2008-2015
PORTFOLIO SAMPLES ENCHENG SHENG
“SCI-ARC Merit Graduate Thesis Awared”In recognition of an outstanding graduate thesis project
POCHEISM: SEEING UNSEEN Westwood City Monastery and Community High-Rise Building
SCI-Arc Graduate Thesis 2015 Fall Instructor: Eric Owen Moss
Project: poche’, city monastery, community, library, hall, inside outside site: Westwood UCLA, Los Angeles
“We fix our eyes not on what is seen, but on what is unseen.” –2 Corinthians 4:18
To reveal the relationship between hidden spaces and approach to the visible and the invisible of poche’, the section drawing would be a way to differentiate the exterior to the interior surfaces. Poche’s given physical meaning forms, rather than simply serves, as the solid area in architectural drawing. As we take Cluny monastery as an example, it makes poche’ evident for perception. The perimeter of Cluny forms the boundary of programmatic functions, creating a physical relationship of forms. This approach does not represent the historical monastery in today’s city. Instead, it displays the conceptual poche’ as the “unseen” and becomes the perceptual poche’ as the “seen,” achieving mutual shapes of the exterior and the interior. Individual objects, which remain enclosed, keep the distance between each other in order to demonstrate outside of the inside objects and inside of the outside mass as poche’. By applying pixels figuration to each individual objects, the outer boundary of the interior are shaped, creating layers of interiority that each has different characteristics. Then, through architectural excavation, the unseen poche’ between spaces can be perceived.
Explode Program
Theater Plan
Poche’ Section
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
WITHDRAWN BUILDING Santa Monica Mixed-Use Commercial and Residential Complex Building
SCI-Arc Studio 2013 Spring Instructor: Marcelo Spina
The project challenge the compositional architectural assumptions and contemporary digital methodologies, which promote smoothing and indiscriminate continuity throughout the whole in order to redefine the current status of the icon. the project focus on the monolithicity of architecture by a series of masses and the apertures hiding in the urban context. By the means of planar projection in orthographic view with the choreographed drawing in material textures. The window create from the planar projection is literally incidental to the form which means that the window shapes will be extruded throughout the mass of the building. There is a relationship between windows and building form. The strategy of massing is to define the sculptural cutting operation simultaneously engaging with planar projection. Thus, the window become incident to the shape and creating the architecture contingency. Massing Diagram
Residential
Culture Center
Office
Hotel
Individual Massing
Envelope
Collaborate Work
Project: Mixed use, Hotel, Residential, Retail, Cultural Center Site: Santa Monica, Los Angeles
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
MATERIALIZED AMBIGUITY World Health Organization (WHO) New Extention Building
SCI-Arc Studio 2014 Fall
Individual Work
Instructor: Elena Maniferdini
Project: Extention building, political envelope, office, Conference, Archives Site: Geneva, Switzerland
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
The ambivalent painting has ability to produce the new model of faciality through the projection techniques, challenging the perception of envelope between inside and outside. The outside of envelope has multi-directional stripe patterns with related coloration using the technique of planar projection from the three different directions around the site. Moreover, the geometry of the mass is cutted by the three of one point perspective view as well which allows each faรงade relate to each other and allow the pattern from the one face correspond or bleed to the other face. The composition of interior is to create the two large open spaces which allows the design texture applies onto the inside surface. In order to relate to the illusionistic optical effect, the technique is to use the one point projection from the collagelike but pixelated coloration drawing on the surface.
Form from One Point Projection
Physical Model
FLOWERS AND FLESH Vienna Single Family House
SCI-Arc Studio 2015 Spring
Individual Work
Instructor: Hernan Diaz Alonso, Ivan Bernal
This project is single family house that next to the Secession building in Vienna. The house, independent and free standing by itself, is an attachment to the secession building. The envelope acts a heavy container that opening to the site and building, opposites to the secession which is seamless and solid. The façade faces to the secession, park and sky to collapse itself creating the apertures and balcony. The butchery mass alludes the chipped flowers and meat that peels the bones and fat from internal flesh. It could allow a non-distinct interaction between the exterior and interior.The bottom of the mass maintains the minimum area to touch the ground in order to create the environment from the back of park to the house providing the recreation area for pedestrian. The lower level of house where contains the working studio for the maker, providing all kind of instrument and tool for making. The middle level as a maker’s living space where has a view toward the interior exhibition of secession inspiring the idea from the exhibition theme. The top level is private bathroom for family which have skylights from the top of roof.
Project: Animation, Single Family house, Exhibition, Secession Building Site: Vienna, Austria
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
FRACTILE MOBILITY
Tamkang Undergraduate Studio 2006 Summer
Individual Work
Instructor: Heng-Cheng Guo Architect (SCI-Arc Alumni)
Automobile and Mobile Concept Store
Project: Reintegration of Temproary Urban Void, Fractals Site: Capital Taipei, Taiwan
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
The fractal can be used in architecture in both little and large scale such as a single building and an urban growth. Two characteristics of the fractal in little scale is the building’s self-similarity and box-counting dimension. The aim of my project is to present how the fractal geometry is to define a new architectural model and an aesthetic in different ways. In this temporary urban void infilling project, the advisor guides us to apply a special concept which is called the fractal to deal with the urban issue. The fractal can be used in architecture in both little and large scale such as a single building and an urban growth. Two characteristics of the fractal in little scale is the building’s self-similarity and box-counting dimension. I tried to figure out how to apply the fractal mechanism on a single building even more in urban issue.
Ventilation Roof
13 10
5
14
C
B
6
3
1
4
2
7
Shade Wall
A 11
9
8
12
Ground Floor Plan 0
5
15
Slabs
Structure System
Physical Model
“Taiwan Region Honorable Mention Awared�
Urban Collective Housing Competition, QuanKun Culture Foundation, Taipei, Taiwan
CLUSTER URBANISM vertical neighborhood New Twianese Congregate Dwelling House
Tamkang UndergraduateThesis 2008 Summer Instructor: Hsin-Ping Lin Architect
Project: Cluster Urban Design & Architecture, Urban Cummunity Site: Old Town Taipei, Taiwan
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
In a city, if the speed of renewal and upgrade of urban architecture cannot follow the variation of times and economy, the city may encounter the fate of weakening and obsolete. In the situation of real estate in current Taiwan, the proportion of collection housing type is [more than other types of building. Moreover, current city has built numerous high-rise housings in order to pursue the benefits of economy. So, they sacrifice a lot of characters from climate conditions of Taiwan and urban context, causing the absence of community and alienation which strengthens the hierarchy. Admittedly, there is a question: why we tend to say nothing when we meet our neighbors? Why the best place for leisure is far away from our home instead of our backyard? Can we have comfortable neighborhood in the city? In my opinion, new models are needed.
Program Organization
Multiple Residential Unit
Vertical Core and Residential Terraces
Circulation
Residential Terraces
Inbetween Tunnel
Public Street
Public Street
Physical Detail Model
CONTINUING GARDEN New Taren Girl’s High School Library and New Stuent Building
J.M.Lin Architects Association (AIA)
Team Work
Architects: J.M.Lin Architect, Jia-Cong Lin Architect
Phase Undertaken: design development, detail design, construction document, client meeting, materials, water drainage Site: Capital Taipei, Taiwan
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
This project is to creating the different level of landscapes in the all field of student’s daily life. The greenland is sorrounding on the site providing natural resource such as light, air and water to nourish the living land. the idea is to see the school as an exuberant tree standing on the vally of mountain which root stretching to different plateforms and show the hierarchy of inside and outside.
Elevator Longitudinal Section
Elevator Plan
Slope Section
BRANCH ON THE EARTH Taichung gateway park including Taiwan tower and culture center
Competition Work at J.M.Lin Architects 2010 Team Work Architects: J.M.Lin Architect (AIA)
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com
Phase Undertaken: design development, diagram drawing, photoshop
PHONE: 323.532.1895
The development of Taichung Gateway park and City will complete the north-west city park of Taichung City, allowing with more active networks and integrity in the region and emphasizing on the coexistence of nartural and human spirit. Functional buildings with comfortable open spaces in the park will become the model to be followed by major cities in Taiwan. See the site as a huge chunk of dired wood, the idea of Taichung Gateway Park is trying to put the new branchs on the old bark. The aim is to find the energy to revitalize and turn it into platform for city activities and divelopment.
Landscape Plan Ecology
Urban Voyage
New Branchs Diagram
pathway
Media
Exercise
Education
Activities Running track greenway Floating bridges Underground waste treatment center Visitors Slope Platform
star track pathway
Raised observation deck
waterfall gateway
Campus museum of wind
Running greenway
Exhibition
MILKEN COMMUNITY SCHOOL New Science & Technology Institute and Architecture & Design Institute
Lehrer Architects (FAIA), 2014 Architects: Nerin Kadribegovic (AIA)
Phase Undertaken: 3d Modeling, Rendering, Photoshoping Site: Los Angeles
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
Architecture & Design Institute
Lower Plaza
Entry Plaza
Science & Technology Terrace
UCLA RECREATION CENTER Sunset Canyon visitor center and swimming pool
Lehrer Architects (FAIA), 2014 Architects: Michael B. Lehrer, Roberto Sheinberg
Phase Undertaken: 3d Modeling, Rendering, Diagram Analysis Site: Westwood, Los Angeles
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
Observation Tower
Information Center
Drink Shop
Primary Tower
Stair Deck
Learing Center
CHANGEABLE AXIS Siingle Family Flat in Multi-Family Apartment
Company: Studio APL, 2010.02, Taipei, Taiwan Project Leader: Pa Li
Phase Undertaken: interior design, detail design, 3D model, construction Site: Li House, Wenshan, Taipei City, Taiwan
This is a single family flat in a apartment on a mountain slop. In this project, the initial plan is narrow and lack of light surrounding with green. The aim is to creating as much as natural light and allowing green view into the whole area. We open up the front and back roooms becoming study, kitchen, dining and living in an one axis, and also open the space to the other axis becoming more specious living room. we try to create a movable elements such as walls and TV furniture in the space in order to allowing the flexible use.
P-03
P-03 PLAN N/A
ELEVATION N/A
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
LIGHTING ELEVATOR Siingle Family House in Community
Company: Studio APL, 2009.11, Taipei, Taiwan Project Leader: Pa Li
Phase Undertaken: interior design, detail design, physical model, construction documents Site: Lin House, Xizhi, Taipei City, Taiwan
This is a single family house in a community. In this project, the initial plan is solid and lack of light on its circulation. The aim is to creating as much as natural light and allowing natural elements shch wind and sun into the whole area. We break down the solid stairs from underground living room to the top of private bedroom, and also open the room between each stair becoming a light one allowing the natural light coming into the dark and deep area.
S-01
P-01
P-01 PLAN N/A
P-02
P-02 PLAN N/A
P-03
P-03 PLAN N/A
S-01 SECTION N/A
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
DESIGN DEVELOPMENT Santa Monica Emerson College
SCI-Arc 2014 Spring
Instructor: Herwig Baumgartner, Tom Wiscombe
The Design Documents seminar tried to find a new way to develope the project we have from previous project at the detail design phase through the 10 foot by 10 foot megadrawing that presenting different scales of architectural components. the pealing and chopping away of outer skins is a new techniques were used in order to represent each component between inner and outer of the building, and finding a better connection between joints with each components. In terms of the characteristics of our project building, we involved macro and micro chunks of different scales into our magadrawing to convey the relationship of the connection. The envelope is a conspicuous characteristic of the project so we tried the various ways by using multiple techniques to represent the idea of the 3D printed panels of the envelope and giving the coloration to each panes based on the ides of texture map, finally, becoming 3D printable and buildable.
3D Printing Panelization
Basic Texture Pattern
Structure System
Colorization pattern
Collaborate Work
Project: Emerson College Design Documents Site: Santa Monica, Los Angeles
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
BUILDING ANALYSIS Santa Monica Single Family House
SCI-Arc Acvanced Building System 2014 Spring
Collaborate Work
Instructor: HIlaria Mazzolini, Jeff Landret
The average temperature of Santa Monica is highter than other city because the latitude of Santa Monica is 34.02 degree north. And the distance from ocean also reflects the temperature. Santa Monica is closed to pacific ocean which make the temperature of this area more cooler. The mimium of thte humidity in Santa Monica is lower than other city, expecially on January. And the average of the humidity in Santa Monica is more dry. The cloud cover reflects the heat of the temperature. The average of the cloud in Santa Monica is less than other city. Moreover, there doesn’t have the maximum of the cloud cover in Santa Monica, but the minium of the cloud cover occurs on April and November. The chart shows that the solar angle on december 21 in the winter during the spring, also showing that there is east 55 degree bearing angle and 9 degree altitude angle in Santa Monica.
Project: Daylight Analysis, Radiation Effect Adjust by Window Type Site: Santa Monica, Los Angeles
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
Revised model (final model)
TEMPERATURE
CLOUD COVER
44’
HUMIDITY
-
SOLAR ANGLES
Mid-iteration model In order to reduce the peak value, we try to add some shade for vertical windows and skylights, also we close some horizontal windows, and it turns out minimize the peak value
40’
12’ WIND WHEEL
20’
In order to satisfy the requirements, we continue to cover windows by shade, it gets much better, but there are two windows that we have almost cover and block the whole area and it still has very high peal value
Before modifications (shading) window type
12’
Glass Type Iterations
summer solstice Glass Type 1: Double Glazed Low E_AlumFrame
9am
DoubleGlazed_LowE_AlumFrame Vissible Light UV Trans 42% U-Values Trans 61% Reflect Out 9% Reflect In 11% SHGC 0.7500
9am
winter solstice
9am
SHGC=0.75 U-Value=0.42 VT=0.6
noon daylight factor wall (vertical) daylight factor 4.65% SHGC 0.75
Glass Type 2: Double Glazed Low E_AlumFrame
noon
noon
3pm
3pm
SHGC=0.45 U-Value=0.42 VT=0.6
daylight factor ground (horizontal) daylight factor 5.3% SHGC 0.75
Compare with 1 and 2, in order to let them has the same daylight factor, 2 needs more facade windows to let light come through Glass Type 3: Double Glazed Low E_AlumFrame
3pm
SHGC=0.15 U-Value=0.42 VT=0.6
daylight factor mezzanine (horizontal) daylight factor 6.54% SHGC 0.75
Compare with 1 and 3, in order to let them has the same daylight factor, 3 also needs more facade windows to let light come through Compare 2 and 3, they have the same shape and window conditions, the analysis also show they have almost the same results
summer solstice
winter solstice
AUTONOMOUS ALGORITHM
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com
Project: algorithmic systems, baroque chapels, processing, agent simulation behaviors
SCI-Arc Visual Study 2014 Summer Instructor: Casey Rehm
PHONE: 323.532.1895
This project developed techniques which conflated the production complex scripted machines with explicitly modeled and analysed figures to enforce the notion of the autonomous machine as an extension and amplifier of the designers mind. The project try to codify “incidental� geometric and color relationships in precedent paintings into multi-agent simulation behaviors. These systems were evaluated towards the effectiveness in the production of 2D graphic compositions which exposed eccentric stylistic traits while engaging issues of emergent composition. The final project extended the systems into three dimensional form generators which engaged simultaneously developed explicit figures whose geometries derived from an understanding of the relationship between interior and exterior envelopes in baroque chapels. We attempted to use these systems to destabilize the thickness of the poche in their explicit figures and imply envelope and spatial organization through an accumulation of ornamental density, while blurring proto-architectural hierarchies through non-indexical reapplications of their 2D graphic generating systems.
Central Lines
Circle Central Lines
Circle
Sant' Agnese in Agone, Piazza Navona, Rome,
Sant' Agnese in Agone, Piazza Navona, Rome,
Surrounding
Surrounding
Physical Model
Trajectory
Sant' Agnese in Agone-Detail Corner
Sant' Agnese in Agone-Detail Corner
Orbit
Orbit
Trajectory
Orbit
Graphic Composition A
Sant' Agnese in Agone-Double
Sant' Agnese in Agone-Double
Cluster
Cluster
Graphic Composition B
inter-related figures
inter-related figures
Reveal
Reveal
Graphic Composition C
ADVANCED CODING FORM parametric of fungi behavior
The project explore the complex formation through growth in nature and identify what the algorithms based on the processing coding. Defining what type of programming is it and construct the orientation of object, changing the peremeters of code.
Research Material: Fungi
Behavior Diagram
Sci-Arc Algorithms 2015 Summer Collaborate Work Instructor: Satoru Sugihara Parntner: Laura Bao, Natalia Varada
Project: Processing, Python, Agent Algorithms, Fungi Mechanism
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
ROBOTIC SIMULATION
SCI-Arc Robot House Lab 2014 Fall
Collaborate Work
Instructor: Curime Batliner
Project: 6 axis Robot Aim, LED Light Tool, Screen Slit
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
Using collection of curves as a base, the robot created various felt pen graphics, this technique allows us to develop images created in multiple ways and styles in a computational manner. Inverse kinematics refers to the use of the kinematics equations of a robot to determine the joint parameters that provide a desired position of the end-effector. Specification of the movement of a robot so that its end-effector achieves a desired task is known as motion planning. The robot manipulator consists of a robot arm, wrist, and gripper. The task of the robot manipulator is to draw the specified curves by moving the pen attached through an end arm tool. In this way also the industrial robot needs to have six degrees of freedom. The segments of the robot arm are relatively long. The task of the robot arm is to provide the desired position of the robot end point. The segments of the robot wrist are rather short.The task of the robot wrist is to enable the required orientation of the pen grasped by the attached end arm tool.
A
A-Interactive Lighting
C-Continuing Cube
C
B
B-Dynamic Pen Drawing
D
D-Meta Ball Lighting
TWITCH MECHANISM
SCI-Arc Robot House Lab 2014 Fall
Collaborate Work
Instructor: Ivan Bernal
Parnter: Zhu Sijia, It Lai
Project: Robot, Slit Screen, Servo, Rendering, Animate, mechanical organism, computational operation
ENCHENG SHENG WORK SAMPLE E-MAIL: iansheng1016@gmail.com PHONE: 323.532.1895
In the digital world, computational operations are full with small glitches that produce unexpected behaviors, In Video games specifically, this glitches that occur due to the lack of information or processing power deform and distort the created environment producing funny or even creepy results. This same behavior can be observed in living organism as they experience muscle spasm or twitches. The goal of this exercise is to analyze the possibilities of the glitch and twitch as a generative tool for new mass qualities, and to introduce them in further stages of architecture. This practice examines the potential of advanced modeling, animation, and robotic techniques to produce and represent complex geometries. Taking advantage of a single platform, students would be introduced to the techniques to help them postulate, analyze, develop and present their design ideas.
Slice Screen
Cubist Graphic Canvas
continue and discontinue Board
Mechanical Organism
Arduino IC Prototyping Board