KIKI COOPER Selected Works 2015-2018
KIKI COOPER The Pennsylvania State University, BLA Emerging Professionals Committee ASLA, LEED GA
+1 413 693 8955 KikiCooper00@gmail.com Brookline, MA
CONTENTS 01
Professional Work Sasaki Charrette 2018: Shifting Gears Illustrative Renderings Physical Models
DIGITALIZATION + FABRICATION
09
“Trenca-Jardí”
15
“Paisley Gardens”
19
Digitalization + Robotization in 2050
Barcelona, Spain Urban Setting Bonn, Germany
PUBLIC REALM
21
“Gowanus Point”
23
“Habitat Huts”
Brooklyn, New York Tanzania, Africa
TECHNICAL
27
Construction Documents
01
KikiCooper00@gmail.com
Shifting Gears Intern Charrette Somerville, Massachusetts Isabel Zempel, Alykhan Mohamed, Sasaki Summer 2018
Sixteen summer interns from various design backgrounds participated in a two-week design charrette to explore how autonomous vehicles may impact the future and create a comprehensive plan and design for the city of Somerville, MA, using major guidelines such as “human-centric� thinking, diversity, and inclusion to develop concepts. This charrette includes scales: Strategic Planning, Urban Spaces, and Streets of the Future. My group focused on Streets of the Future and how AVs enable street to become more accessible, sustainable, and community-oriented. I collaborated specifically on spatial street dynamics and their affect on possible layout outcomes as well as the affects smart furnishing would have on the streetscape in different scenarios. I also collected all final presentation products and converted them to board formats and assembled all collaborated work to complete the story we built together.
Lehigh Bridge West Housing Landscape Illustrative
03
KikiCooper00@gmail.com
Illustrative Renderings Some of my time at Sasaki was spent learning how to build certain skill sets to help achieve aesthetically pleasing master plans. Learning this skill set included learning how to effectively use layer masks in Photoshop to quickly change certain aspects of images.
URI Brookside Apartments Landscape Illustrative Iteration
URI Brookside Apartments Landscape Illustrative Final
In doing so I was able to utilize my file organization skills to navigate through large files establishing a easy work flow for others who need to work on the file as well as reducing file size significantly.
05
KikiCooper00@gmail.com
Physical Model Amherst College Hockey Arena Model made for a project proposal in which the bid was won by Sasaki, with a reasonable amount of credit due to this site model. This model allowed for the clients to see different options for open spaces and athletic fields demonstrated by project managers. This task was split into two in which my partner focused on lasercutting the contours of the landscape and I focused on 3D printing all the buildings. The assembly was a joint effort that many people were pleased with.
All Photo Credit: Matt Arielly
07
KikiCooper00@gmail.com
Physical Model Triangle Green Model made for a campus project in Boston using lasercutted MDF, wire, and 3D printed material. All hands were needed to assemble the final model, however, I specifically worked on all wire work (trees and poles).
All Photo Credit: Andrea Varutti
One challenging portion of this model was accurately representing the grade change where the site matched the street grade level due to material thicknesses. It was priority to plan ahead to compensate or any unexpected model complications.
Sagrada
F am
ília
Casa
là
M i
Pa rk
G
üe ll
09
Barcelona, Spain 1 : 50,000 m KikiCooper00@gmail.com
Trenca-Jardí Barcelona, Spain Foreign Studies Studio Neil Korostoff, Miguel Roldán Summer 2018 Trenca-Jardí aims amplify past and present occurrences through historic characteristics culturally unique to Barcelona. Remarkable work from Antoni Gaudí such as the architectural embellishments of Park Güell, Casa Milà, and Sagrada Família serve as direct references for inspiration for this design. Abstracting the infamous trencadís mosaic technologically and via landscape offers multiple point of stimulation and engagement especially on a multilayered landscape that allows the hybridization of the past and present through design. The design comes together with a singular geometric formation that combines characteristics of an elevated garden while also giving access to historical ruins while also connecting many users to not only just it’s specific location, but also many other locations around Barcelona through the perspective of everyone using technology to record their experiences.
Textures
10
Urban Tissue Typologies Organic vs. Grid Roman
Medieval
Medieval
Organic
Organic
Organic
Grid
Modern
Modern
Organic Grid
Organic Grid
19/20th Century
Grid
19/20th Century
Grid
19/20th Century
Section
1 : 500 m
11
KikiCooper00@gmail.com
Multilayered experiences demonstrated utilizing the ruins, elevated gardens and the original ground plane.
Design Iteration 1
Design Iteration 2
Design Iteration 3
12
1
1. Elevated Garden
2 2. Trenca-Screens
3. Aqueducts 3
4
4. Trenca-Gardens
4
5
5. Hologram & Ruins
5
6. The Kiss 6
13
KikiCooper00@gmail.com
Paisley Gardens Urban Setting 414 Studio: Memorial Design Jennifer Birkeland Fall 2017 Commemorating the musician and pop culture icon, Prince, with a memorial design that uses representations of his life, personality, activism, to create a place that can be used for multiple events and activities that give back to the community in an urban context. A series of memorial study exercises were completed as supplement to this project allowing me to amplify and deconstruct memorials creatively in ways I otherwise would not have originally been able to do. This project holds sentimental value because Prince was an iconic musical genius that paved the way for many black men being comfortable with being feminine.
KikiCooper00@gmail.com
16
Process: Representational Studies
Eye/Make Eye/Make Eye/Make Eye/Make UpUp asUp Framework as Up as Framework as Framework Framework
Planting Color Pallet
These studies helped create a guideline of design tools using Prince’s eyes, brows and liner as a framework; his infamous ruffle shirts as an aesthetic flow (frills vs. smooth); and certain feminine features such as flowers as a color palette to follow.
Sculptural Abstractions Using the results from the representational studies, I was able to model sculptural pieces that could utilized as many different features throughout the site. Examples of this can be see to the left labeled “Multi-Use Follies”.
Fabrication Mock-Ups
Site Plan 1:20
0’ 20’
60’
N
Multi-Use Follies
Ruffle Formation & Paisley “Pocket” Perspectives
18
8. Robots | Space-sharing with Humans
5. Virtual Reality | Natural
2018
Münsterplatz Bonn Vision
Robots‘ Size Regulation Urban Settings
Natural Settings
Service Robots
Minimum
In a natural setting such as a visit to an arboretum or on a hike in a mountain, virtual reality might be able to identify and provide informational data to inform the user of
AI Citizen
the species that are native or non-native 2050
Human
Maximum
Maximum
to where they are. This might serve as a supplement to help get people outdoors
Robots & Human Interaction
more and encourage natural exploration or
5. AI Infrastructure | AI Outdoor Furniture
take a break from a tech-savvy life.
Robots
AI Seating
In order to create a safe and confident environment
for humans in a shared-landscape. All robots are set to Human Because of the development of AI Seating, less public seating will occur in the urban area. detour when and detecting human movement The AI seat will be flexible toautomatically change locations, functions its shape. unless they are serving enclosed.
The AI seat can change its shape to different 5cm
forms that serve various human demands.
70cm
40cm 60cm
Suggested Demension
Response to Human Demand
-10 °C
5 °C
30 °C
The AI seats respond to outdoor temperature, sunlight and wind
5. Virtual Reality (Kiki Cooper) 8. Robots (Xiaoji Zhou) 5. AI Infrastructure (Jingyin Zhu)
19
15 °C Response to Weather
20 °C
20 °C
direction during the different times of the year.
The AI seat responds to each users‘ height, body shape, and temperature
Digitalization + Robotization in 2050 Bonn, Germany Foreign Studies Studio Bruno Rรถver Spring 2018 Collaborators: Xiaoji Zhou, Jingyin Zhu A study of how technology could change the urban landscape in Bonn, Germany in the near future. The main intent was to discuss scenarios in which common things Germans interact with would be impacted and shaped by specifically digitalization and robotization. These topics along with 5 others would then be collectively used by the class to inform decisions for everyones respective sites scattered throughout Bonn. The other categories included biodiversity, climate change, food supply, future mobility, and migration. While many of these topics presented many intersectionalities, our group focused on virtual reality, holograms, security systems, artificial intelligence, and robots would influence a plethora of criteria.
KikiCooper00@gmail.com
20
the plaza
Bird’s Eye Perspective
the promenade
the point
A PLACE FOR THE COMMUNITY
relaxation
entertainment
play
health & wellness
Process
Gowanus Point vegetation
Brooklyn, New York Public Community Design Studio Jennifer Birkeland, Ken Tamminga Spring 2017
spatial
circulation
infrastructure
resiliency planting
This project is a multifunctional and engaging community space that supports history and art in the community through spatial programming. Existing industrial buildings that host art exhibitions were designed to remain, but also expand into the site. The goal of this design is to immerse visitors, highlight resilient plantings, and cater to the restoration efforts of the Gowanus Canal Conservancy. Extensive research and analysis was compiled to assist in determining proper plants that would thrive in the Brooklyn climate with limited soil growth. Plantings necessary for salt marshes were also cataloged for placement along the northern portion of the site. Other existing issues of the site include mitigation of city salt storage and “abandoned� bus infrastructure. Elements such as using facades as public art displays helps to incorporate community involvement and allowing salt storage to maintain an certain amount of space for seasonal functions.
salt marsh
KikiCooper00@gmail.com
22
A modular system displaying “ecosystem linkages� between producers and consumers.
23
The huts are constructed out of local material providing a third reuse cycle for bamboo and mosquito nets from villagers.
Habitat Huts Udzungwa Mtns National Park Tanzania, Africa Foreign Studies Studio Larry Gorenflo, Carter Hunt Summer 2017 This study abroad project is a multifaceted approach to solving economic and environmental issues in the Udzungwa Mountains and surrounding villages. Habitat Huts call for using available resources to build facilities and providing locals with specific skill sets needed to maintain a successful business and sustainability model. This fosters the education and empowerment of locals. Inspiration of this design concept is based off a modular system that can take on its own formation through the conceptualization of “ecosystem linkages� combining wildlife, conservation, and community. Flora and fauna of the Udzungwa Mountains contributes to the limited biodiversity hotspots throughout the world and the Eastern Arc Mountains. Habitat Examples
KikiCooper00@gmail.com
24
Butterfly Habitat Hut Iteration
Vertical space is needed for both larger trees and shrubs as well as allowing more space for butterflies to flutter around.
Chameleon Habitat Hut Iteration
Vegetative shrubbery acts as hedgerows designed to camouflage visitors from other visitors much like chameleons camouflage themselves according to their mood.
ps
WALKWAY
ML (1)
MIX 5 (86)
LB (1)
SD (1)
QUIANA DICKSON
LB (1) MIX 1 (111)
PC (1)
AA (1) PV (149) SEATING
LB (2)
PV (28) LB (1)
CA (70)
2 L-1
PLANTING SCHEDULE
GRAVEL JS (4) KL (5)
KL (1) FG (149)
MIX 3 (182) 3 L-1
LEGEND OF MASS PLANTINGS
MIX 4 (998)
CA (35)
SD (1) MIX 2 (111)
EES BUILDING
ML (1) LB (1) LB (1)
SD (2)
LARCH 332: PLANTING METHODS
SEATING
MIX 5 (261) PV (17)
MIX 6 (153) MIX 1 (124)
DATE: FEBRUARY 13, DRAWN BY: QUIANA JOB NUMBER: 332
WALKWAY
1 L-1
MIXED PLANTING BED CALLOUT Scale: 1/4" = 1' - 0"
L
Planting Schedule Planting Methods Ken Tamminga Spring 2017 This design module focuses on creating a planting installation in detail using the skills learned to choose appropriate plant species and cultivars based off of characteristics. Located next in the most western part of campus, Informational Systems Students are in need of a green space to accommodate for the dim interior of classrooms in the area. This mixed planting bed is at an intimate scale and the goal was to strive for a complex and harmonious design providing students with a moment of appreciation for their outdoor surroundings. Another goal of this module was to document the planting implementations using AutoCad in a compiled and comprehensive schedule with professional quality.
KikiCooper00@gmail.com
28
PRO
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+
+ +
+
+
BC 1108.95 TC 1109.48 BC 1108.98
+
+
+
1109
1112
+
+ TC 1111.80
1102 .50 + +
+
BC 1108.08
BC 1108.16 + TC 1108.70 BC 1108.20 +
CL
BC 1108.47
TC 1109.01 BC 1108.51
TC 1109.17 BC 1108.67 BC 1108.71 BC 1108.79 + TC 1109.33 BC 1108.83
+ 1106.50 + 1107.25
1105.50
%
ROADWAY+
BC 1112.20
TC 1112.61 BC 1112.11
2)
++
+
(1113)
2.00%
2.00%
+1107.00
%
1.60
1 L10.03
+1106.00
47
BC 1111.58
+ TC 1112.70
+1105.50
3-6 L10.03
RDI 2.2 Rim 1102.50
+ 1108.25
+
1106.25
%
+
+
++
1109.00 1109.11 ++ 1108.32 +BF1108.14
BF 1109.40
+ 1109.25
SEE DETAIL
1 L10.03 1106.25
1107.25
1.
+
1109.03
TC 1111.05 BC 1110.55
TC 1108.23 BC 1107.73
+
+ 110X.XX
0
+ + STAIRS + + + RETAINING WALL
47
1103
++ +
BR 1109.00
BR 1106.37 + BR 1106.49 ++BR 1106.90
+ 4) (111
+
+
TC 1111.07 BC 1110.57
+ TC 1112.08
+
+ 110X.XX
+ 1108.50
+ LPS 1105.50
1108.25 1107.25 1109.25 + 1107.25 RDI 4.6 11 1107.35 TC 1110.19 07 1098.50 11 1107.35 Rim 1109.00 .00 BC 1109.69 07 Rim 1109.00 .00 1108.50 1107.50 BR 1109.00 1107.48 1108.50 1107.50 TC 1110.54 1108.50 1097.50 1107.48 1109.01 1106.50 1108.50 BC 1110.04 1109.01 1108.50 1106.50 1110.25 1109.25 1109.02 1108.50 1110.25 110 1109.25 1108.14 1109.02 1107.25 9.00 110 + 1108.14 RDI 4.4 1107.25 9.00 TC 1109.96 + RDI 4.4 1098.50 TC 1109.96 RDI 4.5 1108.50 1108.07 Rim 1107.00 BC 1109.46 + RDI 4.5 + 1108.50 1109.25 1108.07 1106.50 Rim 1107.00 Rim 1108.00 BC 1109.46 1109.50 + + 1097.50 1109.25 1106.50 Rim 1108.00 1109.501109.25 1109.25 1109.96 1107.50 1109.96 09 RDI 1.3 BF 1110.46 1107.50 1099.01 09 RDI 1.3 1109.00 11 1109.20 1097.50 Rim 1110.00 1109.00 11 1109.20 1109.23 Rim1107.50 1110.00 TC 1111.45 + 2 1109.23 1107.50 1110.25 + 2 TC 1109.78 + 1098.90 BC 1110.95 1110.25 1109.50 1098.15 TC 1109.78 + RDI 5.2 L10.03 1109.50 + BC 1109.28 BR 1108.74 L10.03 + 1108.88 BC 1109.28 1110.00 .00 1108.25 BR 1108.74 1108.88 1110.00 .00 1108.25 TC 1111.07 TC 1109.56 SEE DETAIL 1108 1108.97 Rim 1098.00 08 2nd FLOOR TC 1109.56 SEE DETAIL 11 1108.97 BC 1109.06 BC 1110.57BR 1108.85 1098.50 BC 1109.06 1108.94 FFE 1099.01 1.42% BR 1108.85 1097.50 11 1108.94 BF 1109.06 DI 4.7 09 111108.82 1st FLOOR TC 1111.05 1.09% 1108.82 HPSBF 1109.06 0.77% .00 1109.01 DI 4.7 09 BF 1109.95 TC 1113.10 TC 1110.28 1st FLOOR Rim1110.55 1108.65 1.09% 1109.00 HPS .00 1109.01 BC 0.77% FFE 1109.01 BF 1109.95 TC 1110.28 1109.02 Rim 1108.65 1112.08 1108.50 BC1112.60 1109.78 BF 1109.44 TC1108.50 BC 1109.00 FFE 1109.01 TC 1109.50 1109.02 1108.50 1108.50 BC 1109.78 BF 1109.44 TC 1109.50 BC 1111.58 RDI 4.8 BC 1109.00 1098.90 TC 1109.94 2.00% BR 1108.54 RDI 4.8 BC 1109.00 TC 1109.94 1099.01 1098.15 BC 1109.44 Rim 1109.00 BR 1108.85 BR 1108.54 1.05% TC 1112.70 BC Rim NEED PIPE 1109.00 BR 1108.85 1109.44 2.00% 1.05% NEED PIPE BC 1112.20 TC 1111.13 TC 1110.70 1108.50 HERE BF 1109.30 1098.50 TC1108.50 1110.70 1108.50 BC 1110.63 BC 1110.20 1108.50 HERE BF 1109.30 1107.25 BC 1110.20 1107.25 TC 1109.54 % 1107.25 TC 1110.22 TC 1109.54 52 BC 1109.04 1107.25 TC 1110.22 1106.50 HPS 1. 1109.27 BC 1109.04 BC 1109.72 1106.50 TC 1112.61 1109.27 BC 1109.72 1111.07 BC 1112.11 RDI 6.2 1098.50 1.59% TC 1109.60 1109.25 1108.50 1.59% RDI 6.2 Rim 1107.00 TC 1109.60 1109.25 1108.50 BC 1109.10 TW 1101.50 Rim 1107.00 BC 1109.10 BW 1099.00 1108.50 1106.50 1110.00 1109.25 1109.25 1099.00 1108.50 1107.25 1106.50 1110.00 1109.25 1109.25 1107.25 1108.00 TC 1111.80 1098.40 1107.25 1107.25 1108.00 1107.25 RDI 6.3 BC 1111.30 1107.25 RDI 6.3 2.2 Rim 1109.00 TW 1100.90 1108.50 1109.25 20.00% max 2.2 0% Rim 1109.00 1108.50 1109.25 1106.50 0% BW 1098.40 1106.50 1109 1109 .00 1109.25 .00 1109.25 1109.00 1109.00 1107.25 1107.25 + 1108.87
TC 1110.19
+ BC 1109.69
+
BF 1110.46 TC 1111.45 BC 1110.95
+
TC 1107.52 + BC 1107.02 BR 1107.02
TC 1113.10 BC 1112.60
BC 1107.77
+
DI 1.2 Rim 1109.25
+
RDI 4.3 Rim 1107.00
1103
BC 1107.85 TC 1108.40 BC 1107.90
+ 1108.16
+ 1109.25
+ 1109.25 + TC 1110.69 BC + 1110.19
+ 1106.25
6.0
1106.50
+
1102
TC 1109.98+ + BC 1109.48 +
TC 1108.55 BC 1108.05
+
+ 1108.24
+ 1108.47 + 1108.55
+ 1108.79
+
0%
+
+
+
+
0%
BC 1108.08
BC 1108.16 + TC 1108.70 BC 1108.20 +
TC 1108.85 BC 1108.35
+
BC 1108.39
+
+
06
+
TC 1110.55
+ BC 1110.05
BC 1108.47 TC 1109.01 BC 1108.51
TC 1109.17 BC 1108.67 BC 1108.71 BC 1108.79 + TC 1109.33 BC 1108.83
110
TC 1107.89 BC 1107.39 1106.25 TC 1107.98 RDI 4.2 Rim 1106.00 BC 1107.48
1.
TC 1110.54 BC 1110.04
+ 1101.75
%
1.60
BC 1107.44
+1105.50
1111
5)
3-6 L10.03
TC 1109.50
+ BC 1109.00
+
1109.00 BF 1109.11
+
SEE DETAIL
09 11
+ 1102.60 (111
TC 1110.69 BC 1110.19
+
BF 1109.40
09 11
2
+
+
DI 1.2 Rim 1109.25
+
11
TC 1110.55
+ BC 1110.05
+ 1106.50 +TC1107.25 1109.50 + BC 1109.00 +
1108.50 TC 1108.11 1108.50 BC 1107.61
+
1106.25 % 1.60
+ 1106.15 + 1106.25 SEE DETAIL
+1106.00+TC 1107.94
1106.25
+1107.25
RDI 4.3 Rim 1107.00
SIDEWALK
TW 1108.80 BW 1106.40
+
07 11
1108.50
TC 1109.98 BC 1109.48
1101
+
+
+
08 11
+ BC 1110.31
+
TC 1107.89 BC 1107.39
+
RDI 3.2 Rim 1106.00
DI 3.4 Rim 1107.15
1106.50
07 11
SEE DETAIL TC 1110.81
1108.50
0
+
+BR 1106.39
1105.50
1105.50 + LPS1106.50 +
+ 1106.25
6.0
+
+ 1102.60
+
TC 1107.98 BC 1107.48
08 11
1.60
+
TC 1110.81
110
BF 1109.21
%
+ BC 1110.31
110
DI 3.4 Rim 1107.15
+
TC 1107.94 BC 1107.44 TC 1109.59 BC 1109.09
+
1.3
11
11
11
11
+
+
1099
+
TC 1109.59 BC 1109.09
.00
09
07
05
11
+ 1106.50
1106.50
BF 1109.21
BR 1106.39 1105.50
+
BR 1106.51 BR 1106.50 DI 3.3 Rim 1106.48 BR 1106.50 TC 1107.38 BC 1106.88
+ SIDEWALK +
+
(1
+
BF 1107.22
1100
1105.50
BR 1106.86
BR 1107.22 TC 1107.65 BC 1107.15
+ 1106.15 + 1106.25
+
+
+ +
TW 1108.80 BW 1106.40
RDI 3.2 Rim 1106.00
Out INV 4.1
11
TC 1107.56 BC 1107.06
+
+BR 1106.39
Out INV 3.1
RETAINING WALL
1105
Out INV 4.1
1.3
+
BR 1106.07
+
1101
+
+ Out INV 2.1+
+
.00
BR 1106.39 1105.50
+
BR 1106.51 BR 1106.50 DI 3.3 Rim 1106.48 BR 1106.50 TC 1107.38 BC 1106.88
07
+
1106.50
1104
1102.60
11
11
+
++
+
+ RETAINING WALL + +
TC 1107.62 BC 1107.12
+
1101.75
1102.50
+
Out INV 3.1BR 1106.49 BR 1106.37 BR 1106.90
05
+
+ +
BF 1107.22
RDI 2.2 Rim 1102.50
1103
1102.60
TC 1107.52 BC 1107.02 BR 1107.02
+ 1105
TW 1109.50 BW 1107.00
+
1104
+
+
BR 1106.86
BR 1107.22 TC 1107.65 BC 1107.15
BR 1110.10
BR 1106.07
1107 +
1108
1109
+
1102.60
TS 1109.00
10
+
02
1104
BS 1104.00
+
TC 1107.56 BC 1107.06
11
1108
1109 BR 1110.10
+
TC 1107.62 BC 1107.12
+ 1101.75
1101
11031101.75 + 11
041102.50
TS 1104.00
TC 1107.52 BC 1107.02 BR 1107.02
TW 1109.50 BW 1107.00
+ 1102.60
RDI 2.2 Rim 1102.50
11
11
10
1103 1105 BR 1106.37 + BR 1106.49 ++BR 1106.90 1106
06
11
PARKING +
1106
1107
+
+
1102.60
11
PARKING
Out INV 1.1 1101.75
1101
1102
BS 1099.00
04
TYP 11 Treads at 12" 11 Risers at 5.45"
1103
11 1105
1)
+ 1102.60 Out INV 1.1
CL
FFE
LARCH 431
Out INV 2.1
09
Out INV 2.1
PRO STUDENT NUMBER 131
24.00
ps
LARCH 431
24.00
EXISTING 5' CONTOURS EXISTING 5' CONTOURS
psu
STUCKEMAN FAMILY BUILDING UNIVERSITY PARK, PA
(24.00)
STORMWATER MANAGEMENT
(24.00)
(24.00)
STUDENT NUMBER 131
(24.00)
EXISTING 1' CONTOURS EXISTING 1' CONTOURS
DESIGN IMPLEMENTATION
LEGENDLEGEND
BF 0'
40
SCALE: 1" = 40' - 0"
TC
DATE: DECEMBER 9, 201 DRAWN BY: 131
JOB NUMBER: 010
L10
BC
TW BW TS
Out INV 2.1
+ 1102.60
BR 1106.07
+
TC 1107.56 BC 1107.06
110
8
+
+
BR 1106.86
+
BF 1107.22
+
+
+BR 1106.39
+ SIDEWALK Design Implementation + Stuart Echols, + + Hong Wu + Fall 2017 +
+ 1106.50
1106.15
+
110
+
TC 1109.60 BC 1109.10
+
+
1110.00
3
2.2
0%
1109.25
+ 1109.25 + 1108.50
+
110
11
13
5) (111
+
0
+
+
1106.50
DROP OFF
1107.25
7)
10
(1
6)
6.
BS 1099.00
TS 1104.00
TYP 11 Treads at 12" 11 Risers at 5.45"
01 4)
(110
+
RDI 5.2
+
)
03
1 (1
05
+
11
)
02
1 (1
Ou
Rim 1098.00 1098.50
+
+
+ 1098.50
%
52
1.
+ 1098.50 1098.40
+ +
%
11 07
11
+
1097.50
1097.50
1098.15
+
Out INV 6.1
5)
1103
1104
60
LPS 1101.70
TW 1100.90 BW 1098.40
RETAINING WA
7)
09
(1
02
3 10
(110
TS 1109.00
20.00% max
11
1
(110
1098.90
TW 1101.50 BW 1099.00 1099.00
+
1106.00
08
(1
10
8)
1108.00
+1107.25
1098.15
1.42%
Knowledgeable skill sets obtained + during thisC exercise include calculating L + slope, cut and fill, drainage systems, and stormwater run-off management.
11
(1109)
BS 1104.00
0%
1107.25
0)
(111
1109.00
1106.50
1109
1110
+
1
1)
1st FLOOR FFE 1109.01
1107.25
4 10
(111
.00 2.0 0%
.0 07 11 1107.25
RDI 6.3 Rim 1109.00
12)
(11
1108.82
RDI 6.2 Rim 1107.00
1111
(1
0.77%
1107.25
+ LPS 1108.45
)
3 11
HPS 1108.50
1106.50
Multiple step-by-step zoning calculations determined areas that needed the more bioretention to fulfill impermeable-topermeable surface percentage requirements. 4) (111
1098.90
1099.01
+ 1109.25
9.0
1109.00
+1109.27 1109.25 + 1108.50 + 1108.50 +1109.25 +
+ 1098.50 +
1099.01
2nd FLOOR FFE 1099.01
TW 1101.00 BW 1098.50
+
1097.50
09 11+1109.20
+
1108.88
%
111
+
1109.00
2.80
CL
1108.50
+
+
+
+ 1098.50
1097.50
6)
1.59%
+
+
TC 1109.54 BC 1109.04
TC 1110.22 BC 1109.72
1109.01
+ 1109.02+ + + BR 1108.54 NEED PIPE + 1108.50 HERE
+
1108.50
09
BF 1109.30
+
+
1106.50
1108.50
1108.14
Detailing the landscape surrounding+a + + + future facility, Center for Sustainability, + + involved many steps +of the design + + process that correlates with knowledge PLAZA + + critical+ to future success in professional practice licensure. +
1.09%
1098.50 1098.00
(1
TC 1110.70 BC 1110.20
+
+1108.07
99
+
+ +
1098.40
10
TC 1111.13 BC 1110.63
+
HPS 1111.07
1.05%
1099.00
00
BC 1109.78
1107.25
0 8.0 1108.25
110
+
+
11
+ TC 1110.28
+
20.00% max
+
)
BF 1109.95
2.00%
BR 1108.85 11 BF 1109.06 DI 4.7 09 .00 Rim 1108.65 1108.50 BF 1109.44 TC 1109.50 RDI 4.8 BC 1109.00 TC 1109.94 BC 1109.44 Rim 1109.00 BR 1108.85
+
+ BR 1108.74 +1108.97 + 1108.94
TC 110X.71 + BC 1108.69
1107.48
RDI 4.4 Rim 1107.00
+1107.50
+ 1107.50
+ 1108.78 BC 1108.70 +
SEE DETAIL
+
+ 1109.25
.00
1106.50
RDI 4.5 Rim 1108.00
+
1107.35
07
+1107.50 1109.25
+
11
+
98
BC 1111.58
2.00%
2 L10.03
TC 1109.78
TC 1109.56 BC 1109.06
+
TC 1111.05 BC 1110.55
+ 1109.23
+ BC 1109.28
1109
+ 1110.25
1112
1112
+
1109.50
+BC 1108.95 + TC 1109.48 BC 1108.98
+ 1109.25
1107.25
1109.00
%
RDI 1.3 Rim 1110.00
9.00
TW 1110.50 BW 1108.00
1108.00
1107.00
47
+ +1109.96
+ 1108.50
110
+1109.03
1106.25
1.
+ TC 1112.08
TC 1109.96 BC 1109.46
1110.00
+
1108.50
1109.01
RDI 4.2 Rim 1106.00
1105.50
+ 1108.14
+ 1108.25 1108.25 +1109.25
+ 1108.50 RDI 4.6 Rim 1109.00
+
++ + 1109.02
BR 1109.00
1109.50
+
TC 1111.07 BC 1110.57
+ 1109.25
+ 1108.87
+1110.25 +
+ 1109.25
+ 1108.79
+ 1108.32
+ 1106.25
1)
10
(1
(10
09
1112
TC 1111.45 BC 1110.95
+
+
+
+
+ 1109.25
+ 1108.55
+
+ 110X.XX
+ 1108.16
+ 1108.24
+ 1108.47
TC 1109.17 BC 1108.67
BC 1108.71
+
+
+ 110X.XX
+1105.50
The goal of technical comprehensive + project is to transform a+ design into reality. Using the eastern most part of + + + campus, I combined grading drainage, CL + pedestrian and vehicular circulation, + + + and +other +site improvements to resolve + + design issues. + +
+ 1106.50 + 1107.25
+
TC 1108.23 BC 1107.73
BC 1107.77
+
+
1.3
+
BC 1108.79 + TC 1109.33 BC 1108.83
BF 1110.46
TC 1108.85 BC 1108.35
+
BC 1108.39
+
+
BC 1107.85 + TC 1108.40 + BC 1107.90
TC 1108.55 BC 1108.05
+
BC 1108.47 TC 1109.01 BC 1108.51
+ BC 1109.69
+
STAIRS RETAINING WA
0 BC 1108.08 BC 1108.16 + TC 1108.70 BC 1108.20 +
1106.25
7. 00
1109.00 BF 1109.11 1109.40 0% 1.6
TC 1110.19
TC 1110.54 BC 1110.04
+
11 0
+
+
+
06
+ BF
11
+
TC 1110.69 BC 1110.19
SEE DETAIL
1 L10.03
+1106.00
1106.25
+1107.25
RDI 4.3 Rim 1107.00
TC 1108.11 BC 1107.61
3-6 L10.03
TC 1109.50 BC 1109.00
+
11
+
+
DI 1.2 Rim 1109.25
08
TC 1109.98 BC 1109.48
TC 1107.98 BC 1107.48
11
SEE DETAIL
1108.50 TC 1110.55
TC 1107.89 BC 1107.39
0%
1.6
1108.50
+ BC 1110.05
+
07
BC 1107.44
+
TC 1110.81
+ BC 1110.31
LPS 1105.50
1106.25
0
1106.50
11
+
+TC 1107.94
+
1106.25
6.0
DI 3.4 Rim 1107.15
TC 1109.59 BC 1109.09
TW 1108.80 BW 1106.40
RDI 3.2 Rim 1106.00
1105.50
1106.50
BF 1109.21
Out INV 4.1
BR 1106.39 1105.50
06
BR 1110.10
5
+
+
+
+
Out INV 3.1
110
+
BR 1106.51 BR 1106.50 DI 3.3 Rim 1106.48 BR 1106.50 11 TC 1107.38 07 .00 BC 1106.88
+ +
BR 1107.22 TC 1107.65 BC 1107.15
1109
+
09 2) (1 09 1) (1 09 0)
TC 1107.62 BC 1107.12
1102.60
93 )
7
+
Technical Grading RETAINING WALL 1104
(1
+
TW 1109.50 BW 1107.00
BR 1106.37 + BR 1106.49 ++BR 1106.90
+
11
110
TC 1107.52 BC 1107.02 BR 1107.02
1099
6
+
4)
110
1101.75
1102.50
1103
(1 0
5
PARKING
RDI 2.2 Rim 1102.50
1100
+ 1102.60
(1 09
2
(1 09 5)
110
1101
110
1102
04
1101
1103
11
+ 1101.75
11 05
Out INV 1.1
)
(1
0 10
9)
09
(1
KikiCooper00@gmail.com
30
PROJ. OFFICER: MARC MILLER, TIM BAIRD PROJ. MGR: MARC MILLER SUBMISSION: 5:00 PM DUE DATE: DECEMBER 9, 2016
STUCKEMAN
N
+ 215.8
+ 216.5
3 L4
+ 221.10 TOP OF FOUNDATION WALL + 217.5 EXG. PIPE STAND
PALMER MUSEUM
+ 215.85 TOP OF EXG. INLET
TOP OF EXG. MANHOLE COVER 218.10 +
218.45 + TOP OF EXG. MANHOLE COVER
GRATE
+ 219.10 TOP OF EXG. INLET
PLANTINGS
5 L3
+ 221.10 TOP OF STAIR
+ 217.91TOP OF EXG. WATER LINE + 217.91 TOP OF EXG. WATER LINE
5 L4
1 L5
6 L4
+ 216.25 EXG. HYDRANT
2 L5
TOP OF EXG. INLET + 217.75
4 L4
TURF
RECYCLED PLASTIC
+ 216.50
TURF
CONCRETE
+ 217.50 TOP OF EXG. INLET 1 L4
+ 218.50 TOP OF EXG. MANHOLE COVER + 218.50 TOP OF EXG. MANHOLE COVER
ARTS YARD CONSTRUCTION DOCUMENTS
+ 221.10 TOP OF EXG. LIGHT POST FOOTING
LARCH 311 DESIGN IMPLEMENTATION
+ 216.3
PROJ. OFF PROJ. MGR SUBMISSIO DUE DATE:
STONE SLAT + 218.75
2 L3
218.5 + 3 L3
2 L4
GRANITE
(alternating in color)
DESIGNED BY:QUIANA DICKSON DRAWN BY: QUIANA DICKSON CHECKED BY: Section: MARC MILLER/TIM BAIRD Site Large Patio 1 L8 Scale: 1/4" = 1' - 0" FILE NAME: MATERIAL PLAN
GRANITE + 221.36 TOP OF CONC. PAD
1 L3
(alternating in color)
218.95 + 4 L3
Tree
DRAWING NO.
VISUAL ARTS 1 L2
L2
Demo and Site Prep Plan Scale: 1" = 10 - 0"
SHEET - 2 OF 9
DESIGNE DRAWN B CHECKE FILE NAM
DRAWING
2 L8
Site Section: Repeated Seating Scale: 1/2" = 1' - 0"
2"
3"
6"
Slabs of Shale Planting Soil Line of Material, Concrete 4"
Compacted Aggregate
4"
Slabs of Shale (sim. to 3)
Compacted Subgrade
Filter Fabric Backfill from pit excavation 2 L3
Undisturbed Soil
4 L3
Concrete to Shale Garden Scale: 1" = 1' - 0"
Tree Pit
ARTS YA CONSTRUCTION D
LARCH 311 DESIGN IMP
12'
1'-6"
Scale: 1/2" = 1' - 0"
Planting Line of Material, Fiberglass Grate
Planting
1/2"
9 1/2"
Line of Material, Concrete
Arts Yard
Compacted Aggregate
Compacted Aggregate
Rock
Gabion Basket Seating
Enlarged Plan at Gabion Basket Seating Scale: 1" = 1' - 0"
3' 2"
5 L7
1'-6"
Line of Material, Fiberglass Grate Rocks Gabion Basket Seating
Line of Material, Sand; shim as required Line of Material, Concrete
1/2"
4" 3"
Planting, Turf Grass Planting Soil
Compacted Aggregate
Ground Bega Light
Line of Material, Brick Compacted Subgrade
Line of Material, Sand
1'
Detail at Gabion Scale: 1" = 1' - 0" 1'-6"
5 L4
Gravel, soil below 5"
9 1/2"
Line of Material, Recycled Plastic
3'
3/4" Line of Material, Concrete
6"
Concrete Joint
Line of Material, Apoxy Compacted Aggregate Coated Aluminum
6'-3 1/2"
Compacted Subgrade Steel Post Typ.
4 L4
7'-3 1/2"
Lighting Details L9
Concrete Joint 16'
6"
9"
s near Trench Drain
Scale: 1" = 1' - 0"
SHEET - 3 OF 9
PROJ. MGR: MARC MILLER SUBMISSION: 5:00 PM DUE DECEMBER 2016 TheDATE: outcome of9, this
project was to stimulate the thinking about materials N used on construction site and how to properly articulate details in a series of drawing sheets as a construction document set.
The design intent of this project was to transform a space used primarily for circulation into a space for relaxation and gathering. The surrounding arts PROJ. OFFICER: MARC MILLER, TIM BAIRD PROJ. MGR: MARC MILLER facilities would benefit from both multiSUBMISSION: 5:00 PM DUEuse DATE: DECEMBER space9, 2016 focusing on art, exhibitions, and performance space. This project N also highlights the key linear design details of materials on a larger scale throughout the space. ONSTRUCTION DOCUMENTS
Fiberglass Grate
L3
A.C. Unit Concrete Pad
Scale: 1" = 1' - 0"
LARCH 311 DESIGN IMPLEMENTATION ARTS YARD
Scale: 1" = 1' - 0"
Metal Clamps, secure Fiberglass Grate to Gabion Basket
5 L7
Design Implementation: Materials Marc Miller, Timothy C. Baird Fall 2016 PROJ. OFFICER: MARC MILLER, TIM BAIRD 1 L3
Gabion Seating Walkway
2 L3
DRAWING NO.
Compacted Subgrade
H 311 DESIGN IMPLEMENTATION
Compacted Subgrade
DESIGNED BY:QUIANA DICKSON DRAWN BY: QUIANA DICKSON CHECKED BY:MARC MILLER/TIM BAIRD FILE NAME: DETAIL DRAWINGS
2'
ARTS YARD CONSTRUCTION DOCUMENTS
Line of Material, Sand
2'-10"
Line of Material, Metal
Line of Material, Concrete
3" 4"
1'-6"
Line of Material, Granite
4"
Line of Material, Glass
Gabion Basket Seating Filled with Stones
2"
2'-11 1/2"
1'-6"
KikiCooper00@gmail.com
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