PORTFOLIO Master of Landscape Architecture, 2013 Cal Poly Pomona yang.yoojung86@gmail.com 909-992-2673
171 Lincoln Ave. Pomona CA 91767 (909)992-2673 yang.yoojung86@gmail.com
Education Master of Landscape Architecture, 2013 - Dept. of Landscape Architecture, California State Polytechnic University, Pomona - Final project focussed on the development of a multi-modal green network throughout the East San Gabriel Valley - Dean’s List Winter 2011, Spring 2011, Winter 2012, Fall 2012, Spring 2013 Bachelor of Science, 2009 - Konkuk University, Seoul, Korea Major: Environmental Science/Minor: Architectural Design Engineering
Certifications Engineer Landscape Architecture, National Technical Qualification Certification (2008, Held by Human Resources Development Service in Korea) - The formal qualification of sufficient knowledge about environmental issues and skill to practice the profession
Work Experience Copy Editor - Editing master’s degree project document with Indesign - Revising graphics to match the supplemental text with Illustrator Internship, Sesseljuhús Environmental Center, Sólheimar, Iceland - Developing eco-village master plan to increase ADA accessibility and tourism
Oct. 2013
Jun. 2011 - Aug. 2011
Private Tutor - Teaching science and mathematics to elementary through high school students to achive their educational goals
Jan. 2006 - Jun. 2010
Design Assistant, Konkuk University, Seoul, Korea - Drafting preliminary masterplan with AutoCAD - Rendering sections and masterplan with Photoshop - Assisting in sophomore students’ hand drawing class
Jul. 2006 - Aug. 2008
Research Experience Stream Sustainability Project - Assisting with on site research into present contaminated condition of Gapyeong stream - Suggesting sustainable methods of restoration including native wetland plants - Drafting masterplan, sections and perspectives manually and with Photoshop Skills - 6 years diverse experience in architecture using AutoCad, Adobe Photoshop, Adobe Illustrator - 3 years experience in architecture using Adobe Acrobat, InDesign, ArcMap10.0, Google Sketch Up - Proficient in MS Office programs - Languages: Native Korean, English
Jul. 2007 - Jun. 2008
171 Lincoln Ave. Pomona CA 91767 (909)992-2673 yang.yoojung86@gmail.com
Affiliations Member, ASLA Student Member, ASLA Student Chapter, Cal Poly Pomona
Sep. 2012 - Sep. 2014 Sep. 2010 - Sep. 2013
Volunteer Experiences - SoCal ASLA, Solar Decathlon / Assisting registration of the event Oct. 2013 - Workshop, Re: Street International Conference / Presenting charrettes and perspectives about imaginary future streets at Mar. 2013 the conference after a week workshop Apr. 2012 - CICLAVIA / Controlling traffic on an intersection Sep. 2011 - ASLA Annual Meeting / Assisting registration and head counts Mar. 2007 - Jun. 2007 - Typing paper books into digital format for blinds Jan. 2007 - Dec. 2007 - Student chapter / Developing student mentor program and organizing annual department events - Habitat Blitz Build, Chun-Cheon, Korea / Constructing wood frame house for victims of the flood Aug. 2003
References Lee-Anne Milburn - Associate Professor of Department of Landscape Architecture, California State Polytechnic University, Pomona - 3801 W. Temple Avenue, Pomona, CA 91768 - Phone: 909.869.6814 / Fax: 909.869.4460 / Email: lsmilburn@csupomona.edu Karen C. Hanna - Professor of Department of Landscape Architecture, California State Polytechnic University, Pomona - 3801 W. Temple Avenue, Pomona, CA 91768 - Phone: 909.869.4897/ Fax: 909.869.4460 / Email: kchanna@csupomona.edu Weimin Li - Assistant Professor of Landscape Architecture, California State Polytechnic University, Pomona - 3801 W. Temple Avenue, Pomona, CA 91768 - Phone: 909.869.2715/ Fax: 909.869.4460 / Email: wli@csupomona.edu
Academic Work
CCRC
catalyzing connectivity in the east san gabriel valley Cal Poly Pomona MLA thesis Project 2013
A conceptual vision plan for an interconnected greenway network to improve access, increase open space, promote environmental management, and support human wellbeing along the Walnut, San Jose, and Thompson Creeks.
California
Los Angeles county
San Gabriel River Watershed
The vision plan identifies three core elements of focus for the project: Connectivity, Natural Environment and Human Wellbeing. The vision plan creates a greenway network that maximizes access through the communities to preferred destinations, increase transportation efficiency, and will help to facilitate future sustainable high density development. The proposed multimodal network was the product of the network suitability analysis. Routes recommended
Walnut and San Jose creek Subwatersheds
Walnut and San Jose creek Subwatershed + 10 Creek Cities
by the project team serve as primary arteries for local and regional connections that maximize access to desired destinations. The proposed green network and recommendations are the result of a comprehensive analysis. The major factors for network connections were existing and proposed infrastructure, preferred destinations, and the project program. These factors were processed through layering and modeling in a sequence that directly produced the green network.
This project was a group masters thesis project. Yoo-Jung Yang’s main roles were research, GIS analysis, development of a green network, document layout with InDesign, and graphic production using Adobe Suite products such as Photoshop and Illustrator.
design synthesis
MASTERPLAN
This was a ten week group project.Yoo-Jung Yang’s main roles were GIS analysis to analyze site conditions, implementing storm water management, research on LID, graphic production using Adobe Suite products and AutoCAD.
Rediscovering Cal Poly’s Connection Rediscovering Cal Poly’s Connections
2012 Spring, LA 604 Environmental Analysis. Prof. Weimin Li Tom Gage, Viviana Rodriguez, Yoo-Jung Yang
Cal Poly Pomona is proposing a revision to the existing Campus Master Plan to more effectively meet the space needs of the projected
Cal Poly Pomona is proposing revision to the Master Plan to morethe effectively the space needs of revision projected on-campus enrollment over the anext 20 years andexisting improve Campus infrastructure systems serving campus. meet The proposed master plan on-campus enrollment thecases next relocation, 20 years and improve infrastructure the the campus. The master planbuildings; revision and involves demolition, andover in some of certain existing buildings systems and uses serving on campus; renovation of existing the construction andimprovements eventual operation of circulation new buildings and campus mastertoplan revision would also involve improvements to would also involve to the network in andfacilities. around The campus, include realigning main vehicular the circulation in and around to include realigning main vehicular pathways and improving bicycle pedestrian pathways and network improving bicycle andcampus, pedestrian connections throughout campus, and enhancements to the and open space network. connections throughout campus, enhancements to the open space network. Construction the master revision would result in Construction of the master plan and would result in consolidation of development into a newofcenter of theplan campus, while providing consolidation of parking and a shift of development into a new center of the campus, while providing important connections between important connections between open space areas and maintaining a concentrated academic campus core. defining open space areas and maintaining a concentrated academic campus core.
SUSTAINABILITY GOALS & OBJECTIVES Enhance Sustainability
AMMEND SOIL
- Embrace the polytechnic, “learn by doing” experience - Celebrate identity PLANT - Promote sustainability NATIVE
M
N
C
E
HYDROZONING
NATURAL RESOURCES
LAND USE
RECYCLE WASTE
IV
Campus Core
SUSTAINABILITY
SOIL AND WATER
TR
ALIZA
N
NECT
PERVIOUS PAVING
O
GREEN DEVELOPMENT
ON
Cu rren tS
INTEGRATED PEST MANAGEMENT
TRANSPORTATION TI
MULCH
HOUSING
C
ite
e Us d n La
AERATE SOILS
OBILITY
MATERIAL
COMPOSTING
Y
- Create a concentrated academic campus - Provide transportation options and increase connectivity - Encourage student engagement and enhance the campus experience - Establish a pedestrian-oriented campus
IT
Connectivity, Centralization & Mobility
MINIMIZE
TURF
ORGANIC FERTILIZER
Activity and academic cores along the university are located on the northern side of the campus. There is over a 100 foot drop from the eastern to the western side. This is a primary consideration for the proposed masterplan design.
Landuse
SITE
ties
in stra
Co n
Op po
rt
u ni
ts
Housing, academic, administration and heritage zones delineate the landuses. An academic core runs along the northern area of campus, indicating the primary use. Equestrian use and the Old Horse Stables are part of the university’s heritage. Those areas cannot be altered due to a standing agreement with the Kellogg Foundation.
The proposed new core aims at creating interest and activity near Temple Ave and South Campus Dr by altering the campus orientation. As the new north-south core, this active space provides opportunities to easily traverse the campus including the use of designated bicycle paths along of this new activity core. Academic Core
Pedestrian Bridge
Brightening Identity Community Interaction Channel for Concentration
Temple Ave & S. Campus Dr.
Ag Scapes
Cal Poly Pomona
This was a team project.Yoo-Jung Yang’s main roles were GIS analysis, implementing storm water management, board layout, graphic production using Adobe Suite products such as Photoshop and Illustrator.
Campus Rainworks Challenge, Winter 2012
GOALS & OBJECTIVES
Goals: • Capture & hold stormwater on-site • Mitigate contaminated runoff • Reduce stress on the regional water system and waterways • Re-imagine existing systems & re-design for maximum efficiency Objectives: • Identify issues of concern within the site • Understand the natural processes and water patterns of the campus • Decrease the use of potable water through reclamation & reuse • Improve and expand on existing and proposed stormwater management on campus
KEYWORDS
Regional
Site
£ ¤ 14
COVINA
£ ¤ 210
BONELLI REGIONAL PARK
£ ¤
£ ¤
10
5
£ ¤ 71
Cal Poly Pomona
Los Angeles County
£ ¤ 118
£ ¤ 210
£ ¤ 170
MT. SAN ANTONIO COLLEGE
¤ £ ¤ £ 2
710
£ ¤ 134
£ ¤ 10
£ ¤
£ ¤
101
405
605
10
£ ¤ 90
£ ¤
57
71
60
£ ¤ 57
710
£ ¤
57
71
Cal Poly Pomona
£ ¤
£ ¤
£ ¤
£ ¤ £ ¤ £ ¤
£ ¤ 110
WALNUT £ ¤ 105
£ ¤ 91
£ ¤ 22
DIAMOND BAR
£ ¤ 103
£ ¤ 47
£ ¤ 60
£ ¤ 57
Slope + Flow Direction + Areas of Accumulation
Agriculture Create Habitat Educate
CONTEXT
Retain Flow
Impervious
Reuse Landfill Convey
Decrease potable H2O use
Stormwater Runoff
PROJECT PROCESS Identify Problem
Research
Inventory & Analysis
Synthesis & Design Development
Scope
Data Gathering
Socio-cultural
Concept Design
Goal
Case Studies
Biophysical
Evaluation
Site Visists
Issues
Program
Sub-basin Analysis: analyzing stormwater flow
direction to maximize infiltration into the ground
AgScapes Enhanced Stormwater Concept: <CPP Campus Generates 792.02 acre-feet of Stormwater>
Proposed Additional Volume = 114.25 acre feet per yr.
AgScapes Enhancements 2012: Capturing 114.25 acre-feet
* Proposed Masterplan:
153.15 acre-feet
*Proposed Bioswale Masterplan: Cal Poly Bioretention Pomona 2020 Campus Cistern Masterplan Proposed Bioretention Proposed Bioswale Proposed Cistern
AgScapes Enhanced Stormwater Plan
Bioswale
AgScapes Enhanced Stormwater Concept: A ple
ve.
San Jose Cr eek
Tem
Va lle yB
S.
Ca mp us Dr .
U nivers it y Dr.
lvd .
Implementation Perspectives
Design concept of bioswle along the beef unit on campus is to improve existing drainage ditches, which are ineffective at filtering pollutants and slowing velocity. They can be an effective first defense system for stormwater entering into San Jose Creek and the river system.
Bioswale Bioretention Cistern Proposed Bioretention Proposed Bioswale Proposed Cistern
Bioswale N
0
0.125
0.25
0.5
0.75
Detention Basin
1 Miles
Demonstrative
detention pond located on the corner of campus. As a main entry way into campus, this corner can filter,U detain and nivers Dr. capture waterit yand be used as a tool for teaching.
Tem
A ple
ve.
Winter 2012 Convey Water from All-American Canal to Andra de Wetlands
Goals Imperial Diversion Dam
• Evaluate the water supplied system to Imperial Valley by All-American Canal • Develop a feasible and sustainable restoration plan • Bring back Andrade Wetlands and restorate the ground water of Colorado River Watershed
C ol o
Objectives
r a do
R iv e r
Andrade Wetlands
Al l-
Am er ic
an
Ca na l
Algodones Dunes
• Deconstruct the lining of the canal to increase seepage and back up the wetlands • Suggest alternative crops for Imperial Valley to supplement the loss of water to provide farm lands • Create opportunities for human access to the wetlands with minimal impact
Ground Water Level 4ft(Before All-American Canal) Ground Water Level 6ft(After All-American Canal)
All-American Canal The All-American Canal is an 80 mile aqueduct. It conveys water from the Colorado River into Imperial Valley diverted from the Imperial Diversion Dam and is Imperial Valley’s only water source. This canal system irrigates up to 630 thousand acres of crop lands. Although the canal causes reduced water level in the river, the seepage from it created 6300 ha of Andrade Mesa Wetlands
that provide high quality bird habitats in an isolated part of the northern Colorado River Delta. The All-American Canal lining project was done in 2009 to prevent seepage. The U.S. government lined 24 miles of the canal to recover 97% of the seepage. After this project, a reduction of the Andrade wetland in Mexico was observed. 28
14
Land Use & Ground Water Contour
16
10 12
18
20
30 32
22 Kum eya ay
Drop 4
Unites States
Calexico
Mexico
0
1
3
H wy
8
Drop 3
Drop 2
ana l All-American C
Mexicali
7mile
N
Algodone Sand Dune Agricultural Land Use Andrade Wetland (6200 ha)
La Mesa Drain
Alamo River
34
24
Drop 1
26
36
Rehabilitation I The lower Colorado River has been altered by dams and the canal diverts 26 cubic feet per second of water through highly permeable sand dunes. Seepage water flows under the dunes into Mexicali Valley, and the water supports the wetlands’ habitat. The completion of lining successfully reduced seepage to 0.16%, and the canal has 6% evaporation in arid conditions.
Solar Panels
Why don’t we cover it? Using solar panels to cover the canal reduces the evaporation of water by up to 20%. It would make up 2% of the seepage, which is approximate seepage rate of the deconstructed canal. The solar panels also generate environmentally friendly energy for the valley.
Solar Panels
Scale: N/A
Rehabilitation II Qu
ec
ha n
Algodone Sand Dune Agricultural Land Use Andrade Wetland (6200Scale: ha) N/A
He r it ag eT ra il
Unites States
Kum e
Drop 4
Calexico
Mexico
yaa y
Hw y
8
Drop 3
Drop 2
Drop 1
il Tra la i G
na l All-American Ca
Mexicali
N
0
1
3
La Mesa Drain
7mile
Alamo River
Southern Emigrant Trail Los Algodones U.S-Mexico Border Station
Calexico U.S-Mexico Border Station
This project attempts to give opportunity for people to be educated about wetlands and wildlife habitat with minimum impacts to wetlands, discover historical trails link to the Quechan and Gila Trail. These trails contribute to the eco-tourism of the area.
Rehabilitation III: Alternative crops for thr Imperial Valley to reduce water use and salt tolerate. Salt Tolerance
High
Opuntia Spp. • low water use
Parthenium argentatum A. Gray guayule • Produce rubber
Punica granatum
Simmondsia chinensis • Produce oil
Low
Olea europaea
Anacardium occidentale
Isomeris arborea
Manifesting The Dream : Bird Watching LA303 Susan Mulley Spring 2011 Dept. of Landscape Architecture Cal Poly Pomona Yoo-Jung Yang
Goal:
To provide educational opportunities to visitors and researchers to learn about birds around the Desert Study Center in Mojavi Desert.
Wooden Path
Objectives:
More than 50 species of birds are observed around the Desert Study Center which are migrants or year round resident.
Viewing Wooden Platform;
Enclosed Strolling Pathway
Offer seating area with information board about birds
Design Elements:
A Viewing platform is connected with a wooden pathway designed in two different widths to provide a private walkway on the west side of the pond. Each platform area offers information about birds with interpretive signs. Several plants provide habitat for predator birds.
PROGRAM - MIGRANT Summer
YEAR AROUND RESIDENT
Spring/Fall
Winter
Temecula Art & Botanic Garden LA302 Winter 2011 Michele Montano/Yoo-Jung Yang
Goals & Objectives:
â&#x20AC;˘ To provide stakeholders with a garden that addresses sustainability, feasibility, budget, management, and marketing. â&#x20AC;˘ To showcase not only the local flora and fauna, but the creativity of the community itself, by commissioning local artists to create many of the design elements and interactive sculptures peppered throughout the site design.
Concept:
Showcasing local art with the flora and fauna of Temecula and Southern California by creating a garden reflective of the community and its rich diversity, and a local destination that would bring the community together and show visitors all that Temecula has to offer.
Design Elements & Programs
Wildflower Festival
Masterplan
Lighting
Boulder playground
Willow sculpture
락[樂] 원[園]
We cannot know what is inside a closed box. Items which stay inside cannot come out unless the box is opened. We remove covers and identify the items as music. The instrument is a tool of music and creats sound. We suggest a way to spread music out to surround areas.
Flatten out the walls
Divide rooms and present functions
Re-arrange buildings
Design pathways
Planting
Paradise. The place produces music and communicates with surrounding areas
PRODUCED BY AN AUTODESK EDUCA
UTODESK EDUCATIONAL PRODUCT
2' 1'
1'
FINIAL BLUE PAINTED CONCRETE
POURED CONCRETE WALL WHITE PAINTED
#4 REBAR 16" O.C HORZ.
7'
7'
#4 REBAR 16" O.C HORZ.
#4 REBAR 16" O.C VER. 8x8x16 CMU #4 REBAR 16" O.C VER.
WHITE MARBLE VENEER
FINISH LEVEL
#4 REBAR 12"O.C CONCRETE FOOTING
8"
1' 1'
1'
CONCRETE FOOTING
AGGREGATE BASE 1'
8"
AGGREGATE BASE
2'-6"
2' 3'
3'-6"
#2 L-4
#3 L-4
16" x 5 21" TREAD/RISER TYP. 1" R
PRECAST CONCRETE PAVEMENT
6"
4"
1" FLAG STONE W/ SAND SWEPT JOINT
AGGREGATE BACKFILL 6"
#4
1'
1"
1 12"
FINISH GRADE
1" SAND SETTING BED AGGREGATE BASE
6"
L-4
#5 L-4
Professional Work
S贸lheimar, Iceland Village road system masterplan
Amphitheater Design
Amphitheater material_1
Amphitheater material_2
Amphitheater material_3
Recycling Area Proposal Sólheimar in Iceland is one of the oldest eco villages in the world. Although this is an eco village, most of its utilities are not an ecologically designed and it has only experimental wind power generator and compost toilet exhibitions. Recently, they have started a longterm village development project that can improve sustainability and expand resident population.
Alternative_1 Wood Fence (or fence with natural material )
Alternative_3 1.2m mounding around the bin
Alternative_2 Planting trees around the area
Sesseljuhús Environmental Center in Sólheimar to needed develop a preliminary masterplan for the village’s expansion. More than half of residents are disabled and most residents live and work in the village. Additionally, tourists and guests from all over the world visit year round. One of the projects is separating the road system from the existing village drive way to protect the residents’ privacy. The project provided several alternatives with pavement materials as well as traffic calming elements. The project focused on a providing pedestrian-friendly environment in the village for residents and visitors.
Drawing
(left) 30 min, ink & color pencil (Right) 30 min, ink Ink & Colored 30ink min (bottom)pencil, 30 min,
Ink, 30 min Ink, 30 min
Olympic park. Seoul Pencil 3 hours
Unknown image Pencil 3 hours
Olympic Park Seoul, South Korea Pencil, 3hours Building Pencil, 3hours
Olympic park. Seoul Pencil 3 hours
Unknown image Pencil 3 hours
Sketch, 20min (Left) 20 min Sketch, Unknown image (Bottom) 30Bioswale min Sketch, Bioswale Sketch, 30 min
CCRC, pocket park overview along the creek
Research
Masters Degree Project Summary Document Sample
Inventory Understanding of the project area has been developed through extensive site visits as well as review of the biophysical and sociocultural contexts. The East San Gabriel Valley landscape is dynamic, and its social issues are complex. Both biophysical and sociocultural data were collected and represented. These included: climate, geomorphology, hydrology, natural disasters, and ecology, as well as human history, land use, transportation, demographics, culture, and open space access. The shape of the study area constricts air flow and captures significantly more water than surrounding areas. A large population with many activities and inputs complicates these vulnerabilities to contamination. Desirability of the land has led to significant population growth, but to make more land available, controls have been employed to manage the natural environment. The interface between development and unmanaged park and open space is limited to prevent fire, and water flows have been channelized to mitigate floods and erosion. Extensive infrastructure from the large and spread out population threatens rich natural habitats, and limits land for natural systems and open space important
for human and environmental wellbeing. Access and human movement between important resources and services are interconnected issues in the region. About 47 percent of residents in the region do not have park access within one-quarter mile of their home. This signifies the importance of creating open spaces and recreational areas along east-west connections through the network. Regional health issues are also documented. The cities of Baldwin Park, La Puente and Pomona rank as some of the most obese cities in Los Angeles County, averaging at 27.3 percent. More than a quarter of the adult residents in these three cities are considered to be obese, and not surprisingly, 28.7 percent of the children are also considered to be obese. Diabetes mortality rates predictably correspond to the obesity rates, with Baldwin Park, La Puente, Pomona and Covina showing the highest rates within the project boundary (LA County Department of Public Health 2012). Data-based research and physical observations from on-location field study were collected and organized. Data collection entailed research and procurement of information in the form of maps, imagery, statistics, studies, and reports.
Roads + Freeways
35,000 miles
Rail + Bus Lines
4,500 miles
Class 1 Bikeways
284 miles
Regional Mileage by transportation type Figure 3: Regional mileage
6
Deconstruction
Yoo-Jung Yang PORTFOLIO