Lili Smith
Design Portfolio 2020
Profile Lili Smith
lilismithanne@gmail.com
Architect, Urban Designer, BIM and Certified Revit Specialist
+46 (076) 161 68 58
As an Architect, Urban designer and BIM expert with over 12 years of experience, my strengths as a designer lie in my ability to cross collateralize both creative and analytical thought. I have the ability to understand and utilize technical tools while remaining creative in how I approach design work and find solutions. During my design career I have worked within a range of disciplines, scopes, scales and phases, from interior design and varying types of architectural design to BIM management for structural engineering. My responsibilities have included BIM management and integration, environmental analysis, design development and coordination, 3-d modeling, drafting, visualizations, project management, permit processing, construction detailing, structural drawings, and integrating multi-program platforms. I have worked with BIM on large projects such as the Transbay Tower development in San Francisco, BART transport, and S.F. Public Water Works. In addition, I have years of relatable experience as a small business owner in real estate and technical art services, where I further practiced skills of project management, business development and client relations. I offer a strong collective experience with a unique scope of knowledge, including both design and business, together with technical ability for digitization. As a colleague, I have an eager and open enthusiasm for all work requirements. I am self starting and self driven, however I seek to be around others and work as a team towards shared goals and values. My agility helps me remain calm and patient under pressure and able to work in various capacities at once. I am a fast learner and an avid problem solver with a high level of attention to detail, and I thrive on new challenges. I would appreciate the opportunity to meet with you to discuss how my experience can best meet your needs in current or upcoming positions as an employee or specialized consultant.
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CV Employment OffsiteBelgium, Prefab Bathroom Pods / offsitebelgium.be BIM/ Revit Design Consultant, Designer
Re-organization of the design process from AutoCad to Revit, 2-D to 3-D BIM set up, modeling, project template creation and training. Production of design drawings for clients and fabricators. Short Term Contract: 10/2019 - 1/2020 / Antwerp, Belgium
Structus,Inc., Structural Engineering / structusinc.com BIM Manager / Revit Specialist
Development of Revit project drawing sets for structural engineering from Revit and AutoCad. Liaison between Architects and Engineers Responsible for BIM organization, templates, work-sharing, family creation, 3-D modeling, construction detailing and project management from file set up to final permit sets. 2/2016 - 8/ 2017 / San Francisco, California
Medium Plenty, Architecture / mediumplenty.com Architectural Designer/ BIM / Revit Manager
Architectural design development and drawings for residential renovations and larger commercial retail/industrial spaces. Production of BIM managed drawing sets, construction documentation, details and multi-phase project management. 3/2015 - 6/2016 / Oakland, CA
Laney College, School / laney.edu Revit Teaching Assistant
Certifications and Awards Koch Architects, Architecture and Interior Design kocharchitects.com
Architecture/Interior Designer / Project Manager
Architectural design for residential renovations, new builds and interior design. Responsible for sourcing materials and interior objects, material takeoff calculations, orders, architectural drawings, measuring and concept creation, client presentations and project management. 1/2007 - 3/2010 / Berkeley, California
Additional Experience and Skills 3d Modeling / Graphic Design / Fabrication Skills Revit Architecture/Structure (Autodesk Professional Certification), Navisworks, CFD, LadyBug, ArchiCad, AutoCad, 3d Studio Max, Rhino, Sketchup, GIS, Adobe Suite, Microsoft Office Suite, CAD/ CAM/CNC, Laser Cutting, 3D Printing.
Real Estate Broker, Mortgage Financier Consultant Licensed, CA – Commercial and residential finance for renovations and development funding for large scale commercial projects. 2000 - 2008 California
Education
Teaching assistance and training for architecture and construction professionals in Revit. 8/2014 - 5/2016 / Oakland, CA
Lund University, LTH
California Closets, Cabinetry and Storage Systems
IHS, Erasmus University, Rotterdam
californiaclosets.com
Interior 3D Design/ Product Sales
Interior designer for closets, storage, entertainment centers and various other cabinet applications and displays. Project management including client design consultations, on-site measurements and design, pricing, ordering and installation. 1/2010 - 2/2012 / Berkeley, CA
Master of Science, Sustainable Urban Design, Degree 9/2019 Lund, Sweden 09/2019 Institute for Housing and Urban Development Studies, Social Housing Certification 11/ 2015 Rotterdam, Netherlands Urban Management for Climate Change Certification 6/ 2016 Rotterdam, Netherlands
U.C. Berkeley
Bachelor of Architecture 5/2012 Berkeley, California
CCSF
GIS Certification 1 and 2 2015 - 2016 San Francisco, California
Certified Professional in Revit Architecture Autodesk Cert. #00335546 2013 San Francisco, California Mathew Lyon Prize in Photography UC Berkeley Environmental Design. 2012 Berkeley, California
Affiliations and Volunteer Work IDAS – International Designers and Architects in Sweden -
Founding Member Collaborative network fostering a more inclusive and diverse design community in Sweden 1/2020 - Present
International Citizens Hub, Kickstart Program
Professional Development and Swedish Business Culture 2/2020 - Present Lund, Sweden
Coompanion, Easy Business Course
Professional Development and Networking 10/2019- 12-2019 Malmö, Sweden
Sveriges Arkitekter / arkitekt.se
Professional Member, Contributing designer wtih SSDD 10/2019 - Present
Critical Concrete / criticalconcrete.com
Volunteership involving participatory design, specifications, hands-on construction build and installation of a complete house renovation for a disadvantaged family. 08/2018 Porto, Portugal
EBALDC / ebaldc.org
Public participatory process, public design coordination, design, modeling, visualizations and physical implementation. 2015 - 2017 Oakland, California
Architecture for Humanity / openarchcollab.org
Design Volunteer, Public participatory design, Revit drafting and visualizations. 2015 - 2017 San Francisco, California
Seasteading Institute / seasteading.org Ambassador, Design Volunteer 2012 - 2017 5
Background: Philippines and Manila Contents
Employment: Structus, Inc. 07 08 09
Transbay Tower Block 5, 8, 9 Blake Street, Folsom Street Bart Transit
Employment: Medium Plenty 10 11 12 13
Blanding Cragmont Prospect Parklet
Academic: Master in Sustainable Urban Design, Lund University 14 16 22 25 28
Climate Smart Citadel Malmรถ Thesis Overview, Philippines New Approach to Improved Air Quality, China Kronoskogen, Angelholm, Sweden Living Ystad, Ystad, Sweden
Academic: BArch, UC Berkeley 30
Mixed-Use, Mixed-Income, Mixed-Social, Oakland, CA
Personal Design Development 34 36 38
Floating City Mobile Vessel: Rescue, Integrate, Repeat Volunteer Work
Note: All images produced by Lili Smith unless otherwise noted
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Employment: Structus, Inc. Transbay Tower Block 5, 8, 9 San Francisco CA At Structus Inc., an engineering firm in San Francisco, CA, I worked with a team as a BIM manager and Revit expert. I worked with many projects at once, integrating architectural and structural Cad and Revit designs. I was responsible for producing structural and construction documentation from engineer specifications and managing permit submissions and revisions. I created and managed BIM families, schedules, workflows, templates and work sharing for the office.
The following images represent a short sample of my work at Structus, . My projects ranged from small detailed residential designs to large mixed use residential projects such as the Transbay Towers and commercial projects such as Bay Area Rapid Transit (B.A.R.T.). This work enhanced my knowledge of structural engineering and expanded my experience with BIM, Revit and large scale project management.
Transbay Block 5 Rendering, Courtesy of Goettsch Partners, Inc.
Block 9 Construction Site, Photo by Lili Smith Transbay Block 9 Rendering, Courtesy SOM
Transbay Block 9 - Structural Model
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Background: Philippines and Manila Blake Street, San Francisco CA
Blake Street Elevations, Courtesy of Devi Dutta Architecture
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Blake Street - Structural Model
Folsom Street, San Francisco CA
Folsom Street Rendering, Courtesy, Mithun Inc.
Folsom Street Structural Model
58 3x0 .2 .56 S5
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0.2 58 63x S5.5
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PLATFORM 2'#4@12"OC - 9" MAIN FLOOR 0"
#5@12"OC
#5 A.A. @12"OC ON WALL
SCALE :
2
1/8" = 1'-0"
S337
DESIGNE B. SURJANA DRAWN: W. WANG CHECKED : NGUYEN A.
NON-SHRINK EPOXYD:AA
INSPECTION#5@12"OC PIT -5' - 6"
PREPARE (E) CONC. SURFACE AS REQ'D FOR C.J. (N) WALL PER PLAN
IN
ENLARGED SECTION @ LINE 13
.
HS S7 x7x 1/2
6"
x6x .5
S6x 6 HS W18x65
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6"
LAP SPLICE, TYP
HSS8x8x1/2
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LAP SPLICE, TYP
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2" MIN
S6 HS
3/4"
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2" MIN
S5.5
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W12x45
W8x24 BEYONDE
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9 1/2" MIN
W12x45
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W8x24 BEYONDE
S6 HS
3 /S313
SAN FRANCISCO BAY AREA RAPID TRANSIT DIST STRUCTUS, INC
1' - 4"
10" MIN
W18x40 FLAT
8 .25
8 .25
9 1/2" MIN
8
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0 63x
SUBMITTED
APPROVED
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10" MIN
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58
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8
1' - 4" 8"
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8"
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1' - 4"
8"
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S5.5
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x6x .5
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3"
(N) AGGREGATE (N) AGGREGATE DRAINAGE LAYER DRAINAGE LAYER
4' - 6"
#5@12" 4' - 6"
#5@12"
NOTES: NOTES: 1. CONTRACTOR IN THE FIELD THE DIMENSIONS 1. CONTRACTOR VERIFY IN THE FIELDVERIFY THE DIMENSIONS THAT LOCATE THE (E) RAILS. THAT LOCATE THE (E) RAILS. 2. (N) RAILS SHALL MATCH 2. (N) RAILS SHALL MATCH (E) RAIL SIZES AND (E) RAIL SIZES AND LOCATIONS. LOCATIONS. 2 /S131 DESIGNE D NGUYEN A.
DESIGNE D NGUYEN A.
DRAWN: L. SMITH
DRAWN: L. SMITH
#5@12", TYP
4' - 6"
#5@12", TYP
4' - 6"
SECTIONS FORRAIL: EMBEDDED RAIL: SECTIONS FOR EMBEDDED NEWPIT / EXISTING PIT4 4 NEW / EXISTING 4A SCALE :
1" = 1'-0"SCALE :
1" = 1'-0"
S134
S134
S134 1 /S112
AGGREGATE DRAINAGE LAYER
FORMED VERTICAL SURFACE OF CDF
TOP OF PREVIOUS LAYER OF CDF
TOP OF PREVIOUS LAYER OF CDF
SCALE :
1/2" = 1'-0"
00 x6x .5 S6 HS
TRUSS - T1
TYP
SECTION SCALE :
W12x45
FORMED FACE OF CDF UPPER SURFACE OF PREVIOUS LIFT OF CDF
1
1
S134
HS S7 x7x 1/2
GALV 3X3X1/4" w/ 1/2"ø x4" HEADED STUDS @ 12" OC. MIN TWO STUDS PER PIECE
S134
1 /S112
CADD FILE@ NAME: ENLARGED SECTION LINE 11
4018053-S-3DMFORY.RVT CITY RICHMOND DALY CITY SAN FRANCISCO BAY AREA RAPID TRANSIT DISTRICT SAN FRANCISCO BAY AREA RAPID TRANSIT DISTRICTRICHMOND C- DALY SCALE : 1/8" -= 1'-0" SIZE: SCALE: VEHICLE LIFTS VEHICLE PROJECTLIFTS PROJECT AS NOTED D
1 /S112
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CADD FILE NAME: 4018053-S-3DMFORY.RVT
S337
SIZE: SCALE: 1 /S122
D
D
AS NOTED
D.2
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x.5 0 x6 S6
HS
1' - 4"
8" GALV 3X3X1/4" w/ 1/2"ø x4" MIN @ 12" OC. HEADED STUDS 1' - 0" MAX MIN TWO STUDS PER PIECE
1/2" = 1'-0"
W18x40 0
W24x76 W12x96
2"@12" 2"@12"
W24x131
3/16 3/16
8" MIN
8" MIN
8" MIN CDF
FORMED FACE OF CDF UPPER SURFACE OF PREVIOUS LIFT OF CDF
SECTION 1 /S112
1' - 0" MAX
TYP
W24x76
#4@12"OC
#4@12"OC CDF
2"@12" 2"@12"
.
AGGREGATE DRAINAGE LAYER
FORMED VERTICAL SURFACE OF CDF
4A
S134
.
. 1' - 6"
1
2' - 0" MIN, TYP
(E) RAIL AND (E) CHANNEL (WHERE OCCURS)
1/2 x7x S7 HS
2' - 0" MIN, TYP
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9 1/2" MIN
(N) SOG
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10" MIN
CONC FILL (N) SOG
2 1/8" SAND, TYP
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A
PAGE NO.
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CONC FILL
REV.
01RQ-170
CONTRACT SHEET NO.
3/4" GALVANIZED STEEL PLATE S337 109 SYM ABT 3/4" GALVANIZED STEEL PLATE (E) RAIL AND (E) TRUSS - T2 2" BEARING CHANNEL (WHERE SYM ABT MIN, TYP OCCURS) 2" BEARING 3/16 MIN, TYP CONT 3/4" SQUARE GALVANIZED BAR, 3/16 WELDED CONT 3/4" SQUARE GALVANIZED BAR, TO EMBEDDED ANGLE, TYP WELDED TO EMBEDDED ANGLE, TYP CDF CDF
x x6
1
1
1'- 4"
.
CONTRACT NO.
ENLARGED BUILDING SECTIONS SHEET 16 OF 16
(E) CHANNEL PER PLAN
(E) PER PLAN 1'- 4" APPROVED 7" . CHANNEL
.
S6
(E) AGGREGATE (E) AGGREGATE DRAINAGE LAYER DRAINAGE LAYER
1' - 6 3/8"
HS
GRADE
AR
STRUCTUS, INC 1' - 11" (E) RAIL PER PLAN
1' - 11"
1' - 6 3/8" 1' - 6 3/8"
(N) 8" AGGREGATE DRAINAGE LAYER, TYP
.
10
TRACK S134
.
SUBMITTED
1' - 6"
1'- 4" 1' - 6 3/8"
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AS NO 1/8"NTS NOTED SCALE = 1'-0"
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10 S134
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7"
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DATE: (N) 12/02/16 SOG
SIZE: SCALE:
VEHICLE OVERHAUL AND HEAVY REPAIR SHOP
(E) RAIL PER PLAN
2 1/8" SAND, TYP
1' - 11"
APPROVED: 1' - 11" H. CHANG
3' - 5 3/8" TRACK
1' - 4"
SAN FRANCISCO BAY AREA RAPID TRANSIT DISTRICT
3' - 5 3/8"
(N) 8" AGGREGATE DRAINAGE LAYER, TYP
DRAWN: W. WANG CHECKED : NGUYEN A.
(N) RAIL PER PLAN OVERLAP (N) AND (E) LAYERS OF VAPOR BARRIER BY 6" 9 OVERLAP (N) AND (E) LAYERS 9 S134 OF VAPOR BARRIER BY 6" SAW CUT 1 /S132 134 REV DATE BY SUB APP DESCRIPTION SAW CUT 1 /S132 (E) SLAB (E) SOG(N) SOG REBAR (E) SLAB (E) SOG REBAR #5@12"AA
9 1/2" MIN
R CLARITY
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REMOVE (E) SLAB AB AS NEEDED TO PROVIDE MOVE (E) SLABSUFFICIENT SPACE FOR WELDING (E) REBAR TO (N) REBAR NEEDED TO PROVIDE FICIENT SPACE FOR LDING (E) REBAR TO (N)ON REBAR (E) SLAB GRADE
2 /S131
AGGREGATE DRAINAGE LAYER
PREPARE (E) CONC. SURFACE AS REQ'D FOR C.J.
HSS8x8x1/2
W12x45
(E) SLAB CDF NON-SHRINK EPOXY AA #5 A.A. @12"OC ON WALL EMBBEDED RAIL DETAIL 2 11 NOTE: DOWELS AND C.J. PREPARATION APPLIES APPROVED: BASEMENT (E) SLAB CDF H. CHANG (N) WALL PER TOPLAN ALL CONFIGURATIONS OF (N) TO (E) SCALE : 3" = 1'-0" -15' - 0" S134 35% SUBMITTAL 12/02/16 A CONC. DATE: WALL INTERSECTION 10 /S134 REV APPLIES DATE BY SUB APP DESCRIPTION REV DATE BY SUB APP DESCRIPTION 12/02/16 EMBBEDED RAIL DETAIL 2 11 NOTE: DOWELS AND C.J. PREPARATION TO ALL CONFIGURATIONS OF (N) TO (E) SCALE : 3" = 1'-0" S134 CONC. WALL INTERSECTION C10 & ENLARGED SECTION2' @ LINE 11 10 COL /S134 RAIL, CONC, FILL, RAIL 1 HSS 3" SECTION PLAN SECTION 6 3 SYM. ABOUT - 10 3/8" SCALE : 1/8" TRACK = 1'-0" S337 C DCLIPS, NUTS , PLATES SCALE : D.2 SCALE : 1/2" = 1'-0" 1/2" = 1'-0" S134 S134 1' - 4" 7" 11" 1 /S122 ARE N.I.C.. 1 /S111SECTION 1 /S111 C10 & HSS COL MIN. 3" SECTION PLAN RAIL, CONC, FILL, RAIL 6 3 SYM. ABOUT 2' - 10 3/8" #4@12"OC (E) REBAR CLEANED ROOF CLIPS, NUTS , PLATES TRACK #4@12"OC E.W. SCALE : 1/2" = 1'-0" SCALE : 1/2" = 1'-0" S134 48' - 0" S134 OF ALL LOOSE 1' - 4" 7" (E)C8 11" ARE N.I.C.. T.O.C SLAB 0'-0" 1 /S111 1 /S111 MATERIAL MIN. #4@12"OC (E) REBAR CLEANED T.O. CHANNEL #4@12"OC E.W. (E)C8 PROVIDE GALV. 3X3X1/4" AT END 58 SAW CUT OF ALL LOOSE HS 8 T.O.C SLAB 0'-0" W12x45 0.2 HS 6" S5.5 -0'-6 OF TRENCH w/ 2-HEADED .25 63x7/8" MATERIAL S5 63x x0 5.5 .56 0.2 (N) SLAB ON GRADE 63 STUD ANCHORS. SS 3x 6" .5 5 H 8 T.O. CHANNEL 5 0.2 S PROVIDE GALV. 3X3X1/4" AT END AGGREGATE SAW CUT MITER CORNERS 58HS 6" -0'-6 7/8" #5@12"OCOFAATRENCH w/ 2-HEADED W12x45 W18x40 FLAT W12x45 W12x45 W18x40 FLAT W12x45 W18x40 FLAT DRAINAGE THIRD FLOOR SAW CUT ABOVE AGGREGATE #4@12"OC E.W. CDF (N) SLAB ON STUD ANCHORS. 34' -GRADE 4" LAYER 6" (E) REBAR DRAINAGE AGGREGATE VAPOR BARRIER MITER CORNERS #5@12"OC AA LAYER DRAINAGE AGGREGATE SAW CUT ABOVE AGGREGATE #4@12"OC E.W. CDF 1/4 LAYER DRAINAGE (E) REBAR DRAINAGE VAPOR BARRIER 2 AGGREGATE BASE LAYER 1 2 LAYER AGGREGATE 1 CDF 1/4 DRAINAGE 2 CDF AGGREGATE BASE LAYER 1 W12x45 W12x45 W12x45 W12x45 W12x45 W12x45 2 1 SECOND FLOOR HSS6x6 TOP OF PREVIOUS CDF W12x45 (E) CONC WALL 20' - 4" SEE PLANS LAYER OF CDF CDF DEMO (E) SLAB ON GRADE 1' - 0" 8" C.J. W8x24 BEYONDE W8x24 BEYONDE W8x24 BEYONDE W8x24 BEYONDE W8x24 BEYONDE HSS6x6 TOP OF PREVIOUS (E) INSPECTION (E) CONC WALL #5AA@12"OC 1' - 0" SEE PLANS LAYER OF CDF PIT SLAB DEMO (E)MIN SLAB ON GRADE HSS8x8x1/2 HSS8x8x1/2 HSS8x8x1/2 1' - 0" 8" C.J. P 1"x15"x1'-3" ON DOWEL TO (E) CONC WALL (E) INSPECTION #5AA@12"OC MIN W12x45 SEE 1/S134 FOR 1' - 0" NOTES: PIT SLAB W12x45 1 1/2" NON-SHRINK GROUT BEYOND WITH #4 A.A., TYP 11" ADDITIONAL NOTES SEE 1/S134 FORTO (E) CONC WALL 5/16 P 1"x15"x1'-3" ON DOWEL SEE 1/S134 FOR NOTES: 1"DIA. AA (4-TOTAL) ADDITIONAL NOTES 1 1/2" NON-SHRINK GROUT BEYOND WITH #4 A.A., TYP 11" ADDITIONAL NOTES SEE 1/S134 FOR 5/16 1"DIA.POST AA (4-TOTAL) PLATFORM ADDITIONAL NOTES NOTE: FASTEN (N) HSS TO (E)C10 RAIL 2' - 9" ASSEMBLY BEFORE PLACING CDF AND CONC MAIN FLOOR NOTE: FASTEN (N) HSS POST TO (E)C10 RAIL 0" SECTION 7 SECTION SECTION 5 2 ASSEMBLY BEFORE PLACING CDF AND CONC SCALE : 1/2" = 1'-0" INSPECTION PIT SCALE : 1/2" = 1'-0" S134SECTION S134 S134 SECTION SCALE : 1/2" = 1'-0" 7 SECTION 5 2 1 /S112 -5' - 6" 1 /S112 1 /S112 SCALE : 1/2" = 1'-0" SCALE : 1/2" = 1'-0" SCALE : 1/2" = 1'-0" S134 S134 S134 ENLARGED SECTION @ LINE 13 2 1 /S112 B C D D.2 1 /S112 1 /S112 0 4' 8' 16' SCALE : 1/8" = 1'-0" NEW S337 RAIL EXISTING PIT RAIL 3 /S313 GRAPHIC SCALE SEC 4 IS SYM ABT . SEC 4A IS SYM ABT . NEW RAIL EXISTING PIT RAIL DESIGNE CADD FILE NAME: D: SURJANA (N) RAIL PER PLANB. 4017714-S-3D0000.rvt 3' - 5 3/8" HAYWARD MAINTENANCE COMPLEX SEC 4 IS SYM ABT3' .- 5 3/8" SEC 4A IS SYM ABT . 1/2"Ø x4" WELDED STUDS @2'-0"
HS
4 /S134
4 /S134
ILL SLAB
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AGGREGATE DRAINAGE LAYER
(E) WALL PER PLAN
8 .25 3x0 .56 S5 HS
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HOR BOLTS @2'-6"
34
W8x24 BEYONDE
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4,000 PSI TRACK SLAB
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(E) WALL PER PLAN
1/2"Ø x4" WELDED STUDS @2'-0"
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1/2"-DIA TRACK SLABANCHOR BOLTS @2'-6"
0
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00 6x.5 S6x
L2X2X1/4"
L2X2X1/4"
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POXY GROUT -1/2" MIN THK.)
(N) RAIL PER PLAN
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HS
0
EPOXY GROUT (1-1/2" MIN THK.)
2 1/8"
.50
CONC FILL
3/4"
W12x45
SECOND FLOOR 20' - 4"
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11
TOP OF RAIL TOP OF CONC
x x6
2 1/8"
S6
3/4"
HS
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D.2
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T W/S134 1/2" Ø X 4" NCHORS, 6 O.C.
8 .25
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THIRD FLOOR 34' - 4" W24x76
L2X3X1/4 CONT W/ 1/2" Ø X 4" EMBEDDED ANCHORS, 6 O.C.
0 63x
S6 HS
TRUSS - T1
TRUSS - T2
W12x45
HS
ROOF 48' - 0"
S5.5
Samples of Structural Drawings and Details
W12x45
HS
Bart (Transit), Repair Depot
W12x45
.25 8
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SCALE :
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C
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Employment: Medium Plenty Blanding - BIM Management, Revit, Architecture, Interiors, Structure, Project Management Blanding is an industrial and office project located in Alameda, California. The project consisted of renovating an existing industrial building with offices and manufacturing space for large scale decorative architectural concrete parts to be used in the new Apple headquarters in Cupertino. I was responsible for drawing the full existing building/outside landscape digital twin in Revit and detailed specifications/design options for new interior office spaces, production spaces, new structure and the surrounding yard area. This project required strong BIM knowledge, Revit Architecture and Structure and strong knowledge of phasing, work-sharing and creative problem solving. B C
A B
(E) BAY A CRANE RAIL (BAY A CRANE CANNOT PASS THROUGH QC AREA) STEEL FRAMING, S.S.D. OVERHEAD MANUAL CONVEYOR TRACK FOR RETAIL QC LCP VERTICAL HOIST CABLE
B.O. (E) ROOF JOIST
ROOF HIGH POINT 44.17
WALL & DOOR SECTION 2
A802
CONTACT
UNISTRUT FRAME SUPPORTING LCP
B.O. BAY C TRUSS 35.32
STEEL BEAM, S.S.D. 2X4 BLOCKING AT GAP FOR DUST PROTECTION
B.O. BAY B TRUSS 34.32
(E) ROOF TRUSS
B.O. BAY A TRUSS 32.32
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MEDIUM PLENTY 1729 Telegraph Avenue Third Floor Oakland, CA 94612 info@mediumplenty.com P 415 658 5249 F 415 871 2215
REJECTED PANEL CONVEYOR TRACK
DOOR ELEVATION
ARCHITECT'S SEAL
HOIST CABLE TO MOVE LCP HORIZONTALLY LCP - SPECIALIZED QC LIGHT FIXTURE PANEL
6"
RETAIL PANEL HUNG FROM OVERHEAD CONVEYOR SKATEWHEEL FLOWRAILS AT WALL STABILIZE HANGING PANELS
SLIDING DOOR 1
QC PARTITION WALL BEYOND
LEVEL 2 @ CCC OFFICES 20.32
PROJECT
SLIDING DOOR 2
BLANDING 2421 Blanding Avenue Alameda, CA 94501
RING-LOADED GUIDE LLER @ DOOR, PER NUF.
PA
RK
ST RE
ET
LEVEL 1 11.32
" MIN. TO 7/8" MAX. GAP BETWEEN B.O. IDE ROLLER ATTACHMENT PLATE AND . GUIDE TRACK PER MANUF.
BL
QC PARTITION WALL (HIDDEN FOR CLARITY)
EEPS ON DOOR FOR DUST OTECTION, ALL SIDES
CONVEYOR TRACK
3 A802
B C
EA
NOTCH IN DOOR LCP UNISTRUT FRAME ATTACHED TO BEAM TOP & BOTTOM
AN
DI NG
CL EM EN T AV EN
B.O. BAY C TRUSS 35.32
GL E
AV EN
UE
EN
AL
CA
NA
L
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UE
Copyright © 2015 Medium Plenty. All drawings and written material appearing herein constitute original work of the Architect and may not be duplicated, used, disclosed without the written consent of the Architect.
Digital Twin - Perspective Overview
13"
B.O. BAY B TRUSS 34.32
TID
AV
ET
QC AREA ELEVATION 1/4" = 1'-0"
ER ET T ST RE
1
L. GUIDE TRACK PER DOOR RDWARE MANUF.
EV
EEL PLATE RAMP UP TO RRAZZO ON MORTAR BED, CHORED TO (E) SLAB
QC PARTITION WALL
B.O. ROOF @ CCC 32.65
STEEL BEAM - QC CONVEYOR TRACK & LCP PANEL STRUCT., S.S.D. INFILL CORNER GAP FOR DUST CONTROL UNISTRUT FRAME SUPPORT FOR LCP SPECIALTY QC LIGHT FIXTURE PANEL, PER MANUF.
CONVEYOR RETURN TRACK
DOOR TRACK
(E) COLUMN BEYOND
DOOR TRACK HANGER
B.O. BAY A TRUSS 32.32
B.O. STEEL BEAM
DOOR HEIGHT (FRAMING)
REVISION + ISSUES
21' - 4 1/2"
22' - 7" V.I.F.
INFILL GAP BETWEEN BEAM & TRACK W/ PTD. 2X4 FOR DUST CONTROL
(E) CONC. FLR TO B.O. STEEL BEAM
B.O. (E) TRUSS BEYOND B.O. STEEL BEAM, S.S.D.
No. Description 1 PERMIT A
STL. SQ. TUBE FRAME, TYP.
LIGHTGUAGE STL. INFILL, TYP.
2
PERMIT A RESUBMITTAL
3
PERMIT A REVISION - QC AREA PERMIT A REVISION BREAKROOM AREA PERMIT A REVISION BREAKROOM AREA RESUBMITTAL PERMIT A REVISION PRODUCTION FLOOR
4 5
SLIDING DOOR TRACK DOOR TRACK HANGER PER MANUF.
6
Date 02.12.201 5 03.09.201 5 03.09.201 5 03.20.201 5 04.29.201 5 06.04.201 5
BRUSH SWEEP AT T.O. DOOR
1 1/2" GAP BETWEEN B.O. DOOR FRAME & (E) CONC. FLR
DOOR HANGER (TROLLEY), PER MANUF., 2500 LB. MIN. CAPACITY QC CONVEYOR TRACK HANGER PER MANUF. REJECT PANEL CONVEYOR TRACK QC PANEL CONVEYOR TRACK NOTCH IN DOOR FOR TRACK SLIDING DOOR 1
10' - 0" DOOR 1 WIDTH
4
10
QC SLIDING DOOR ELEVATION 1/2" = 1'-0"
Interior Perspective
DETAILS - BAY A QC AREA
1" TERRAZZO FLOOR @ QC (E) CONC. FLR.
LEVEL 1 11.32
PHASE SCALE
PERMIT As indicated
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Industrial to Office Space Interior Design Options
Section
Cragmont - BIM Management, Revit, Design Development, Project Management Cragmont is a single family residence renovation in the Berkeley Hills, California. I was responsible for design development, project management and all BIM/Revit work on the existing and new parts of the home with clear integration of the two. Multiple options were created for the client throughout a complex permitting process, which required design option management, revisions and exact model management. As well, I created templates, schedules, worksharing standards and documentation for the permitting process.
CONTACT
SLOPE
PAVERS
MEDIUM PLENTY 1729 Telegraph Avenue Third Floor Oakland, CA 94612
SLOPE
SLOPE
info@mediumplenty.com P 415 658 5249 F 415 871 2215
3' - 0"
SLOPE
10' - 0"
7' - 0"
PAVERS
LAWN
METAL MESH TRELLIS
ARCHITECT'S SEAL
24" H. CONC. PLANTER BOXES
PLANTER BOX
DRAIN, TYP.
A709
REAR YARD 8' - 7"
1
PROJECT CEDAR PLANTER BOX WALL
24" H. CONC. RETAINING WALL @ (E) PLANTER WALL LOC'N
A709
2
Cragmont Residence 585 Cragmont Avenue Berkeley, CA 94708 CR AG MO NT
AVE
20' REA R SETB ACK
SLOPE SLOPE
ID CL EU AV E
20' - 0"
AC AC
SLOPE
IA
E AV
SLOPE
Copyright © 2015 Medium Plenty. All drawings and written material appearing herein constitute original work of the Architect and may not be duplicated, used, disclosed without the written consent of the Architect.
4 A709
3 A709
PROPER TY LINE (E) 14" TREE CLUSTER
75'
REVISION + ISSUES
(E) 24" TREE CLUSTER
No.
Description
Date
(E) WD. FENCE 5'-0" HT.
1
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ENLARGED PLAN AT REAR YARD 3/8" = 1'-0"
ENLARGED PLAN REAR YARD
Prospect Studio Prospect Studio is a companion building to the main house located in Berkeley, California. I was responsible for all aspects of the design drawing in Revit, including 3-D modeling templates, worksharing and family creation. I imported civil engineering information for topography and translated design drawings from sketches to 3-D. I worked with the head architect to finalize details regarding the roof structure, doors and grading for the foundation. I also provided construction detailing for permits.
Prospect Studio Photos Courtesy of Medium Plenty
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Parklet, Temporary Outdoor Seating
BIM Management, Revit, Design Development, Project Management The Parklet is a temporary structure that occupies three parking spaces during a set number of months. This was a pilot program in the city of Oakland, CA aimed at finding architects who could design safe and attractive structures that can be disassembled and stored to be assembled again. I was responsible for transforming the design from 2-D sketch to 3-D, providing plans, sections and construction details for permitting, and simple 3-D visualizations.
Visualizations Courtesy of Medium Plenty
Plans and Section Courtesy of Medium Plenty
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Academic: Climate Smart, Sustainable Urban Design, Lund University, 2018
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Academic: Master Thesis Overview, Sustainable Urban Design, Lund University, 2019 "BASECO, Strategic Pathways to Formalize the Informal" Manila, Philippines
My Master's thesis proposal focuses on BASECO, an informal housing settlement located in the main port area of Manila Bay, Philippines. The site consists of 54 Hectares and an estimated17,000 informal settlement families (ISF), the equivalent of approximately 85,000 residents. The settlement is 100% without legal tenure, and the community organizations are actively working to find permanent solutions to convince the government to give them legal residency. The project fieldwork was conducted in Metro Manila for a total of 30 days in order to gain a holistic view of the region’s government, culture, quality of life, low income housing industry and informal settlements. The fieldwork included lectures from scholars and government housing agencies, government and NGO interviews, resident interviews on site and in selected settlements and cultural exploration activities. This proposal provides a pathway to on site development, upgrading to formalized housing while increasing the population capacity, adding areas of green space, improving living conditions, strengthening resilience and consolidating public areas to support vibrant long term economic activity.
BASECO Site
The master plan for BASECO creates a unified network of roads, housing, commercial activities and public spaces, equally distributing the socio-economic fabric throughout the site. The ferry stops provide additional options for residents and visitors to reach the area and a way to commute to work faster. The public shoreline park and nature area fill the need for more shaded green spaces and create a destination based region supported by economic hubs and commercial activities along main roads. New connections from the city make BASECO more accessible and convenient, supporting a healthy integration with surrounding neighborhoods. Three main housing typologies will encourage horizontal expansion in place of vertical growth, incorporating space for home based businesses, retail storefronts, and an increase in family size. This variation will provide engineered space that will not require improvisation and will ensure that the structure is sound.
Visualization of the New Ferry Area During Incremental Phase Construction
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Photo Courtesy Google Earth
Rendering from Urban Design Thesis Project
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Typical Neighborhood Intersection
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Zoom In Plan of Renovated Market Area
BASECO Master Plan
Concept Diagram for Back and Forth House Typology
Back and Forth House Axonometric Showing Initial Build and Expanded Units
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Drawn by Checked by
A101
Issue Date Author Checker
Scale
1 : 100
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Back and Forth House Floor Plan 1 Single Family Row House Section
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www.autodesk.com/revit
Owner
Back and Forth House Section
8/22/2019 9:40:16 AM
1 : 200 Scale
A105 Author
Checker
Project Number
Checked by
autodesk.com/revit
Date
Issue Date
back and forth elevation unfilled Project number
Drawn by
Owner
Date
Date
Project Number Project number
Description
8/22/2019 9:40:12 AM
No.
Back and Forth House Elevation - With Expanded Units
back and forth floor plan
Back and Forth House Elevation - Original Construction
VISION
STRATEGY
STRATEGIC PLAN
The vision for BASECO is to provide a formalized onsite settlement upgrade with inclusive community based planning and methodical building processes, integrating the site to the surrounding areas with an improved perception and added value to the city.
To achieve the vision for BASECO, the strategy retains, strengthens and expands the existing functional urban fabric while creating new opportunities for healthy development, standardized city services and long term economic growth.
The following strategic plan diagrams describe the specific interventions that will support the vision and strategy for BASECO and guide main components of the master plan.
Visualization of the New Market Area Neighborhood
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Academic: Master in Sustainable Urban, Lund University, 2018 "New Approach to Improved Air Quality" Dugiangyan, China
The Dujiangyan design site has many opportunities in relation to the under-utilized river front, availability of land due to the recent earthquake, and the close proximity to the old town city center and the metro. The challenges exist in missing cohesive connections across the site, large and traffic heavy streets that act as barriers, weak connections to and across the river, minimal or miss-appropriated public spaces, lack of integrated demographics and activities, and issues with dangerous air pollution levels. The design strategy utilizes physical interventions and renovations to improve air quality while creating a discernible identity with cohesive connections to and through the site. Together these create an improved river front experience with visual indicators, integration of new housing, strengthened commercial areas, increased public gathering space and a greater diversity of demographics.
Site Plan
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Public green / Forest Private courtyards / Semi permeable pavers Living roofs Commercial walking street Urban farm Metro Urban farming education Research center Aquaponics Water direction / topography Hydro turbine Wind turbine Visitor Center Connections Natural air flow corridor Prevailing wind direction Air flow corridors Old town
Vertical forest Farming towers
System of Site
Section View Through Housing Cluster Showing Typologies, Integrated Public Spaces and the Main Food Production Tower
Visualization of Main Access Road and Shopping Street
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Birdseye View of Housing Cluster
Section View Through Housing Cluster Showing Typologies and Integrated Public Spaces
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Exploded Axonometric of Housing Cluster
Academic: Master in Sustainable Urban, Lund University, 2018 "Kronoskogen"
Angelholm, Sweden The Angelholm challenge was assigned in the second semester of the master's program at Lund University. It involves integrating a large area of forestland that spans from the city center with the beach area, which is only activated in the summer months. My approach involves adding housing units and new activated public spaces that integrate naturally into the landscape and the surrounding structures. This area is a unique and historical asset, and the dunes and trees not only provide recreational and leisure activities, but they also serve as a protection from flooding, erosion and rich soil degradation. The forest is comprised of 100 year old growth, a product of environmental engineering aimed at re-creating the then deforested land to protect the city and agriculture. With this in mind and from the point of view of both preservation and conservation, I began my design process by imposing a rule of light footprint typology and low impact development. My proposal envisions improving the continuity of the city-beachforest sequence through visual and psychological connections, providing active public spaces and housing for all seasons and decreasing car transport through the forest and to the beach. All structures will be built with stilts to minimize the ground cover and tree root impact and the built area will be minimized to accommodate the maximum amount of tree preservation. Zoom in Plan of the Mixed Use Development and Tower Area
Elevation of the Central Mixed Use Development with a New Activated Corner
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Visualization of the Main Corridor Road
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Subject Title
Section Through Typical Housing Units
Perspective of the Main Entrance to the New Development and Activated Corner
Section Through Core Housing Typology
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Academic: Master in Sustainable Urban, Lund University, 2017 Re-Imagined Silo
"Living Ystad" Ystad, Sweden
With a balance of urbanity and nature, the new addition to the harbor of Ystad provides an important link to the ecosystems of the Ystad municipality and to the Skane region as a whole. The living shoreline and extensive wetlands provide habitats that promote biodiversity in plants and animals native to the area and protects Ystad from erosion, sea level rise and flooding. The soft engineered interventions are based on the study of reconciliation ecology and adaptive urbanism, which both address the need for increased biodiversity in urbanized areas. Through the implementation of fragmentation, green jumping, and a minimized hardscape footprint, eco-services will flourish and invasive species will diminish. The topography undulates from a sloping grade to the sea on the west and east edges grading to four meters in the center. The buildings that sit on the sloped areas and the surrounding promenades are on stilts, thus allowing sea level to rise without consequence to the structure. The urban context of the restored harbor is imbedded in nature, surrounded by generous green spaces and a circulation of plant filled water catchments and canals which work together to help drain the city as a whole in times of heavy rain and provide natural beauty in all seasons. The eco-urban ring offers a variety of lifestyle options, from a more public context facing the promenades, to a more private yet still connected area surrounded by parks. For the dedicated nature lover the extensive wetlands provide a remote experience with a network of peaceful paths and stunning vistas. For those who prefer to live on water, there is a cozy second marina
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Master Plan
System of Site Axonometric
Edge Variations
System of Site
Shoreline Visualization
Recreation Visualization
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Academic: BA Architecture, U.C.Berkeley, 2012 "Mixed-Use, Mixed-Income, Mixed Social" Oakland, CA The design challenge for this existing empty lot is to create a new construction in-fill development with mixed use options in a municipality that is lacking affordable housing, yet is rapidly gentrifying in all areas. The goal is to maximize the number of units with a variation of residential spaces no larger than 900SqFt, and modest commercial spaces on the ground floor. Handicapped accessible units must be included and the design must conform to local building restrictions according to city zoning laws, height and setback restrictions. The concept is to provide a high quality of life for mixed income, mixed use and ultimately a healthier integrated society.
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South West Visualization
Exploded Axonometric
Inner Courtyard Visualization
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Floor 2 West Section
West Elevation
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East Elevation
Rooftop Visualizaton
Cafe Visualziation
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Personal Design Development, 2012-2017 "Floating City" Worldwide Oceanic Locations This project Personal research and design development informed by initial research and guidelines provided through my Ambassadorship at the Seasteading Institute in 2016. The objective is to design a floating city that can survive in the ocean and is capable of re-organization and location change. The development should provide long term housing, food production, schools, hospitals and general city services with energy and food self sufficiency. The design has limitations set from research developed by the Dutch firm Delta Sync / Blue 21. The ideal form is a hexagon or pentagon base with maximum of two stories and the ability to re-orient the units. There should be an option of providing perimeter wave defense in order to survive beyond calm ports.
Details of System
Master Plan
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Birdseye View
Floor and Roof System Plans
Interior Visualization
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Personal Design Development, 2012-2017 "Mobile Vessel: Rescue, Integrate, Repeat" Worldwide Ocean Locations This project is a personal research and design development that started in 2014, and is still in an ongoing development. The objective is to design a vessel that can withstand long distance oceanic voyages including large rogue waves. The vessel will provide semi-long term or short term housing with self sufficiency for energy, food production and the equivalent of modern city services. The vessel provides a nurturing hub where multi-cultural collaboration and integration is supported and integration activities provide a smoother transition for the residents when they arrive at their next destinations. This project is intended to allow for scalability and various versions that can include close off shore use of retired vessels. The vessel is a response to the increasing need to house refugees in all parts of the world. The number of those in need for shelter and healthy integration will only increase within the next decade due to climate change related pressures. This is intended to be one possible part of the solution. The vessels could include de-commissioned cruise, container barges and military ships.
Farming Visualization
Vessel Visualization
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Parametric Wall Detail
Design Development Sketches
Interior Visualization
Exploded Axonometric
Elevation
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Personal Design Development - Volunteer Work, 2012-2018 Design Voluteer Projects: Community Design Development, Visualizations Architecture for Humanity (Open Architecture), EBALDC, Critical Concrete
Architecture For Humanity Community Development - "Thornton Pocket Park" Visualization
Architecture For Humanity Community Development - "Thornton Pocket Park" Plan
Critical Concrete Project - Before Critical Concrete Project - After
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EBALDC Community Development: "Rhythm and Roots" Visualization
Thank You For Your Consideration Lili Smith lilismithanne@gmail.com +46 (076) 161-68-58 https://www.linkedin.com/in/lilismith/ https://issuu.com/liliannesmith
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