064, POINT VALUE = 27M2/ MAXIMUN FUNCTIONAMOUNT AMOUNT / SITE = 144 000 m2,POINT POINT NUM = 26 064, POINT VALUE = 27M2/ CONFIGURATION 1 CONFIGURATION 2 CONFIGURATION 1
CONFIGURATION 2
CONFIGURATION 4
C
CONFIGURATION 5
C
EVALUATION CRITERIA /calculation for connectivity and circularity for site
3 478 8 522
Amount of Markets = 0 Amount of GreenZone = 2 Amount of Kindergarden = 0
M3 on the site = 410 507 M3 fot function = 21 493 CONFIGURATION 5
Amount of Markets = 1 Amount of GreenZone = 1 Amount of Kindergarden = 1
M3 on the site = 406 187 M3 fot function = 25 813 M3 on the site = 399 897 M3 on the site = 399 897 M3 fot function = 32 103 M3 fot function 6= 32 103 CONFIGURATION
Amount of Markets = 1 Amount of GreenZone = 1 Amount of Markets = 0 Amount of Markets Amount of Kindergarden = 2= 0 Amount of GreenZone = 3 Amount of GreenZone = 3 Amount of Kindergarden = 1 Poor Amount Income Group= 59 265 M2 of Kindergarden =1 Poor Income Group= 59 265 M2 Middle Income Group= 44 104 M2 Middle Income Group= 44 104 M2 Upper Income Group= 34 456 M2 Upper Income Group= 34 456 M2
M3 on the site = 399 897
M3on fotthe function = 32 103 M3 site = 384 073 M3 on the site = 384 073 M3 fot function = 47 927 M3 fot function = 47 927
NCTION AMOUNT / SITE = 144 000 m2, POINT NUM = 26 064, POINT VALUE = 27M2/
N1
CONFIGURATION 3
CONFIGURATION 2
CONFIGURATION 4 CONFIGURATION 4
CONFIGURATION 4
Amount of Markets = 0
Amount =3 AmountofofGreenZone Markets = 2 of Markets = 2 M2 Poor Amount Income Group= 59 265 Amount =1 Amountof ofKindergarden GreenZone = 3 Amount of GreenZone 3 M2 Middle Income Group= 44 = 104 Amount of Kindergarden = 1 Amount ofGroup= Kindergarden 1 M2 Poor Income 58 839 M2 Upper Income Group= 34 = 456 Poor Income Group= 58 839 M2 Middle Income Group= 43 787 M2 Middle Income Group= 43 787 M2 Upper Income Group= 34 208 M2 Upper Income Group= 34 208 M2
M3 on the site = 384 073
M3 on the site = 378 404 M3 fot function = 53 596
Amount of Markets = 2
M3 function 47 927 M3 on thefotsite = 378 = 404 M3 on the site = 378 404 M3 fot function = 53 596 M3 fot function = 53 596
Amount of GreenZone =3 Amount of Markets =1 Amount of Markets = 1 1 M2 Poor Income Group= Amount of Kindergarden Amount of GreenZone = 4 58=839 AmountIncome of GreenZone =4 Middle Group= Amount of Kindergarden = 2 43 787 M2 Amount ofIncome Kindergarden = M2 2 208 M2 Poor Income Group= 58 219 Upper Group= Poor Income Group= 5834 219 M2 Middle Income Group= 60 927 M2 Middle Income Group= 60 927 M2 Upper Income Group= 33 848 M2 CONFIGURATION 5 Upper Income Group= 33 57 848318 M2M2 Poor Income Group= Middle Income Group= 70 648 M2 CONFIGURATION 6 Upper Income Group= 856 M2 CONFIGURATION 6
CONFIGURATION 5 CONFIGURATION 5
EVALUATION CRITERIA /calculation forfor connectivity and circularity forfor site EVALUATION CRITERIA /calculation connectivity and circularity site
CONFIGURATION 6
upper income upper income
Amount of Markets = 1 Amount of GreenZone = 4
Poor Income Group= 58 219 Amount of Kindergarden = 2 M2 Middle Income Group= 60 927 M2 Poor Income Group= 57 318 M2 Income Group= 57 318 UpperPoor Income Group= 33 848 M2 M2 Middle Income Group= 70 648 M2 Middle Income Group= 70 648 M2 Upper Income Group= 856 M2 UpperGroup= Income 55 Group= 856 M2 Poor Income 050 M2
Middle Income Group= 40 967 M2 Upper Income Group= 32 006 M2
middle income middle income
lower income lower income
up
CONFIGURATION 1 CONFIGURATION 1 upper income
middle income
lower income
upper income
CONFIG CON middle income
lower income
uppe
EVALUATION CRITERIA /calculation for second lever street CONFIGURATION 1
9 897 2 103
Amount of Markets = 0 Amount of GreenZone = 3 Amount of Kindergarden = 1 Poor Income Group= 59 265 M2 Middle Income Group= 44 104 M2 Upper Income Group= 34 456 M2
N4
M3 on the site = 384 073 M3 fot function = 47 927
Amount of Markets = 2 Amount of GreenZone = 3 Amount of Kindergarden = 1 Poor Income Group= 58 839 M2 Middle Income Group= 43 787 M2 Upper Income Group= 34 208 M2
CONFIGURATION 5
CRITERIA /calculation for connectivity and circularity for site
M3 on the site = 378 404 M3 fot function = 53 596
CONFIGURATION 6
Amount of Markets = 1 Amount of GreenZone = 4 Amount of Kindergarden = 2 Poor Income Group= 58 219 M2 Middle Income Group= 60 927 M2 Poor Income Group= 57 318 M2 Income Group= 57 318 UpperPoor Income Group= 33 848 M2 M2 Middle Income Group= 70 648 M2 Middle Income Group= 70 648 M2 Upper Income Group= 856 M2 Upper Income Group= 856 M2
upper income
upper income upper income
middle income middle income
lower income lower income
upper income upper income
middle income
middle income middle income
lower income
lower income lower income
EVALUATION CRITERIA /calculation forfor second lever street EVALUATION CRITERIA /calculation second lever street CONFIGURATION 1 CONFIGURATION 2 CONFIGURATION 1
Poor Income Group= 55 050 M2 Middle Income Group= 40 967 M2 Upper Income Group= 32M2 006 M2 Poor Income Group= 54 237 Poor Income Group= 54 237 M2 Middle Income Group= 40 362 M2 Middle Income Group= 40 362 M2 Upper Income Group= 31 533 M2 Upper Income Group= 31 533 M2
Poor Income Group= 57 318 M2 Middle Income Group= 70 648 M2 Poor Income Group= 55 050 M2 856 M2 Upper Income Poor Income Group=Group= 55 050 M2 Middle Income Group= 40 967 M2 Middle Income Group= 40 967 M2 Upper Income Group= 32 006 M2 Upper Income Group= 32 006 M2
CONFIGURATION 1
upper income
middle income middle income
CONFIGURATION 3 upper income CONFIGURATION 3
CONFIGURATION 2
middle income
CONFIGURATION 2
upper income upper income
CONFIGU
CONFIGURATION 2
Lines: 22; Knots: 24;
Poor Income Group= 54 237 M2 Middle Income Group= 40 362 M2 Upper Income Group= 31 533 M2
lower income
upper income
CONFIGURATION upper income 3 Lines: upper 22; income Lines: 22; Knots: 24; Knots: 24;
lower income lower income
middle income
lower income
CONFIGURATION upper income 4 4 CONFIGURATION
Connectivity: 0.33; Circularity: 0.069;
CONFIGURATION 4
Lines: 20; Knots: 23;
middle income
lower income
middle income middle income
lower income lower income
up
Connectivity: 0.33; Connectivity: 0.33; Circularity: 0.069; Circularity: 0.069;
middle income
Lines L Knots K
CONFIG uppe CON
lower income
Connectivity: 0.32; Circularity: 0.049;
Lines Knot
CONFIGURATION 5
CONFIGU
FINAL AFTER CALCULATION RESULT Poor Income Group= 55 050 M2 Middle Income Group= 40 967 M2 Upper Income Group= 32 006 M2
Poor Income Group= 57 318 M2 Middle Income Group= 70 648 M2 Upper Income Group= 856 M2
Poor Income Group= 54 237 M2 Middle Income Group= 40 362 M2 Upper Income Group= 31 533 M2
MORPHOSYS PHYSICAL MODEL design strategy for areas designated for eviction process middle income
lower income
upper income
middle income
lower income
upper income
middle income
lower income
upper income
Lines: 22;
middle income
lower income
Connectivity: 0.33;
upper income
Lines: 20;
middle income
lower income
Connectivity: 0.32;
upper income
Lines: 26;
middle income
lower income
Connectivity: 0.34;
56
I would like to dedicated this portfolio to my parents 谨以此作品集献给我最爱的父母
庄媛媛
YuanyuanZhuang
lilian.zhuang333@gmail.com