Jinhee
Ha
landscape architecture portfolio MLA 2016
I am committed to the field of landscape architecture through the engagement of collaborative, innovative, and experimental design processes. I have interest in design strategies that are grounded in place and responsive to larger environmental and social processes. My passion for the field stems from previous study in history and studio art and experiences in community service, environmental justice, and education.
TABLE OF CONTENTS 03 04
Contact Info Resume
LARGE SCALE 05 11 15
The Salt Exchange Neighboring Waters Energize Mantua
SITE SCALE 19 21
Yeager Residence Library Steps
EXPLORATORY 23 25
Model Studies Landscape Research
Jinhee Ha ha.jinhee@gmail.com 952 . 797 . 6613 www.jinheeha.com
03
EDUCATION
COMMUNITY SERVICE
2013 - 2016
CORNELL UNIVERSITY Ithaca, New York
2013 - 2016
PROGRAM LEADER & INSTRUCTOR Ithaca, New York
2006 - 2010
CARLETON COLLEGE Northfield, Minnesota
2014 - 2015
CO-LEADER & COLLABORATOR Ithaca, New York
Master of Landscape Architecture
Bachelor of Arts in History
EXPERIENCE 2015 - 2016 2014 2014 2012 - 2013 2011 - 2012
Design Teach
Landscape Architects Address Equity & Identity
AWARDS & HONORS LAB TECHNICIAN Ithaca, New York
Landscape Change Lab
2016
EXHIBITION OF “THE SALT EXCHANGE”
9th Int’l Biennial of Landscape Architecture Student Exhibit
GRADUATE TEACHING ASSISTANT Ithaca, New York
UNIVERSITY OLMSTED SCHOLAR
RESEARCH ASSISTANT Ithaca, New York
DISTINGUISHED STUDENT AWARD NOMINEE
Landscape Architecture Foundation
Landscape Architecture Freshmen Studio
Borderlands Research Group & Water Resources Institute
WORKSHOP COORDINATOR Ann Arbor, Michigan
Hollander’s School of Book & Paper Arts
NY Upstate ASLA Chapter 2015
CLARENCE S. STEIN FELLOWSHIP
Clarence S. Stein Institute for Urban & Landscape Studies
CORNELIA V.W. KELLOGG SCHOLARSHIP
MUSEUM & EXHIBITS TECHNICIAN Ignacio, Colorado
National Garden Clubs
Southern Ute Cultural Center & Museum
MELLON SYMPOSIUM TRAVEL AWARD
Dumbarton Oaks Garden & Landscape Studies
E. GORTON DAVIS TRAVELING FELLOWSHIP
SKILLS Software
Language
Adobe Creative Suite Grasshopper ArcGIS Rhino 3D AutoCAD SketchUp English - native Korean - fluent German - conversational
Cornell Department of Landscape Architecture
SIGNS OF SUSTAINABILITY AWARD Sustainable Tompkins 2014
EXHIBITION OF “AERIAL AGENT”
8th Int’l Biennial of Landscape Architecture Student Exhibit
ACADEMIC ENRICHMENT GRANT
Cornell Agriculture & Life Sciences Alumni Association
MLA THESIS 2016
THE SALT EXCHANGE Material as identity at the Cayuga Salt Mine ADVISORS:
Katie Jenkins Jamie Vanucchi
In northeastern United States, a common use of salt manifests through its distribution for deicing roads, becoming an agent and vector of maintenance regimes, the impact of which is largely unseen. With a subterranean footprint of 18,000 acres at 2,300 feet underground, the Cayuga Salt Mine has been producing rock salt at the lake edge since 1920 in Lansing, New York. The mine plans to develop a new site to maintain subsurface production, creating a future model of simultaneous expansion up Cayuga Lake and closure of sites where salt is depleted underground. This design thesis exercises the landscape architect’s approach to visualizing the materials and processes of a largely invisible subterranean landscape in order to keep alive the historical, cultural, and economic significance of salt and adapt for its reuse in the face of transition. It does this through a speculative design proposal cultivating salt-tolerant vegetation and brine pools while developing a public waterfront. Funded by E. Gorton Davis Traveling Fellowship and Clarence S. Stein Fellowship
05
Trails through the geologic pools inhabited by the public
View to the surface site of mine from Pier 23
Vegetated gradient shown through salinity on shale mounds
NURSERY BUILDING
FOREST MOUND
PARKING
NON-SALTY TERRACES
WATERFRONT TRAIL
GEOLOGIC POOLS SHALE MOUNDS
TRAIL NETWORK
BRINE POOL
CONTROLLED WETLAND PIER 23
SWIMMING HOLE
1 / DISCONTINUE OPERATIONS store salt in overflow pads make room for excavation
2 / CEASE STOCKPILING
3 / DEMO BUILDINGS
develop accessible waterfront test brine pools and plots create excavation mound
accentuate drainage retrofit infrastructure manipulate surface
4 / ESTABLISH FLOW
5 / SHIFT USE
create trail network vegetate plots of different conditions
PUBLIC EXPERIENCE THROUGH POOL EARTHWORK FOR DIFFERENT VEGETATIVE AND HYDROLOGIC CONDITIONS
FLUCTUATING WATER LEVELS
expand public use adapt for changing factors
DRAINAGE & FOREBAY FILTER
SEASONAL CHANGES
LAND LEVELED 0
Phasing of the design implementation capitalizes upon existing materials and processes onsite
20
40 ft
L AK E C ITHA
Montezuma National Wildlife Refuge
Long Point State Park
2,800
Sampson State Park
A ~1
Seneca & Geneva Country Clubs
Keuka Lake State Park
YEAR
Myers Point Taughannock Falls State Park
CAYUGA SALT MINE
S AG O
Catherine Creek Wildlife Management Area
Bedrock Limestone, sandstone, shale Lacustrine sand Associated with large body of water Kame Deposits Coarse to fine gravel/sand
CAYUGA SALT MINE
Bedrock Stipple Variable rock debris and glacial till
0
Till Variable texture
CAYUGA SALT MINE
700
1400 ft
+0’
OVER 75% OF TOMPKINS COUNTY CAYUGA WATERFRONT PRIVATE
BEDROCK
-1000’
FOSSILS
UPLIFT
LIMESTONE
MOSCOW FORMATION
LUDLOWVILLE FORMATION
EVAPORATE
-2000’
SALT
HALITE
SALT
ABSORB -3000’
LIME MUD + MAGNESIUM
DOLOSTONE
-4000’
CORNELL UNIVERSITY
COMPACT
-5000’
FINE MUDS 0
2500
SHALE
ERODE
5000 ft
-6000’
DEPOSIT
-7000’
reef
SEA
Finger Lakes and Cayuga Lake location and geologic section of mine location
WEST RIVER SHALE TULLY LIMESTONE
SPREAD FLOOD SUBMERGE
BEACH SAND
SANDSTONE
DRAINAGE FALLS
GEOLOGIC
GLACIAL LAKE
HYDROLOGIC VEGETAL
FLUID
UNINTENDED POOLING
1.3 mi wide
PHRAGMITES FIELD
40 mi long
SLOPING FOREST FLUID + GEOLOGIC PATTERN
~20% slope
SALT STOCKPILE
FOSSIL PIT
SHALE BERM
32 angle of repose 40 ft tall
STRUCTURAL
TRUCK DISTRIBUTION
HEADFRAME & CONVEYOR
overflow storage
RAILYARD
FT PRODUCTION SHA
+0’
-500’
IL RA
-1000’
mixing loading
SALT HOISTED
storing conveying pooling
-1500’
-2000’
-2500’
Site sketches and diagrams analyzing material relationships and processes
ON TI BU RI
ST
DI
depth of shaft = 7+ Statue of Liberties
Sketches and diagrams that contributed to the final design in this birds eye view
MATERIAL OF ERASURE VESSEL OF COLLECTION inverted pile = pool
CONSIDERATIONS
PROTOTYPE
10’
COLLECT WATER
drainage connection
bench/wall geologic wall
outcrop spillway GATHERING SPACE sloped edge
bottom of pool VOLUME - SIZE/DEPTH public space at grade
100’ depth 6’
FUNCTIONAL EDGE
EVENT
GEOLOGIC CONDITIONS
MATERIAL MAKEUP
shale emphasize limestone
surficial geologic limestone
FALL 2015 STUDIO
NEIGHBORING WATERS Weaving water infrastructure with neighborhood public space ADVISORS:
Brian Davis Justine Holzman
NEIGHBORHOOD PLAZA D
This studio examined the paradox of water excess and scarcity in Sao Paulo, Brazil. My question was how water infrastructure neighborhood amenities be hybridized through design and form to decrease flooding and increase perception of hydrological processes and their impact. My strategy was to locate opportunities where water movement and neighborhood and transportation activity intersect. Some examples are where basins, revetments, and water-slowing obstructions have a spatial relationship to neighborhood recreation zones and public transit stops. The design concept was to use form and extrusions to heighten water conditions for increased legibility.
TRANSIT STATION
PISCINAO RINCAO II
EXISTING PATH
EXISTING RINCAO ENTRANCE
0
11
io Vidigal
nc Av. Dr. Ore
E
100
200 feet
Master plan of design and sections along street and channel
A) ENTRANCE PLAZA large basin by first spillway ped bridge
connects to street
increased channel width, depth
walkway piscinao existing channel
B) PUMP STATION
EXISTING PARK NEIGHBORHOOD PLAZA C
ini Rua Dem
A
B
TRANSIT STATION
ENTRANCE PLAZA
connects to street, neighborhood plaza
forested section of channel pump station
revetments
Corrego Rincao
large basin
CONNECTING PATH Rua ha
din
an Mir
PISCINAO RINCAO I
piscinao trench water pumped out after rain event
C) TRANSIT STATION
PUMP STATION active street life
large basin by second spillway ped bridge
EXISTING RINCAO ENTRANCE
revetments
walkway
piscinao
obstructions
D) NEIGHBORHOOD PLAZA
more shaded areas
walkway slope
adjacent convenience store
obstructions
piscinao trench
E) TRANSIT STATION
transit plaza vocational school
ped bridge
walkway
revetments
piscinao
0
30
60 feet
auto unio no op tica ffice l
con
ven ie
tion
al s
cho
rep a
gas
ol
ir s
cha
nic
vencafe a ien nd ce b sto ar re chu flo rch rist
con voc a
me
nce
Neighborhood Hotspots
pre com scho ple ol x
sto
re
ho
p
par
kb ys
sta
tion
op
en
foo soc tball iety
Rin
cao
tre am
Park Land
field
path
Vila Me Mati tro lde
Transit Stops
spo field rting s R. D R. emin Mir and i and inh a
Av. Vid Dr. O iga ren cio l
Pe nh
Neighborhood Context
aM
etr o
Overflow Hydrology
pum
ps
tati
on low
po
int
firs com t ove r ofte partmlow nf loo ent ds
sec com ond o occ partmverlo asio e w nall nt y flo od s
Topography
flo o 6ft- dpla dep in w it th cha hin nne l
View of transit station during wet season
FALL 2015 COMPETITION
SCARITY OF JOBS and long commute times create need for a more localized economy
DISCONNECTED GREEN SPACE and lack of tree canopy indicates need to offset stress of the urban environment
>20% unemployment >75% over 30 min commute 20-30%
tree canopy parks/open space multiuse trail bike network
ENERGIZE MANTUA Activate + Engage + Connect ADVISORS:
Brian Davis Katie Jenkins
UNUSED RESOURCES calls for investment in corridors and reuse of materials
Energize Mantua is the product of a group collaboration for the 2016 Better Philadephia Challenge at the Philadelphia Center for Architecture. We proposed a design for the Mantua and Belmont neighborhoods of Philadelphia that stimulates physical activity and mental wellness by initiating a community-driven approach to reactivating resource flows. Incubators concentrate resources and ignite activity within the neighborhood. Arteries radiate the energy of this collective work throughout the neighborhood. Local job stability and improved exercise opportunities help decrease stress and depression through the steady cultivation of resources and community. The project challenges the typical capital-driven development of cities by investing in the latent human capital and the community’s history of grassroots initiative. Group members include Garrett Craig-Lucas, Amelia Jensen, Catherine Joseph, and Judith Yang
LACK OF HEALTHY FOOD ACCESS calls for local food production and distribution
vacant lots 2500 people 250 x 100 lbs/person/yr
grocery stores healthy corner stores farmers markets >80 % receiving SNAP benefits <9% 1/8-mi
PRODUCE PRODUCTION
RESOURCE RENEWAL
ZOO
PLANT PROPAGATION
$
MUSEUM OF ART
INCUBATING OPPORTUNITY NEW JOBS AND ECONOMIES RECLAIMING STREETS SAFETY, ACTIVITY, CONNECTION
30TH STREET STATION
UTILIZING VACANCY EMPTY LOTS TO BE RENEWED BRIDGING THE GAPS NEW OVER-RAIL LINKS
15
BUILDING SOCIAL CAPITAL COMMUNITY STEWARDSHIP
DREXEL UNIVERSITY UNIVERSITY OF PENNSYLVANIA
VACANT LOTS
N 0
400
800’
Birds eye view of design system Specialty Houseplants
Resource Renewal Hub
Community Garden
Produce Trucks
Apiary
Apothecary
Farmer's Market
Penn Compost
Recycled Art Park
Bike Repair
Plant Propogation Hub
Mulchmaking
Core Artery
SEED
SEED
SEED SEED
SEED SEED
SEED
SEED
SEED
SEED
SEED
SEED
SEED
RESOURCE USE
RESOURCE PRODUCTION
7,250 sq ft
PRODUCE PRODUCTION
Lighting
Systems diagram
feeds 1 household per year
1,800 lbs vegetables
ARTERY
Sidewalk
Separated bike lane
Chicane
Crosswalks
Parking LEIDY
AVE
AV E
Circulation
W
TH O
M PS O
N
SEED
Incubator Extensions
Produce Market Indoor Production & Storage Facility
Seasonal Open-Air Market & Gathering Space
Agriculture Education Center & Seasonal Winter Market
RESOURCE RENEWAL VE
ST
RO
$
$
$
$
$
$
SG
N
N
PE
Local Employment + Subsidies SEED
$$$ $$$ $$$ $$$
474 lbs food waste per household per year
Energy Inflow
~4 cubic feet of compost
Invest in Small Business N 40
TH
ST
1,300 sq ft 5 blocks planted
15 young street trees
SEED
Attract Influx of Captial
EN
ST
D
G
O
CE
ST
LA
AL W
Finished Mounds
Food Cooperative
Repurposing Zone
Energy Outflow Collection & Outdoor Composting
Materials Collection Warehouse
Bridge Canvas of Repurposed Art
Education N 37
TH
PLANT PROPAGATION
Indoor Composting & Vermiposting
ST
Cooperative Extension 1-2â&#x20AC;? caliper trees ready for planting Greenhouses 6-12â&#x20AC;? tall whip trees
Seed Bank & Learning Center
SEED
Spatially collapsed timeline You are here
$
2016 $ $
EMPOWER
2020 $ $
Promise Zone Funding provides training and salaries to employ community members. Volunteer positions are compensated with produce vouchers.
INVEST
2025 $ $
The first generation of trees from the plant propagation incubator are large enough to be transferred to the street.
ESTABLISH With the incubators fully established the corridors are beginning to grow. The City of Philadelphia invests to revive the Arteries, offering startup funds for the new businesses springing up in vacant spaces. SEED
SEED
SEED
SEED
Many residents are offered local, full-time employment opportunities to establish the incubators, allowing them to create a stable work-life balance within the neighborhood.
SEED
While working together, residents cultivate a strong social network, establishing new roots for the community.
Tree plantings begin to line the Arteries, lending openness and greenery to the streetscape and bringing residents together for exercise and stress relief.
An expansion of the streetscape activates the community while increasing safety and enhancing the walkability of the neighborhood.
2030 $
SUSTAIN
2035 $
The Incubators along with other successful spinoff programs establish a cooperative, pooling funds to invest in new vacant lot economies. The availability of resources, the successes of local businesses, and the innovation of residents sustain an economy of ideas.
2040 $
The economic growth of Mantua extends beyond the neighborhood, engaging the civic and educational institutions nearby. SEED
As the community continues to recharge spaces along the arteries, residents enjoy increased access to fresh food, recreation, and active work, allowing them to maintain healthy lifestyles.
SEED
SEED SEED
EXTEND
SEED
SEED
ATTRACT Mantua and its neighbors have become a steadfast feature of Philadelphiaâ&#x20AC;&#x2122;s culture. Residents of the greater metropolis make regular visits to the neighborhood to engage in the new economy. Residents are now experts in the cultivation and management of localized resources, and train the next generation to continue enriching their community.
Client started to implement the infiltration path design
SPRING 2015 STUDIO
YEAGER RESIDENCE Kingston, New York ADVISOR:
Josh Cerra
NAME NAME
BLOO
Prunus americ American Plum AprPrunus Mayserotin Ju Black CherryMar NAME BLOOMING AND FRUITING TIME Diervilla lonice Bush Honeysuckle Prunus americana American Plum verticillata Common Name AprPrunus Mayserotina Jun Jul Winterberry Aug Sep Oct Ilex Nov Dec Black CherryMar Cornus racemo Gray Dogwood DiervillaTIME lonicera Bush Honeysuckle Prunus americana BLOOMING NAME American Plum AND FRUITING Helianthus ann Ilex verticillata Winterberry Prunus serotina Black Cherry Common Name Mar Apr May Gray JunDogwood Jul Aug Cornus Sep racemosa Oct Nov Bergamot Dec-Feb Sun Diervilla lonicera Bush Honeysuckle Zizia aure Golden Alexander Helianthus annuus Prunus americana American Plum Ilex verticillata Winterberry Tradescantia o Spiderwort Bergamot Prunus serotina Black Cherry Cornus racemosa Gray Dogwood Symphyotrich New York Aster Zizia aure Golden Alexander Diervilla lonicera Helianthus annuus Bush Honeysuckle Tradescantia ohiensis New England aster Symphyotrich Spiderwort Ilex verticillata Winterberry Bergamot Flowering Dogwood Symphyotrichum novi-belgii New York Aster Cornus racemosa Zizia aure Gray Dogwood Golden Alexander Flowering Raspberry Rubus odoratu HelianthusSpiderwort annuus Tradescantia ohiensis New England aster Symphyotrichum novae-angliae Common Bearberry Arctostaphylo Flowering Dogwood Bergamot Symphyotrichum novi-belgii New York Aster Sambucus can Elderberry Flowering Raspberry Rubus odoratus Zizia aure New England aster Symphyotrichum novae-angliae Golden Alexander Common Bearberry Arctostaphylos uva-ursiNew England aster Symphyotrich Tradescantia ohiensisDogwood Spiderwort Flowering Iris versicolor Sambucus canadensis Blue Flag Iris Elderberry Symphyotrichum novi-belgii New York Aster Flowering Raspberry Rubus odoratus Echinacea pur novae-angliae New England aster Symphyotrichum Common Bearberry Arctostaphylos uva-ursiNew England aster Symphyotrichum novae-angliae Carex grayi Gray's Sedge Iris versicolor Flowering Dogwood Sambucus canadensis Blue Flag Iris Elderberry Betula nigra River Birch Echinacea purpurea Flowering Raspberry Rubus odoratus New England aster Symphyotrichum novae-angliae Cornus amom Silky dogwood Carex grayi Gray's Sedge uva-ursi Common Bearberry Arctostaphylos Blue Flag Iris Iris versicolor Lindera benzo Spicebush Betula nigra Sambucus canadensis Elderberry Echinacea purpurea River Birch Lobelia cardin Cardinal Flower Cornus amomum Silky dogwood New England aster Symphyotrichum novae-angliaeCarex grayi Gray's Sedge Lilium superbu Turk’s Cap Lily Lindera benzoin Spicebush Blue Flag Iris Iris versicolor Betula nigra River Birch Lobelia siphilit Great Blue Lobelia Lobelia cardinalis Cardinal Flower EchinaceaSilky purpurea Cornus amomum dogwood Lilium superbum Turk’s Cap Lily Carex grayi Gray's Sedge Lindera benzoin Spicebush Lobelia siphilitica Great Blue Lobelia Betula nigra River Birch Lobelia cardinalis Cardinal Flower Cornus amomum Silky dogwood Lilium superbum Turk’s Cap Lily Lindera benzoin Spicebush Lobelia siphilitica Great Blue Lobelia Improve planting area Lobelia cardinalis Cardinal Flower Sustainable design Lilium superbum Turk’s Cap Lily Improve planting area Stormwater management Lobelia siphilitica Great Blue Lobelia Rain Garden
Sustainable design Stormwater management Restore water quality Improve bird habitat Improve pollinator habitat
Wild Life Garden
Rain Garden
Rain Garden
Improve planting area Sustainable design Stormwater management Improve planting area Restore water quality Sustainable design Improve bird habitat Stormwater management Improve pollinator habitat
Wild Life Garden
Wild Life Garden
Rain Garden
19
Common Name
Common Name
Wild Life Garden
I worked with Kathleen Yeager and her residence in the Clifton neighborhood for YardWorks, an outreach design studio based out of the Cornell Landscape Architecture Department working directly with New York landowners. Students worked with twenty landowners in two neighborhoods in Kingston, NY. Each student collaborated with one landowner and a community organization to develop landscape designs for their properties that would increase the overall environmental benefit to their neighborhood. The goal of the project is to demonstrate that coordinated changes on small urban parcels can still have a cumulative beneficial impact to birds, pollinators other wildlife and the environment. For the Yeager residence, drainage and increasing pollinator potential were main factors, as well as developing more defined garden rooms surrounding the house. Some of my ideas were implemented and constructed by the client.
Restore water quality Improve bird habitat Improve pollinator habitat
ROCK GARDEN
CARPORT & ARBORS
Hay es S
WILDFLOWER CORNER
tree
EDIBLE ZONE
t
INFILTRATION PATH
Clif
ton Ave nu
e
WOODY GARDEN & PATIO
SHADE ZONE
raised planters
covered driveway
0
trash barriers pollinator plants
wet tolerant plants
10
20 feet
infiltration corner path
0
6
12 feet
L-6
SPRING 2015 COURSE
Stair and ramp integration prototype
LIBRARY STEPS Cornell University Olin & Uris Library Plaza Redesign Brian Davis
2'-6" TYP.
34'
2'-6" TYP.
28' TYP.
28' TYP.
2'-6" TYP.
34'
14' TYP.
(2.63', 106.4')
(-38.38', 106.4') R2'
1'-2"
29'
TYP
.
25'
21'
98'-9"
2'-6" TYP.
(11.5', 127.5')
6' TYP.
6" TYP.
(-83.5', 127.5')
JXH Urban Design
12'
(-27', 103') 7'
34'
16'
30'
42'
11'
20'
130'
15'
26'
24'
17'
(2.63', 64.4') R2'
.
TYP
19'
22' 7'
7'-01 8"
(-22.65', 57.33') 1 13'-38"
R2'
TYP
.
R8
'
14' TYP.
19'
2'-6" TYP.
4'-51 2"
(-49.5', 24.29')
28' TYP.
(11.5', 29.29')
35'
2'-6"
3 15'-84"
(-49.5', 31.25')
Ithaca, New York
Emphasis on detail design and use of landscape materials in project implementation was a main focus of the library plaza redesign for Olin and Uris Libraries at Cornell University in Ithaca, NY. It explores materials, including specifications, and methods used by landscape architects in project facilitation. We learned to interpret surveys and critically develop and utilize conventional drawings for design and construction processes. Throughout the semester, I developed a set of comprehensive construction documents and details. My design created large shallow steps in between the libraries that integrated with ramps to provide an accessible space where students may occupy and gather.
CORNELL UNIVERSITY OLIN & URIS LIBRARIES PLAZA REDESIGN
ADVISOR:
Le
(9', 24.29') 28' TYP.
Document No.
100% CD SET
(11.5', 0)
Sheet Title
P.O.B. 0
Layout Notes
21
1. VERIFY DIMENSIONS AND ACCEPT CONDITIONS BEFORE PROCEEDING WITH WORK. REPORT DISCREPANCIES TO LANDSCAPE ARCHITECT FOR INSTRUCTION BEFORE PROCEEDING. DO NOT MEASURE DRAWINGS. 2. WALKS, DRIVES, PARKING & BUILDING LOCATIONS TO BE LAID OUT IN THE FIELD BY A LICENSED SURVEYOR. FINAL LAYOUT TO BE APPROVED BY LANDSCAPE ARCHITECT. 3. SEE GRADING PLAN L301 FOR SPOT ELEVATIONS AT SITE FEATURES INCLUDING TOP AND BOTTOM OF SITE WALLS AND CORNERS OF PAVEMENTS . 4. THERE IS NO GUARANTEE THAT ALL EXISTING UNDERGROUND OR OVERHEAD UTILITIES, WHETHER FUNCTIONAL OR ABANDONED WITHIN THE PROJECT AREA ARE SHOWN ON THE PLANS. THE CONTRACTOR SHALL DETERMINE THE EXACT LOCATION OF ALL UTILITIES BEFORE STARTING WORK AND SHALL BE RESPONSIBLE FOR ALL DAMAGE RESULTING FROM THE WORK AS SHOWN ON THE DRAWINGS . 5. CONTRACTOR TO PROVIDE TEMPORARY TRAFFIC SIGNS WHERE NECESSARY, CONSISTENT WITH ALL RELEVANT BUILDING CODES. 6. INSTALL EXPANSION JOINTS EVERY 30' IN CONCRETE AS NOTED ON PLANS AND IN AREAS WHERE CONCRETE ABUTS CURBS AND OTHER FIXED OBJECTS.
10'
20'
Layout Plan Date
Legend
14 May 2015 CONTRACT LIMIT LINE
TRENCH DRAIN
PAVED AREA
EXISTING TREE
PLANTED AREA
PROPOSED TREE
Scale
1" = 10'-0" Sheet No.
L - 200
2"
2"
1'-2"
COPING STONE, DARK GRAY CONCRETE, SMOOTH FINISH, PITCH 1/8" (5) ST. STL. PINS 1/8" X 4" CONCRETE VENEER, WOOD-TEXTURED, INTEGRAL DARK GRAY COLOR
BLUESTONE STAIR 6' X 10', THERMAL FINISH
3/8" EXPANSION JOINT 2'-8 1/2"
2'-5"
WEEP HOLE RECESSED 2 1/2" #4 REBAR CONTINOUS SMOOTH DOWEL 1/2" DIA. X 6" LONG ST. STL.
5 500
1 600
2 500
6'-6"
5'-5"
#4 REBAR
1/8" PITCH TYP. 4 3/4"
3 500
5% SLOPE 11'-7 1/2"
1/2" DIA. X 6" LONG ST. STL. DOWEL - 4 PER TREAD 1" MORTAR SETTING BED
4.5'
23 4"
12'
C.I.P. CONCRETE BASE, CONTRACTOR SHOULD POUR SO LIFT LINE IS NOT REVEALED ABOVE SURFACE 10'-6"
RADIUS 1/2" RAKED MORTAR JOINT
3 400
1"
4 500
1' MIN
COMPACTED SUBGRADE
#4 REBAR AT 8" O.C. EACH WAY, TYP. CONCRETE BASE 8"
COMPACTED SUBGRADE 2'-3"
1
STONE STAIR & TEXTURED CONCRETE VENEER WALL
ENLARGEMENT PLAN OF RAMP & STAIR
SCALE : 3/4" = 1'-0"
SCALE : 3/16" = 1'-0"
5
STONE STAIR SCALE : 3/4" = 1'-0"
PRE-CAST CONCRETE PAVER, SANDBLAST FINISH EXPANSION JOINT 3/8" BLUESTONE 6' X 10', THERMAL FINISH 5% SLOPE 5" 1"
6 500
SEE PLANTING PLAN L-202
#3 SMOOTH DOWEL 5" MORTAR BED 1" #4 REBAR AT 8" O.C. EACH WAY, TYP. C.I.P. CONCRETE FOOTING
R2'
3' MIN
EXISTING MAGNOLIA TREE COMPACTED SUBGRADE
R8'
3 SMOOTH RIVER ROCKS, DARK GREY COLOR 1" ST. STL EDGE
1 500
PRE-CAST CONCRETE PAVER & BOTTOM OF RAMP
ENLARGEMENT PLAN OF SOUTH SIDE RECESSED PLANTED AREA
SCALE : 1 1/2" = 1'-0"
SCALE : 3/16" = 1'-0"
3 400
Docu
C OF TREE OPENING
1/2" DIA. X 6" LONG ST. STL. DOWEL - 4 PER TREAD
5"
BLUESTONE 6' X 10', THERMAL FINISH
1'-10"
ROOTBALL
CU STRUCTURAL SOIL REMOVE TOP 1/4 OF BURLAP FROM BALL & REMOVE 2/3 OF WIRE BASKET COMPLETELY 5" 1"
GRAVEL RING AT BASE OF TREE PIT (TYP.)
4"
2 LAYERS GEOTEXTILE (TYP.)
2' MIN
COMPACTED NATIVE SOIL
SMOOTH RIVER ROCKS, DARK GREY COLOR 1" ST. STL. EDGE
CONSULT PLANTING PLAN L-201
MORTAR BED 1" EXPANSION JOINT 3/8"
3 400
#3 SMOOTH DOWEL 5" 2"
CONCRETE BASE
CU STRUCTURAL SOIL
#4 REBAR AT 8" O.C. EACH WAY, TYP. COMPACTED SUBGRADE
2'
3'-6"
WEST SIDE RECESSED TREE PLANTING AREA SCALE : 1" = 1'-0"
Date
COMPACTED SUBGRADE
4' MIN
2
Shee
4
RAMP & TOP OF STONE STAIR SCALE : 1 1/2" = 1'-0"
6
Scale
SOUTH SIDE RECESSED GRASS PLANTING AREA SCALE : 3/4" = 1'-0"
Shee
2015 - 2016 COURSES
MODEL STUDIES Workflows of making and fabricating ADVISORS:
Katie Jenkins Marc Miller
Experimenting with representation was an important element of my MLA education at Cornell. Making physical models were extremely helpful for my design projects. I made many models of existing conditions and design tests for my thesis project. They ranged from simple folded paper models to 3D digital models that were laser cut and assembled together. I became interested in a workflow that included the digital and physical. I experimented with using Grasshopper to generate forms in Rhino for a digital fabrication course. We designed and constructed a scale model of a bus shelter using just Grasshopper.
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Conceptual physical models of surface and subsurface mine conditions and forms
Conceptual bus shelter model derived through use of Grasshopper; below is a portion of the definition that laid out extrusions to be cut
CHELSEA, MA 2014-2016 INDEPENDENT STUDIES
LANDSCAPE RESEARCH COLLABORATORS:
Brian Davis Qiuwei Liu Petra Marar Ian Peach Haikun Xu
Throughout my education, I have pursued research opportunities using different methods and explored ways of representing them. In the winter of 2014, I collaborated with Petra Marar and Ian Peach to test methods of aerial photography using a helium balloon at an industrial salt dock in Chelsea, MA. During the summer of 2014, I mapped and visualized combined sewer overflow (CSO) data in Troy, NY and the Hudson River as a research associate of Brian Davis. For my final design studio on Sao Paulo, Brazil, I utilized grasshopper and a geomorphology table with colleagues Qiuwei Liu and Haikun Xu to model conditions and interventions to incorporate into my design process. These different experiences showed me the value of field work, modeling, and fabrication in design and the potential of multidisciplinary approaches and tools in landscape architecture innovation. Funded by Cornell College of Agriculture & Life Sciences Alumni Association Enrichment Grant
25
+20â&#x20AC;&#x2122;
ANGLE OF REPOSE 32°
250°
+20’
ANGLE OF REPOSE 32°
PLAN-MAKERS 40’
30°
60°
180°
150°
120°
90°
Diagrams of salt stockpiling processes using aerial imagery from a camera attached to a helium balloon
High volume CSO 20+ MG
Mid volume CSO
Low volume CSO
outfall 1
outfall 5 outfall 6 outfall 7
outfall 13
1st Ave & 121st St
11.8 MG
1st Ave & 120th St
14.6 MG
1st Ave & 119th St
14.3 MG
1st Ave & 113th St
TROY, NY
0 - 10 MG
10 - 20 MG
17.8 MG
2nd Ave & Roosevelt Ave
0.3 MG
outfall 2 outfall 3
2nd Ave & 124th St 2nd Ave & 123rd St
1.1 MG 6.9 MG
outfall 4
1st Ave & 122nd St
2.0 MG
18 hrs
16 events
26 hrs
17 events
442 hrs
53 events
123 hrs
46 events
543 hrs
55 events 197 hrs
outfall 8 outfall 9 outfall 10 outfall 11 outfall 12 outfall 14 outfall 15 outfall 16 outfall 17 outfall 18 outfall 19 outfall 20
51 events
662 hrs
1st Ave & 118th St
2.0 MG
1st Ave & 117th St
7.6 MG
1st Ave & 116th St
3.3 MG
1st Ave & 115th St
7.5 MG
1st Ave & 114th St
56 events 52 events
174 hrs 214 hrs
50 events 57 events
227 hrs 93 hrs
7.8 MG
44 events
181 hrs
48 events
396 hrs
1st Ave & 112th St
7.6 MG
1st Ave & 111th St
9.8 MG
2nd Ave & 109th St 2nd Ave & 108th St 2nd Ave & 107th St
23 events 168 hrs
4.6 MG 3.9 MG
4.4 MG
2nd Ave & 105th St
1.4 MG
44 events
119 hrs
40 events
214 hrs
1.8 MG
2nd Ave & 106th St
47 events
148 hrs
57 events
214 hrs
57 events 39 hrs
31 events
151 hrs
51 events
City of Troy
outfall 22 outfall 23
51 hrs
outfall 29 outfall 32 outfall 35
22 events
100 hrs
outfall 25 outfall 26
21 events
34 hrs
outfall 24
33 events
20 hrs
18 events
429 hrs
outfall 27 outfall 30 outfall 33 outfall 36
outfall 38
62 events
216 hrs
outfall 28
9 hrs
28 events
34 hrs
outfall 31
21 events
415 hrs
52 events 183 hrs
37 events
265 hrs
outfall 34
45 events 6 hrs
6 events
518 hrs
53 events
723 hrs
outfall 37
56 events 346 hrs
50 events 143 hrs
outfall 39
34 events
186 hrs
outfall 40
outfall 41
33 hrs
37 events 21 events
201 hrs
outfall 42
45 events
62 hrs
outfall 43
30 events
88 hrs
outfall 44
29 events 24 events
88 hrs
outfall 45
29 hrs
outfall 46A outfall 46B
12 events
185 hrs 76 hrs
outfall 47
50 events
10 events
61 hrs
102 hrs
51 events 40 events
41 events
0
0.5
1
2
Miles
Data visualization of CSO events in each outfall of Troy, including duration and volume
1952
Sewershed scale analysis and changes in forest cover
Municipal Boundaries Public Parks City of Troy Municipal Boundary Water ForestedArea 1952 ForestedArea 2011 Water VLC Boundary
0
1
Miles 2
% of the VLC Year Area (Acres) Boundary Area 1952 2967.1 21.6% 2011 3706.8 27.0% 2011
AREAS OF FOREST COVER
Growth of impervious surface over time
1952
2011
SAO PAULO, BRAZIL 3 elevated highways weave through Cebolao dam infrastructure
Rio Tiete from east
layered overpasses
concrete island
Rio Pinheiros from south
park area
3 hi side ghways s of on Cebo lao
river + road disperse at edges of city CEBOLAO + located at intersection of 4 subwatersheds
Rio Tiete
1,048 m3/sec
Rio
overpass only for public transit
Pin
he
iro
“entrance of the city”
s
elevated 3 lane one-way highway
elevated 4 lane one-way highway
Rio Tamanduatei from south canal
997 m3/sec
RIO TAMANDUATEI + located at intersection of 3 subwatersheds + considered one “entrance” to the city
Analysis and mapping of the transportation networks and speed limits of Sao Paulo using GIS and Grasshopper
1000 m
kph 12012 0kph
river + highway disperse at edge of city
120kph
te
o
Ri
38
13
0m
m
1,
15
r
0m
ig ra st
ge ed ed st
90
de
1/4 highways feeding in elevated highways for buses
vege 45m bank tate d s?
78
m
3 lane one-way highway
wi
de
2/4 highways feeding in
kp
h
river + highway at similar elevations
4/4 highways feeding in
90 90kph kp h ph
90k
h
4 lane one-way highway
h
kp
12m
kp
90
3/4 highways feeding in layered overpasses concrete edges e 20m wid
60
river + highway merge as they approach city center
5 lane one-way highway and 3 lane highway feeding in
rail
wi
h
de
wi
6 lane one-way highway
bridge
kp
45,720 m
de
h
4 lane one-way highway and 3 lane highway feeding in
60
m
22,860
wi
kp
90 90kph kp h
dam infrastructure
kph
120
40
0
m
fo
500 m
24
ht
250
s
0
e Ti
60
60k
ph 60kp h
120k 120pkh 12 0kph ph
re
500
fo
0
0
180
360 m
Analysis and testing of the relationship between perforated walls and other forms and sediment in a water channel
Water Trajectories
Velocity
Sediment Sorting
T h a n k Yo u Jinhee Ha ha.jinhee@gmail.com 952 . 797 . 6613 www.jinheeha.com