2018 Hok Design Annual
2018 Hok Design Annual
2018 Hok Design Annual
2 0 1 8
Published by ORO Editions
Publishers of Architecture, Art, and Design
Publisher: Gordon Goff
www.oroeditions.com
info@oroeditions.com
You must not circulate this book in any other binding or cover
and you must impose this same condition on any acquirer.
PREFACE
“Research is intrinsic to our design examined the market forces and design trends In Midtown Manhattan, the 151 W. 42nd “Serving humanity is at the core of what we
process. Our design studios explore reshaping the future of work. Street lobby repositioning demonstrates how believe. We embrace this responsibility through a
computational design can reinvigorate a tower positive culture based on the power of optimism,
new ways to use imagination and
To enhance our efforts to design for that contributed to the revitalization of a imagination and knowledge to innovate and
knowledge to innovate and merge
environmental sustainability and resiliency, we landmark building in Times Square. The sculptural merge artistic beauty with technical excellence in
artistic beauty with technical research and develop proprietary tools that ceiling design explores the use of geometry to all we create.”
excellence in all we create. “ supplement commercial building information enliven space through use of digital tools that
modeling software. The HOK Sustainable aided fabrication and installation. On behalf of HOK’s Design Board, I am honored
Continuous research into different building Analysis Tool provides climate and site analysis to present the following projects from the past
typologies gives us a deep understanding of the and design strategies for maximizing a building’s Our sports design studio is examining the impact year that we believe best represent the thought,
future of design. Combined with our technical efficiency from construction through its life cycle. of arenas and stadiums on the public realm. The creativity, knowledge and research that go into
expertise in computational design, building Stadium of Tomorrow design exercise looks into everything we do.
optimization and high-performance design, this Our new HOK STREAM parametric design tool the impact of flexibility, commercial viability and
research provides the foundation for a dynamic allows us to blend architectural logic and poetry seating bowls on the fan experience and urban Kenneth Drucker, FAIA
design process. We engage our clients in a with engineering design optimization to create placemaking. Design Board Chair
journey of discovery and together aspire for our more imaginative, cost effective and sustainable
work to enrich the lives of all who experience it. solutions—and to do so exponentially faster than Through a partnership with Biomimicry 3.8’s
previously possible. biologists, our Genius of Place: California Coast
This research supports our aspirations as design research project is helping us learn from
designers and takes numerous forms. Teams The 2018 Design Annual illustrates research the resilience and adaptability of nature and
apply focused research to support individual across our robust practice areas—from concepts translate that understanding into new ideas for
projects, always seeking to challenge the to completed works—that exemplify our process building facades, structures and landscapes.
status quo. Explorations range from uncovering of design exploration, research and discovery.
products and materials that make our buildings Though research lies at the heart of our design
healthier to conceiving first-of-their-kind At the Central and Wolfe Campus in Silicon Valley, process, it is not the singular component.
innovations, such as a new type of curtain wall we analyzed the impact of daylighting on building Creativity, intuition, client input and a deep
or ceiling panels that enhance the aesthetics form. Each facade is carefully tuned to its solar understanding of the art, craft and science of
and functionality of a design. In the recent HOK orientation. Integrating the site and landscape design all play important roles. Together these
Forward research report, our WorkPlace group into the composition promotes well-being. factors form the basis of HOK’s mission and
raison d’être, summarized simply as:
TABLE OF CONTENTS
COMMERCIAL Central + Wolfe Campus Sunnyvale, California, USA 12 JUSTICE Wayne County Justice Center Detroit, Michigan, USA 228
151 W. 42nd Street New York, New York., USA 38
1771 N Street NW Repositioning Washington, D.C., USA 50 RESIDENTIAL Arterra Residential Tower Kansas City, Missouri, USA 240
4th and Harrison Mixed-Use Development San Francisco, California, USA 56 Mixed-Use Development for Confidential Client Missouri, USA 248
Hangzhou Wubao Mixed-Use Design Competition Hangzhou, Zhejiang, China 70
New SouthWorks Concept Master Plan Chicago, Illinois, USA 80 SCIENCE + TECHNOLOGY LG Science Park Seoul, South Korea 256
Office Tower Design Competition Texas, USA 88 Morgan State University Martin D. Jenkins Hall Baltimore, Maryland, USA 274
Omani Riviera Yiti and Yenkit, Oman 98 Mount Sinai 103rd Street Research Facility New York, New York, USA 284
University at Buffalo Jacobs School of Medicine Buffalo, New York, USA 300
CORPORATE Consumers Credit Union Headquarters Kalamazoo, Michigan, USA 114 University of Maryland Health Sciences Facility III Baltimore, Maryland, USA 316
Korean Broadcasting System Design Competition Seoul, South Korea 128
Nasdaq Office Philadelphia, Pennsylvania, USA 142 SPORTS + RECREATION + Little Caesars Arena Detroit, Michigan, USA 326
OpenText Office San Mateo, California, USA 150 ENTERTAINMENT Mercedes-Benz Stadium Atlanta, Georgia, USA 336
Polsinelli Law Office Chicago, Illinois, USA 160 Yas Arena Abu Dhabi, UAE 354
Tyson Foods Emma Avenue Office Springdale, Arkansas, USA 166
RESEARCH Genius of Place: California Coast Design Research Project California, USA 368
GOVERNMENT United States Embassy New Office Annex Moscow, Russia 176 Stadium of Tomorrow Design Exercise London, UK 382
HEALTHCARE NewYork-Presbyterian David H. Koch Center New York, New York, USA 188
University at Buffalo
Jacobs School of Medicine
+ Biomedical Sciences
New York-Presbyterian
Topwin Center and
David H. Koch Center
New SouthWorks Intercontinental
Concept Master Plan Mount Sinai Beijing Sanlitun
Stadium of Tomorrow
103rd Street Research Facility
Polsinelli Law Office Design Exercise United States Embassy
151 W. 42nd Street New Office Annex
University of Maryland
Mixed-Use Development Health Sciences Facility III
Confidential Client Korean Broadcasting System
Morgan State University Design Competition
Arterra
1771 N Street NW LG Science Park
Residential Tower
Repositioning
Hangzhou Wubao Mixed-Use
Nasdaq Office Yas Arena Design Competition
4th and Harrison
Mixed-Use Development
Little Caesars Arena
Central + Wolfe
Atlantis Ko Olina Wayne County Justice Center Omani Riviera
Campus
Consumers Credit Union Headquarters
Mercedes-Benz Stadium
OpenText Office
Tyson Foods
Emma Avenue Office
Genius of Place:
California Coast
Design Research Project Office Tower
Design Competition
COMMERCIAL
13
view of central quadrangle CENTRAL +
WOLFE CAMPUS
Sunnyvale, California, USA
Seamless sustainability: The campus has achieved LEED Platinum certification, distinguishing the development in
the crowded office market. The buildings are designed to be net-zero energy ready. Instead of adding a separate solar
shading system, the design extends the concrete floor slabs as protruding fins that act as built-in sunshades protecting
the glass walls from direct solar heat gain and glare.
Oasis of urbanity: Creating an oasis of urbanity in the suburbs, the campus is designed with a full complement of
amenities. Shaped like a quarter circle, the amenities building features sweeping, full-story glass walls and upper-level
clerestory windows that create the sensation of being on an open porch. A large, overhanging roof allows dining and
gathering spaces to spill out onto an outdoor patio on the central quad.
Trading parking places for green spaces: Parking is accommodated on two levels under the office buildings as well
as in a stand-alone garage on the campus. Fast-growing, flowering vines form a living wall fronting each of the three
parking podiums. Though uncommon for the Valley, where most buildings are ringed by surface parking lots, this
strategy preserves more than half the site as landscaped green spaces, open plazas, sport courts and trails.
Economical design and rational construction: Despite the high-end aesthetic and abundant amenities, the efficient
design and construction process reduced core and shell construction costs compared to similar office buildings in
Silicon Valley. Extensive parametric modeling studies enabled the team to design a glass curtain wall facade that
appears to be curvilinear but is actually faceted, incorporating only a few different sizes of straight glass panels.
CONCEPT
1. concept sketch
17
view through porte cochere
view looking south across quadrangle
view looking north across quadrangle
“The Central + Wolfe Campus redefines the traditional approach to development in Silicon Valley. We’ve created a new
vocabulary for land economics, dispensing with the typical speculative format of low-rise buildings surrounded by parking
C3
C2 C4
R9 C8 C3
C1 19 EQ GLASS PANELS R7
R4 36 EQ GLASS PANELS
8 EQ GLASS PANELS
R8 C2
C5 C7 R6
15 EQ GLASS PANELS
R3 FLAT SEGMENT 22 EQ GLASS PANELS
45 EQ GLASS PANELS 8 EQ PANELS C6
R2 C1
9 EQ GLASS PANELS
GEOMETRY SYSTEM
BUILDING-3 DYNAMIC PROFILE IS CREATED BY SERIES OF TAN-
CX R5 GENT ARCS, WHICH ALLOW THE PROFILE OFFSETS
13 EQ GLASS PANELS
RX ON EACH LEVEL, WITHOUT MOVING THE ARC
CENTER RIDGE R3 CENTER
R=122’ 45 EQ GLASS PANELS
R2
9 EQ GLASS PANELS
BUILDING-5 R1 M MECHANICAL SHAFTS
26 EQ GLASS PANELS CONNECTING LEVEL 3-7
A COOLING TOWER
BUILDING-4
B CHILLERS
BUILDING-1 B D C HEATERS
M
BUILDING-2 D AIR RETURN-MIX & SUPPLY
KAL-ZIP MTL PANEL
D
1 A
ROOF SCREEN
C9 M
B
D
M
D
IN THE SAME ARC SYSTEM, PANEL SIZE
M C 2
VARIES ON EACH LEVEL DUE TO
DIFFERENT RADIUS, BUT ARC CENTER KAL-ZIP MTL PANEL GARAGE SCREEN
REMAINS THE SAME. BRIDGE STRUCTURE
& SEISMIC JOINT
1 ELEVATOR SHAFT
KAL-ZIP MTL PANEL SCREEN
GAPS BETWEEN PANEL & PERFORATION
PATTERN DESIGNED FOR VENTILATION CONNECTING LEVEL 1-6
OVERRUN AT LEVEL 7
3 2 EGRESS STAIR-1
5 CONNECTING LEVEL 1-7
CORRIDOR AT LEVEL 1
3 EGRESS STAIR-2
0’
BUILDING-1 GARAGE SKIN OPEN BUILDING-2 GARAGE SKIN OPEN BUILDING-3 GARAGE SKIN OPEN
RATE: RATE: RATE:
’
30
’0
OF TOTAL AREA OF TOTAL AREA OF TOTAL AREA CRETE COLUMNS FOLLOWING 30’ GRID.
15
CONNECTING LEVEL 1-6
4 CORRIDOR AT LEVEL 1
0’
LEVEL-2 LEVEL-2 LEVEL-2 BEAMS OCCUR WHEN COLUMNS TRANSFER.
18
42.50% 46.95% 53.67% PERIMETER COLUMNS ARE CANTED TO FOLLOW
5 EGRESS STAIR-4
THE FACADE ANGLE.
0’
OF TOTAL PERIMETER OF TOTAL PERIMETER OF TOTAL PERIMETER
21
20.60% 25.14% 25.02% SHEER WALLS AT CORE LOCATIONS. (MECHANI- CONNECTING LEVEL 1-6
’
240
OF TOTAL AREA OF TOTAL AREA OF TOTAL AREA CAL, CIRCULATION & RESTROOMS)
TRANSFER AT LEVEL 2
’
270
300’
330’
’
24 25
1. site plan 2. north section
3. north elevation
2.
3.
view of entry through porte cochere
view from dining terrace looking south
30 31
1. detail of solar shading 2. detail of courtyard fenestration
1. 2.
32 33
BIOMIMICRY STRATEGY: BUTTERCUP
Color + Light Redirection Diffused natural daylight Solar-responsive floor plate + facade
The multilayered petal of the buttercup gave rise to the concept of a The buildings are organically shaped forms that billow and curve in
When held below a person’s chin, the California buttercup’s
multilayered light shelf, which at the Central + Wolfe Campus delivers response to solar exposure. The cantilevered sections derive form and
glossy yellow petals will reflect light and color onto the skin. The
daylight deep within the floor plate. The team applied interior/exterior light function from the buttercup. Long, sinuous facades create solar gradients
illumination is caused by light traversing the pigment-bearing
shelves to the facade at incremental depths and in areas that receive the that continuously diminish and self shade the glass while reflecting and
epidermal layer twice: once to redirect light and another time to
most direct sunlight. The exterior portion of the light shelf acts as a shading diffusing natural light deep into the space. Landscape elements within each
diffuse it. Forming a cup-like dish, buttercups also track the sun
device that prevents unwanted direct solar radiation while reducing glare and courtyard gravitate toward the sunlight and establish dynamic views from all
and collect solar energy.
redirecting light into the space. The interior portion redirects incidental light workstations. This biophilic environment provides restorative opportunities
upward, where it illuminates the ceiling and provides even daylighting across for occupants to interact within an interwoven series of micro-ecosystems.
a large percentage of the floor plate.
A multilayered structure produces optimal lighting.
2. 3. 4.
34 35
1. detail of quadrangle bench 2. 3D-printed maquette of quadrangle bench
view of quadrangle amphitheater at dusk
COMMERCIAL
39
43rd Street entry 151 W. 42ND STREET
New York, New York, USA
cascading ceiling
annual EUI: 0.97 kBtu/sf/yr
6% below ASHRAE 2007
43rd
stree
t
core
1. lobby axonometric
2. lobby section
42
nd
str
ee
t
continuous flooring
1.
2.
3.
42 43
PLAN 2. ceiling panel types
A 2 PANELS
N2
7 PANELS
N3
12 PANELS
N4
14 PANELS
N5
10 PANELS
N6
12 PANELS
N7
23 PANELS
N8
14 PANELS
N9
16 PANELS
C
30’ Project
4 TIMES SQ
24’ RENOVATI
18’ Prepared For
12’ The Durst O
6’ One Bryant Park
New York, NY 10
Contract No: 14.
S13 S12 S11 S10 S9 S8 S10 S6 S5 S4 S3 S2 S11
27 PANELS 16 PANELS 17 PANELS 17 PANELS 10 PANELS 9 PANELS 10 PANELS 11 PANELS 8 PANELS 10 PANELS 8 PANELS 5 PANELS 17 PANELS
30’
24’
18’
12’
6’ Hellmuth, Obata
5 Bryant Park
1065 Ave of the A
S25 S24 S23 S22 S21 S20 S19 S18 S17 S16 S15 S14 New York, NY 10
t +1 212 741 120
14 PANELS 33 PANELS 50 PANELS 41 PANELS 27 PANELS 28 PANELS 23 PANELS 23 PANELS 16 PANELS 23 PANELS 19 PANELS 17 PANELS
All reproduction & intelle
In Association with
ME ENG
MEP Engin
29 West
New York
LIGHTIN
SOUTH LOBBY PANELS WITH BASE OUTLINES Lighting De
44 45
1. 43rd Street entrance 2. ceiling section detail Professional Seals
3. enlarged rcp
concrete slab
It is a violation of the law of the State of New York for any person, unless acting
under the direction of a licensed architect, to alter an item in any way.
ceiling anchor
No. Issue Description Date
1 ISSUED FOR CONSTRUCTION DOCUMENTS 2015-12-10
2 ISSUED FOR FILING 2015-12-18
1 3 ISSUED FOR CONSTRUCTION 2016-03-04
A-925
hanger rod
safety chain carrying channel
turnbuckle
light fixture z-hook embedded in
GFRG panel
B-Scan
2.
GFRG ceiling panel Project No: 14.07049.00
B:\Revit Projects\14.07049.00 Durst 4 Times Square Lobby\4TS-HOK-I-alan.stevenson_20160304.rvt
Sheet Title
3/4/2016 9:24:06 PM
Sheet of
Original drawing is 42 x 30. Do not scale contents of this drawing.
A-924.00
Sheet Number
1
A-925
3.
4.
1. 2. 5. 6.
42nd Street side looking north
except one: the ceiling. The bounding walls and flooring provide a frame
to hold a dynamic curved ceiling spanning the lobby from 42nd through
exciting.”
CLIENT Stream Realty Partners 3. proposed ground floor plan with plaza
CONCEPT
2. building concept 1. D
B
2.
3.
54 55
1. southwest facade - option a 2. southwest facade - option b 3. southwest facade - option c 4. view from N Street
“To restore and renew is the most sustainable and economical response to maintaining the integrity of our cities’ urban fabric. The
unique attributes of the 1771 N Street site inspired the idea to reimagine the south and west parts of the building with a scalloped
curtain wall that organically opens up the previously solid corner and offers a new identity to this part of the neighborhood.”
1. 2. 3.
4.
COMMERCIAL
57
4TH AND HARRISON
MIXED-USE
DEVELOPMENT
San Francisco, California, USA
CONCEPT
1. concept sketch
2. massing diagram
1.
upper massing
urban room
massing subtraction
upper building
185’ top of building
apparent mass
reduction
podium
85’ top of podium
2. skyplane stack
3.
60 61
1. parti diagram 2. inspirational geometries
1 2
subtraction
3 4
infrastructure
5 6
7 8
ecology
62 63
1. elevation 3. street view
2. section
A. upper setback
B. street wall
C. urban wall
1. 2.
3.
retail and public open space
66 67
BIOMIMICRY STRATEGY - EPIPHYTES 1. symbiosis between organisms 2. design application
Epiphytes refer to vegetation that lives on tree trunks and branches, Designers can apply this symbiotic relationship to building structures by creating
such as ferns, mosses, lichens, liverworts and hornworts. This vegetation green roofs, walls and panels. With the ability to support hundreds of pounds of
creates habitats for other organisms and promotes biodiversity. material, a building can serve as a natural habitat for dense mats of vegetation
across the facade. The vegetation collects moisture and particles from the air,
Epiphytes aren’t rooted in soil and aren’t parasitic. They use trees for slows and captures rainwater and filters pollutants. It also provides shade and
structural support, typically appearing on rough bark that has more protection from the wind.
niches for them to grow on. They are often found on redwood and oak
trees.
Epiphytes obtain moisture and nutrients from the air, rain and debris
that accumulate around them. They collect and store nutrients like
nitrogen and phosphorus in their organic matter. Moss and lichen mats
desiccate when the air is dry and absorb moisture during wet periods.
The survival of an epiphyte depends on the amount of moisture available
in its habitat.
shading
evaporation
control
cooling
moisture
“The building volumes and forms of the Fourth and Harrison campus were inspired by three intrinsic geometries:
the geometry of subtraction in the simple elliptical open space of nearby South Park; the geometry of
infrastructure found within the curvaceous, muscular forms of the adjacent elevated skyway; and the geometry
of ecology inspired by the original rolling dunes and oak woodlands of the San Francisco Peninsula.”
CONCEPT
1. the conference center rises out of Qianting River, referencing the stroke of the tidal bore along the horizon
3. the roof bends from its crest to draw natural light into the exhibit space
1.
2.
3.
74 75
1 2 3 4 5 6
The site has the potential to A realignment of the existing canal Vistas and views are opened up As the heart of the project, the Centered around the international The crossing of the “causeway”
reconnect the city with the marks this section of the main with pedestrian plazas that visually convention center gently lifts the conference center and subway is transformed to a threshold or
Qiantang River. street as a major destination along connect the city to the Qiantang landscape and provides expansive station is a low-rise complex of moment. This creates a sense
the lengthy canal. Water bodies River. views of the Qiantang River. This hotels, shops and offices. This of arrival rather than a solitary
positioned on both sides of the road urban gesture of open space establishes a collaborative, purpose of crossing. The causeway
turn the approach to the complex extends past the waterfront edge sustainable lifestyle that includes a no longer separates but connects.
into a virtual causeway. for public recreation and activity transit hub, canal retail shops and Upon crossing Wubao, visitors
and signifies a new port entry. shared workspace. experience new vistas and
connections in the landscape that
contrast the city grid and integrate
the function of “convention” as a
moment connecting nature and the
city.
76 77
1. view from VIP conference rooms overlooking the roof + Qiantang River 2. view from breakout spaces of conference center through glass atrium
view of conference center from Qiantang River
“This project was more than an opportunity to design a world-class destination for the city of Hangzhou. It was also a way to
tell the story of the city—its history and values—through landscapes. It reminds us of those painterly Chinese landscapes
where depth and tone perceptions shift in soft and subtle ways. With water comes reflection, the morning fog and a variety of
CONCEPT
1. 2.
3.
84 85
SITE STRATEGY 3. incorporating existing infrastructure 5. enhancing views 7. overall framework plan
1. connecting streets + open space to the waterfront 4. opening views to the lake 6. aligning with existing constraints 8. adapted to Chicago context
1. 3. 5. 7.
2. 4. 6. 8.
86 87
SITE STRATEGY 2. axonometric of block typology
A. typical block
B. gardens
C. surface parking via alley
D. service alley
E. bhs 4 floors
F. bhs 4 floors
G. parking 3 floors
H. retail frontage
roof gardens
retail + 3-floor parking + bhs 4 floors
14 units / floor (4 floors - 64 units) 38 parking / floor (3 floor - 114)
bhs 4 floors A
B
C
bhs 4 floors
19 units / floor (4 floors - 88 units) D
retail + 3-floor parking + bhs 4 floors
11 units / floor (4 floors - 60 units) 38 parking / floor (3 floor - 114)
roof garden
G
H
1. 2.
3.
COMMERCIAL
89
view of retail lobby floor concept sketch OFFICE TOWER
DESIGN COMPETITION
Texas, USA
PROGRAM
1. program diagram
B. G.
office
cultural
gardens
amenity / office
retail
parking C. H.
OFFICE
D. I.
CULTURAL
GARDENS
OFFICE AMENITY / OFFICE
CULTURAL RETAIL
GARDENS PARKING
AMENITY / OFFICE
RETAIL
PARKING
E. J.
92 93
PLAN 4. study models
1. high-rise plan
A
2. mid-high plan
3. low-rise plan
B D
A. office space
B. lobby
C. exterior terrace C
D. support space
1.
B
D D
A
2.
B D
3.
94 95
1. evening view + facade detail 2. elevations + facade detail
view of city skyline
CONCEPT
1. courtyard study
2.
3.
4.
102 103
SITE ANALYSIS 2. design drivers
1. existing conditions
Yiti existing land ready for high value reclaimed public integrate good beach, areas of up to
access development marina land beach existing village poor access 18% slope
existing trails
cemetery
existing roads
difficult to access
canyon view
106 107
SYSTEM DIAGRAMS 2. character areas
indent
Yenkit - canyon
Yiti - hills
promenade / canyon walk
“The dramatic mountains and vast Gulf of Oman set the scene for a new mixed-use residential and resort
community. The natural beauty and rawness of the nearly 12-million-square-meter site drove the design
of the master plan, taking advantage of views toward the water and letting the topography guide the
apartments townhouses
community facilities
cultural plaza
waterfront
townhouses villas
retail plaza
agricultural
beach residential
aerial view of Yiti
CORPORATE
115
concept study model CONSUMERS CREDIT
UNION HEADQUARTERS
Kalamazoo, Michigan, USA
CONCEPT
1. process models
2. site plan
1. 2.
118 119
PLANS 4. program concept
1. level 2 B
CSO group: member service center, retail, sales,
E business development
2. level 1
A
D E
2.
F
community room, food
+ drink, exercise
I H
CFO group: accounting, audit,
A E risk management, compliance,
collections, investment services
G B
C CHRO / CHMO HR, training, marketing COO groups: IT, operations, entry, flexible meeting
digital strategy, loan servicing, space
card services, help desk
3.
120 121
1. workplace with view of atrium 2. lobby 4. atrium with monumental stair
3. café
2.
1. 3. 4.
122 123
1. exterior stair + south facade detail 2. south facade detail 3. view from balcony
1. 2. 3.
124 125
DETAIL
2. wall detail
3. 4’ window detail
4. 8’ window detail
2.
3. 4.
1.
north elevation at dusk
“The Consumers Credit Union Headquarters is an exploration of a new manner of sustainable thinking: How do we craft a
building to have the smallest footprint on a site? Inspired by our client’s desire to rethink how they work, the design for the new
headquarters is a thoughtful composition of strategies for workplace, environmental stewardship and corporate messaging.”
CONCEPT
1. concept sketches
facade view
134 135
1. program + circulation diagrams 3.
2.exploded
newsroombuilding axonometric
press / performer
tour
unloading
emergency
shuttle
vehicle
1.
3.
2.
136 137
PLAN
1. level 6
2. newsroom
A. gallery spaces
B. newsroom
C. studios
D. automated studio
C D C C
1.
2.
138 139
1. section showing building floating over public plaza + transportation hub 2.
2.public
newsroom
space under the building
3.
2.social
newsroom
plaza zone
2.
1. 3.
“Broadcasting is entering its third renaissance as news and entertainment come from many sources. Our concept is a network
view from K Street
of varied broadcasting spaces linking the internet to traditional broadcast news by creating a social core with a variety of
places for teams to collaborate. The building becomes both scenery and a stage set for diverse broadcasting opportunities.”
DESIGN PRINCIPAL Kai Olsen is activated by a three-story monumental stair that provides panoramic
views across the city while allowing natural light to fill the space.”
75,000 sq. ft. / 6,970 sq.m.
- Kai Olsen, Design Principal
0.541 w/sf LPD / 54% LPD reduction
PLAN F E
1. level 7
B
E
146 147
1. reception desk 2. interconnecting stair
social hub
CORPORATE
151
1. communication stair 2. OpenText’s first code integrated into laser cut metal screens OPENTEXT OFFICE
San Mateo, California, USA
3. stair concept
3.
152 “This office establishes OpenText as a sophisticated global technology company in 153
INFORMATION 2. the nexus / social epicenter
Silicon Valley. A team of hospitality and workplace designers created storytelling
CLIENT OpenText
features that make this facility unique for OpenText. The workplace design
DESIGN PRINCIPAL Daniel Herriott, IIDA prioritizes well-being and enhances productivity by maximizing natural light and
views and by providing the right balance of private and collaborative work settings.
108,000 sq. ft. / 10,030 sq. m.
Collaboration avenues lead to a central great room, the nexus, where employees
0.437 w/sf LPD / 56% LPD reduction gather to socialize, gain respite or enjoy an event. This new office will enhance
employee attraction and retention. We hope it serves OpenText well for many years
to come.”
PLAN J C
F
1. level 4
A I F D
A. the nexus / social epicenter
B. communication stair
G
C. open office
B
D A
D. team meeting E
E. collaboration corridor
F. refuel station
C
G. recharge pod
H. executive lounge
D
C
I. reception
J. terrace
D
154 155
1. stair detail 2. communication stair connecting client space + café
156 157
1. reception 2. refuel station 3. wall panel detail
1. 2. 3.
executive lounge
CORPORATE
161
main lobby features a black travertine wall that POLSINELLI
honors the legacy of Chicago skyscrapers
LAW OFFICE
Chicago, Illinois, USA
CLIENT Polsinelli PC
to Chicago.”
DESIGN PRINCIPAL Peter Sloan, AIA - Peter Sloan, AIA, Design Principal
PLAN
1. level 30
H
A. reception
B. lobby “window boxes”
C. feature stair
D. guest conference
E. conference center
F. coffee bar
G. board room C
H. attorney office space A D E F G
B
164 165
1. level 31 features a hospitality lounge, fostering 2. large stainless steel family table at the center of
informal client meeting spaces + social space the hospitality lounge
CORPORATE
167
1. atrium collaboration space 2. historic picture of the original Tyson Foods headquarters TYSON FOODS
EMMA AVENUE OFFICE
Springdale, Arkansas, USA
CONCEPT
1. concept diagram
2.
1.
3. 4.
170 171
PLANS
E
2. level 1 E F
3. level 2 C
C D
A. entry lobby
B. open stair B
C
C. open collaboration space
D. gallery
E. open office
F. break room
E A
existing building
2.
3.
1.
172 173
1. open collaboration space + conference rooms 2. open collaboration space 4. open collaboration space + stairs
2.
1. 3. 4.
exterior view
GOVERNMENT
177
view of existing chancery + new office annex UNITED STATES EMBASSY
NEW OFFICE ANNEX
Moscow, Russia
CONCEPT
1. concept sketch
2. north elevation
2.
3.
D
180 181
PLANS
1. urban context
C
2. site plan A
A. existing chancery
B. new office annex
C. Russian Parliament
D. Moscow River
E. consular plaza + canopy
F. compound access control
G. consular garden I
H. residential entry
I. business entry
F J
J. consular entry
H
A
E G B
1. 2.
182 183
1. north + east facades 2. facade detail 3. south facade + consular garden
1. 2. 3.
“The design incorporates major public diplomacy spaces into the plans and dynamic streetscapes that connect the
184 185
1. consular lobby
project to its community.”
1. 2.
southwest view of existing chancery + new office annex
HEALTHCARE
189
exterior view NEWYORK-PRESBYTERIAN
DAVID H. KOCH CENTER
New York, New York, USA
A. NewYork-Presbyterian David H. Koch Center The collaborative design team included HOK as
architect, Ballinger as medical architect and Pei
B. Memorial Sloan Kettering
Cobb Freed & Partners as consulting architect for
C. Memorial Sloan Kettering Cancer Center the building envelope and lobby.
D. Rockefeller University
E. Weill Cornell Medical College
F. NewYork-Presbyterian
69th street
E
York avenue
A
B
68th street
C D
192 193
1. York Avenue entrance 2. drive aisle serves as a calming vehicular drop-off +
entrance point away from busy streets
1. 2.
194 195
PLAN 3. lobby + grand stair
MECH 2. level 2
A. coffee bar
09
B. casual dining seating
C. café
PRE-ADMISSION
TESTING + D. café prep
GASTROENTEROLOGY
E. family lounge
F. quiet lounge
PATIENT / PRIVATE
07
CSPD + STAFF +
IMAGING
06
AMBULATORY
SURGERY
G F
05
A
INTERVENTIONAL
RADIOLOGY
B
04
C
RADONC +
INFUSION
B
03
GLASS FACADE = TRANSPARENCY
AMENITIES + B
COMMUNITY / PUBLIC
WELLBEING
02 E
CAFE + 0 20 FT
2.
LOUNGE
01
LOBBY
1. 3.
196 197
1. quiet lounge 2. casual dining area 3. sky lobby view to seating
3.
1. 2. 4.
198 199
1. operating room 2. typical OR corridor with access to natural light + views 3. infusion semi-private room
4. MRI room
3.
1. 2. 4.
view of lobby space
HOSPITALITY
ocean view 203
ATLANTIS KO OLINA
RESORT
Oahu, Hawaii, USA
CONCEPT
1. cultural inspiration
HAWAIIAN VOLCANO PELE - VOLCANO GODDESS KANALOA - SEA GOD KAMOHOALI’LI - SHARK GOD
206 207
PLAN 5. site
A
1. initial massing
1. G J
I
K
3. 4.
208 209
ELEVATION
1. tower massing
2. west facade
1.
2.
210 211
1. structural model 2. sectional perspective
“When we designed the new Atlantis resort in China, we were able to simultaneously rebrand the flag as a modern concept
while establishing an iconic new direction for future projects. In winning a competition a few years later to design the new
Atlantis in Hawaii, we were able to reinforce the direction set in China while expanding it to a low-rise building that remains
iconic. The challenge of achieving this was solved with the vision of the building as a wave. The initial sketch was taken from
inside the curl of a wave, which resonated with the client as inherently appropriate and exciting.”
2. retail avenue
1.
2. 3.
aerial view
HOSPITALITY
219
1. tower facade detail 2. south view looking from podium roof deck TOPWIN CENTER AND
INTERCONTINENTAL
BEIJING SANLITUN
Beijing, China
CLIENT Beijing Topwin Real Estate Development Co., Ltd. 2. northeast view of tower
1.
2. 3. 4.
222 223
1. east elevation 3. looking up from north retail entrance
2. ground-floor plan
“The site’s unusual shape challenged us to create an iconic building that maximized
the use of space while contextually recognizing the beauty of its surrounding area,
A. hotel lobby
B. lobby bar cultivating an environment that optimizes the overall guest experience.”
C. serviced apartment lobby
D. retail entrance - Jeff Kaeonil, AIA, Design Principal
E. vehicular entry
F. vehicular exit
1.
D C
D A
B
F E
2. 3.
224 225
1. hotel entrance 2. hotel lobby bar
226 227
1. north view
1.
2.
JUSTICE
229
1. aerial view looking toward downtown Detroit 2. courthouse entrance WAYNE COUNTY
JUSTICE CENTER
Detroit, Michigan, USA
t.
En
red
DESIGN PRINCIPAL Peter Ruggiero, AIA Se
cu
EF
err
y
ce
1 million sq. ft. / 92,905 sq. m. ler
Serv
i
t. rys
yS Ch
err
EF
Ru
sse
ll S
t.
secured parking
Ch
rys
staff parking
le
St
rF
ell
wy
ss
Ru
e.
Av
en
arr
EW
2. massing sketch
3. facade study
adult detention facility
2. courthouse
ST.
LL
SSE
RU
3.
232 233
FACADE
2. facade studies
1.
2.
234 235
PRECAST CONCRETE 2. facade model of scalloped precast concrete
1. 2.
236 237
PRECAST CONCRETE 2. facade model of horizontal fin precast concrete
1. 2.
238 “Though this building type is often overlooked by the overwhelming demands of program, we looked at the Wayne County Justice
PLAN
Center as a civic, urban edifice, deserving of the most rigorous and considered design attention. Consisting of both courts
1. level 7 and detention programs, the design is a study in foreground and background, prominence and nobility, and the transparency,
B
accessibility, stability and balance at the foundation of our justice system and democratic society.”
2. main entrance
E
A
D
D
B
C
1.
2.
RESIDENTIAL
241
1. street view 2. concept diagram ARTERRA
RESIDENTIAL TOWER
3. early concept sketches
Kansas City, Missouri, USA
3.
1.
242 243
INFORMATION SITE
1.
2.
244 245
1. elevation diagram: staggered balconies provide variety 3. aerial view from east
2. perspective diagrams
1.
2.
3.
246 “The Crossroads district where this project sits inspired the team’s initial idea for the design to act as a hinge between two 247
1. aerial view from south 2. social lounge with view to downtown
distinct view corridors and urban characteristics of Kansas City. Layering a more emotional set of ideas with the rigor and
technical challenges of the prefabricated structural system created the opportunity for unique design solutions.”
1. 2.
RESIDENTIAL
249
street view MIXED-USE
DEVELOPMENT FOR
CONFIDENTIAL CLIENT
Missouri, USA
CONCEPT
1. concept sketch D
A
A
2. program diagram
F
apartments
E
amenity C
retail B
B
bank
2.
3.
252 253
1. aerial view 2. street view
“Three words drove much of this initial design: community, connections and activity. We focused the design first on creating
courtyard view
the architecture of negative space, folding buildings and edges around these three ideas to create a series of open spaces for
the users while reinforcing the city’s goals for a vibrant urban edge.”
CLIENT LG Group
Display
ISC
Hausys
Chem
Life Sciences
CONCEPT
Electronics
Chem
1. program strategy
Innotek
1
pedestrian circulation
building entrance
vehicle with drop-offs
loading bay ramp
car park ramp
2.
3.
260 261
1. aerial view looking north to Han River PLAN
2. level 0
3. level -1 K K
J
A. LG electronics A N B D E F
B. support center C
C. LG display
D. LG hausys I
M
E. LG chem M
F. LG life sciences H H
G. LG innotek
H. garden promenade M M
I. greenway
J. sunken garden
A J G
K. drop-off zone I
L. dining area
M. light well
K K
N. loading bay
2.
J
A N B D E F
C
G
A J
3.
1.
262 263
1. view of greenway + facade of Integrated Support Centre / shared lab center 2. view of central park from auditorium
3. atrium lobby
2.
1.
3.
264 “The design of this extraordinary $3.7 billion campus—perhaps the largest and most sophisticated corporate research facility 265
1. west elevation of Integrated Support Centre
in the world—emphasizes the need for collaboration and convergence among all scientists and researchers, combining
2. auditorium prefunction lobby
virtually every type of scientific research to promote discoveries that support LG’s vision of improving people’s lives around
the globe.”
1. 2.
266 267
1. sunken garden to restaurant level + garden promenade 3. mature landscaping of central garden promenade
1. 3.
2.
aerial view looking east
270 271
1. landscaped roof of bridge linking Integrated Support Centre to shared lab center 2. view of central garden’s breakout area under bridge
aerial view of central garden promenade + bridges
SCIENCE +
TECHNOLOGY
275
south facade MORGAN STATE
UNIVERSITY
MARTIN D. JENKINS HALL
Baltimore, Maryland, USA
CONCEPT
2. aerial view
ES
T
U
IN
M
10
S
TE
U
IN
M
5
1. 2.
278 279
1. design option one 2. design option two 3. design option three PLANS
E
4. level 0
5. level 1
D
C
A
A. classrooms
B. faculty offices
C. atrium
D. vivarium
E. auditorium
4.
B C
A
1. 2. 3.
5.
280 “The design was all about increasing collaboration among different educational departments at Morgan State. It redefines 281
1. campus connector
the notion of a collegiate quad by arranging three buildings in a roughly circular configuration. Located on a hilltop at the
2. atrium southern entrance to the university, these buildings create a forward-looking entrance to the campus.”
1. 2. 3.
academic quad
SCIENCE +
TECHNOLOGY
285
1. view from north 2. model MOUNT SINAI
103RD STREET
RESEARCH FACILITY
New York, New York, USA
CONCEPT
1. massing studies
2.
1.
3.
288
1. program + opacity studies 2. facade studies + concept
290 291
MASSING 4. critical research infrastructure diagram
mechanical
lab
clinical
conference
entrance
1.
2. 3.
4. 5.
292 293
1. street view from northeast 2. facade
2.
1.
model with facade detail
“The tower simultaneously complements the urban campus and captures the spirit of
the future science research occuring within. The facade is a study of texture, scale and
materiality while the programming addresses the full needs of researchers, fostering
1. 2.
CONCEPT
1. concept sketch
1.
2. 2.
304 305
1. view south to Main Street 2. view southeast toward Main + High Streets
2.
1.
306 307
SITE 2. level 2
1. level 0 3. level 5
F
labs
F social spaces
D A
H D
I
C
B
A
E
G
308 309
SUSTAINABILITY
1.
summer sun angle 70º
recommended
0º (flat) skylight to allow angle glazed roof panels towards the north end of
in max direct and diffuse the atrium to reduce higher than desirable levels
winter sun angle 25º sunlight of solar radiation and daylight
2.
3. 3.
310 311
1. operating room of the future 2. main entrance
312 313
1. west elevation of atrium 2. learning landscapes, space between wings
1.
2.
view looking south at Main Street
SCIENCE +
TECHNOLOGY
317
1. West Baltimore Street entrance 2. facade detail UNIVERSITY OF
MARYLAND, BALTIMORE
HEALTH SCIENCES
FACILITY III
Baltimore, Maryland, USA
1.
CONCEPT
1. concept sketch
2. study models
2. 3.
320 321
1. North Pine Street entrance 2. atrium 3. atrium detail
1. 2. 3.
322 323
PLANS 2. typical floor plan
1. level 0
A. lobby
B. office
C. wet lab
D. dry lab
E. collaboration space
F. atrium
C E
E E
B B
F F A
A
B
E
D
atrium
“By reducing the footprint of the original lab building and using
CONCEPT
2. 3.
330 331
BUILDING SKIN
2. early concept of seating bowl “jewel” skin within the district fabric
1.
2. 3.
332 333
SITE STRATEGY 4. exterior spaces like this beer garden extend beyond the walls of the arena + contribute to public realm during non-event time
1. sketch illustrating how arena seating bowl “jewel” is an element of discovery along an intimate urban procession
3. early sketch illustrating a strategy for how the venue is larger than the interior space; public plazas + streets become
part of the venue experience before + after the event
1. 2.
4.
3.
334 335
1. street-like array of restaurants enhance the 2. as the NHL’s steepest + most intimate bowl, the seating environ-
concourse experience ment creates a wall of people + energy enhanced by technology
SPORTS +
RECREATION +
ENTERTAINMENT
337
building exterior from northeast MERCEDES-BENZ
STADIUM
Atlanta, Georgia, USA
1. NFL Atlanta Falcons logo 5. final roof concept 7. sponsor logo integration 9. falcon wing skin geometry
2. concept for NFL Atlanta Falcons logo expanded 10. facade concept
1. 4. 6. 8.
9.
2.
5. 7.
3. 10.
342 343
stadium roof geometry informs all design decisions from seating bowl + structure to exterior skin
344 345
1. petal structure 4. NFL configuration
1. 2.
3.
4.
346 347
1. tekla model of roof structure in open + closed position 4. soccer configuration
2. glass-enclosed concourses
1.
2. 3.
4.
348 349
1. art installation on upper concourse 2. Delta Club located at field level
stadium cross section
stadium bowl retracted roof
1.
SUSTAINABILITY DIAGRAMS
2.
3. evaporative cooling: May - October
3.
4.
358 359
PASSIVE STRATEGIES
Solar control: The design team used a set of inhouse tools to optimize the
arena’s geometry, skin and louver shades, resulting in a 50 percent reduction
in solar radiation compared to the baseline design.
Energy reduction: Solar energy panels built into the facade further reduce
the building’s environmental impact and, coupled with the passive design
strategies, help reduce the arena’s energy consumption by at least 20
percent compared to the baseline building performance.
DAYLIGHT
TRANSITIONAL SPACES
OUTDOOR COMFORT
GEOMETRY OPTIMIZATION
south view with vertical facades south view of radiation map on vertical facades optimization method south view of radiation map on optimized facade tilts south facade view
1900 1700 1500 1300 1100 900 700 500 300 100 0
A. envelope
B. gantry level
C. external plant space
D. upper tier
E. lower tier
F. retractable seating
G. VIP level
H. event floor
I. m.i.c.e. box (meetings, incentives, conventions + exhibitions)
J. balcony
K. stage area
L. service yard
C E I J
K
L H
F
364 365
1. promenade river view 2. internal view, seated concept 3. bowl in futsal mode
1. 2. 3.
“The design response was driven by two parallel approaches. The first focused on operational perfection and
view of artist + VIP drop-off
performance of the arena bowl in relation to the local, market-specific event calendar and needs. The other considered
the wider response to the waterside site, public realm and integration of the new master plan. This convergence resulted
in a design defined by its critical regionalism and innovative arena interpretation rooted in the specifics of its waterfront
architects, engineers and planners to integrate nature’s innovations into the design of
What can designers learn from the resiliency and
adaptability of nature? That’s the focus of Genius
our buildings, communities and cities.” of Place: California Coast, an HOK design research
project in partnership with Biomimicry 3.8 that
- Sean Quinn, AIA, Sustainable Design Leader draws lessons from the most biodiverse region in
the U.S.
WATER DYNAMIC
FACADES STRUCTURES
CALIFORNIA BIOMES MANAGEMENT ENVIRONMENTS
slender
Montane Forest: Known for its coniferous forests, rugged salamander black + yellow
terrain and high altitudes, this region experiences warm argiope
summers and cool winters with adequate amounts of Membrane Elastic Pressurized Natural
precipitation. Flora include giant sequoia, mountain ash and Filtration Structure Conveyance Placemaking
many variety of ferns. Fauna ranges from large carnivores coast
(bears and wolves) to smaller insects, reptiles and amphibians live oak
such as the California slender salamander (A).
dragonfly
Temperate Steppe: These grasslands experience hot summers
and cold winters with moderate rain and occasional snowfall.
Native wildlife includes tule elk, brush rabbit, western rattle
snake and the red-eared slider (B). coast
redwood epiphytes
Mediterranean Vegetation: This semi-arid region is dominated
by shrubs and smaller trees such as the California live oak (C). Water Flexible Collection +
Fauna includes mountain lion, the California condor, lizards, Symbiosis
insects and arachnids such as scorpions and the black and
Capture Connections Movement
yellow garden spider (D). blainesville
red-eared
slider horned lizard
cattail nuttall’s
woodpecker
chaparral
community
tule elk
black-capped chaparral
A B C D chickadee corridors
372 373
SLENDER SALAMANDER MEMBRANE FILTRATION
1. cutaneous respiration California slender salamanders lack lungs. They breathe entirely
through their skin and the tissue lining their mouths in a process
called cutaneous respiration. Because their skin and mouth must be
2. brainstorm: passive ventilation system kept moist to respire, they live in damp places. Oxygen and carbon
dioxide pass through the skin through diffusion.
3. form finding Natural ventilation can be induced within the building envelope
through optimized massing, pressure, fan energy, moisture
exchange and filtration. A hybrid modular component has been
epidermis conceived to create a unitized system sculpted to optimize pressure
differential across the exterior of the facade and between the
interior. This strategy could induce air exchange, reduce fan power
CO2 O2 and potentially be used to harvest moisture.
4. natural ventilation
blood vessel
5. passive intake
blood vessel
horizontal fibers
oxygenated blood
deoxygenated
CO2 DIFFUSION
blood
O2
epidermis dermis
1. 2. 3.
6. passive exhaust
374 375
RED-EARED SLIDER TOPOLOGICAL OPTIMIZATION
The individual plates of the red-ear slider’s shell displace and dissipate strain
energy under loads that activate interlocking sutures. This design inspired the
cancellous interior ventral cortex suture consideration of dome structures and how we could replicate a subdivided and
interlocking structure to effectively react to and spread external forces while 9. 20% initial volume allowed
6. level 8 (more linear surface)
reducing material volume.
Structural Hierarchy: Another characteristic of the red-ear slider’s Truss Optimization: To optimize a truss system, connection levels were
shell system is how its structural elements and hierarchy are arranged. established across a dome mesh to generate possible nodal connections
Uniform shell structures without partitioning space are entirely of truss members. Members that improved the stiffness of the system had
dependent on every piece of the shell being intact. It is an important cross sectional area added to each element, while members that did not
concept that the shell of the red-eared slider is segmented in a way that contribute to the stiffness were minimized until they were eliminated. The
local failure is not entirely fatal to the structure. solution resulted in a fully stressed solution under a volume constraint,
similar to the shell optimization.
Shell areas experiencing large stress can be thickened independently
and transfer load to a system that carries only axial loads. In this way Shell Optimization: The shell optimization followed a similar algorithm logic
the segmented shells only carry their own weight plus whatever is except that the mesh was not conformed to perfect symmetry. Elements
superimposed rather than the load of all neighboring members. also included flexural as well as axial stiffness; and continuous support was
applied at the base.
1. 2. 3.
376
BLACK AND YELLOW ARGIOPE 3. water collection through pressure + tension
4. relaxed condition
1. brainstorm: water-activated facade
5. expanded condition
2. water movement through differentiation of surface
1.
WATER CONVEYANCE
Spiders have the ability to spin webs with unique water-collecting functions
and mechanisms. Spider silk is hygroscopic, meaning it has the ability to collect
moisture from the air. This is due to a unique fiber structure that forms when it is
exposed to high relative humidity or fog. 5.
Dry silk consists of loose cottony puffs separated by joints along a double-fibered
main axis. When exposed to fog or relative humidity above 90 percent, the web’s
structure changes and the puffs shrink into spindle-knots. Moisture from the air
caught on the web’s smooth nanofibrils slides via gravity to the relatively rough
spindle-knots where it coalesces to form water droplets.
joint random
water droplet spindle knot nanofibrils
2. 3.
6.
378 379
COAST LIVE OAK BIOPHILIC DESIGN
upper canopy
1. brainstorm: natural placemaking The structure, mechanisms and resulting
ecosystem of and around the coast live oak micro-habitat
provide an inspiration on how to design habitats
ideal for life. The canopy serves as a porous work place
envelope, offering the opportunity to structure
HABITAT
life in direct connection with nature. The core
of the tree, its trunk and main branches, can be
compared to the communicating spaces of any
FOOD REFUGE building—places for work, contemplation and
SOURCE relaxation. The root structure represents the
foundation and point of entry to the oak, much
the way that a building’s plinth forms its base and
arrival space.
SHELTER
Stanford Center for Academic Medicine trunk
represents an ambitious effort to provide
NUTRIENT disparate research disciplines with a common,
core +
RICH SOIL collaborative environment. The site’s mild
Mediterranean climate and location next to a conference
nature preserve inspired the team to develop
a master plan for the project’s three buildings
NATURAL PLACEMAKING that acts as an extension of the arboretum
experience and connects occupants to outdoor
spaces. Inspired by the coast live oak’s role as
The coast live oak is a keystone species that an ecosystem organizer, narrow wings envelop
disproportionately affects its community. a courtyard providing diverse settings for
The oak’s efficient biological features make collaboration near the woods and in plazas,
it an attractive home for many species that balconies, walkways, porches and terraces.
rely on the tree for food, nesting, perching root
and protection. The oak creates a complex Internally, the workplace promotes interaction structure
symbiotic relationship with its inhabitants that, between medical specialists and the outdoor
in turn, fertilize and protect it from insects. environment. The narrow architectural forms GATEWAY
daylight 85°F grant plentiful access to daylight and natural arrival
The coast live oak forms an ideal environment ventilation, serving as a connection to nature.
for life. Its foliage blocks harsh sunlight while Externally, the courtyard allows the arboretum
allowing breezes to pass through for the fauna O2 to flow through the buildings toward the medical
and flora that live beneath its canopy. Its school. Porches and plazas extend from the
structure further provides a layering effect, building to form summer and winter gardens,
creating a sense of space and movement. places for activity, reflection, interaction or
CO2 concentration. Biophilic design truly blurs the
boundaries of this indoor-outdoor workplace
environment.
layering of
space
shade 72°F
breezes connection to
nature
varying light
water
1.
redwood
380 381
REDWOOD FOG CAPTURE section
xylem vascular
2. design principle: adhesion + cohesion system
phloem
3. brainstorm: water collection + reuse cork
annual
ring
fiber
fog capture
filter vessel
condenser
1. coast redwood
pits open +
conducting water water
pits sealed
adhesion
cohesion
flexed
tori
water molecule
torus
water
tracheid
gray water
2.
water tank
collection rain
water rain
water
ozone
generator facade
collection
gray-
carbon filter water
system
public
water
drinking water supply black
3. water
RESEARCH
383
stadium approach, city gardens STADIUM OF
TOMORROW
“We always want to push traditional typological solutions. The Stadium of Tomorrow design exercise explored how we could DESIGN EXERCISE
deconstruct and redefine the traditional stadium. We used the latest parametric design software to fragment a traditional
London, UK
bowl into smaller, clustered communities optimized to respond to social media friendship groups. The response included the
incorporation of emerging technologies like drone service, envisioned ambitious spectator experiences and anticipated future Today’s rugby fans are among the world’s most
passionate sports enthusiasts, and they have
a growing appetite for engaging game-day
urban needs such as a shortage of green space.“ experiences.
- John Rhodes, RIBA, Design Principal To generate ideas for enhancing the stadium
experience for fans and athletes, HOK led a
collaborative design exercise with four legendary
rugby players. Jamie Roberts (Wales), Tim Visser
(Scotland), James Horwill (Australia) and Danny
Care (England) shared their ideas about the
attributes of an ideal stadium and what inspires
them as athletes and fans.
1. 2.
386 387
1. pitch technology, immersive environment 2. pitch technology, player heat maps
internal view of bowl + gantry
DESIGN TEAMS
COMMERCIAL Central + Wolfe Campus Sunnyvale, California, USA 12 4th and Harrison Mixed-Use Development San Francisco, California, USA 56
Paul Woolford (Design Principal) Steve Morton Paul Woolford (Design Principal) Sean Quinn
Zorana Bosnic Kyle O’Konis Zorana Bosnic Kwanghyun Song
Kathy Doi Sean Quinn Brian Jencek Xandr Stack
Cesar Escalante Steve Slosek Yonguk Kim Xiyao Wang
Garam Hann Benjamin Taube Junyoung Lee Yibo Zhao
Brian Jencek Roana Tirado Matt Nguyen
Joon Kim David Vogel
Ben Kuchinsky Conner Williamson Hangzhou Wubao Mixed-Use Dev. Design Competition Hangzhou, Zhejiang, China 70
Spike Liu LiYan Yang Jeff Kaeonil (Design Principal) Louie Lv
Brent Martin Debarati Basu Seven Qi
Christian Aryo Bravianto Dongyu Qie
151 W. 42nd Street New York, New York, USA 38 Xiao Feng Chris Quinlan
Kenneth Drucker (Design Principal) Stephanie Hur Alvis Ko Summer Su
Varun Kohli (Senior Designer) Edward Ledoux Rouel de La Paz
Roosevelt Alexandre Maria Salazar
Matt Breidenthal Alan Stevenson New SouthWorks Concept Master Plan Chicago, Illinois, USA 80
Steven Danielpour Jacquelyn Suozzi Domenic Salpietra (Design Principal) Baixin Ren
Anne Fletcher Ever Umana Isaac Plumb Jiasi Tan
Mark Hendel Vincent Yu
Nathan Hoofnagle Office Tower Design Competition Texas, USA 88
Roger Soto (Design Principal) Joseph Wilfong
1771 N Street NW Repositioning Washington, D.C., USA 50 Katherin Brunner Seong-Hyeak Won
Monika Kumor (Design Principal) Chloe Hiyu Jonathan West
Maxwell Baum Vanessa Hostick
Olivia Calalo Anica Landreneau Omani Riviera Yiti and Yenkit, Oman 98
Mateusz Gawad Emillio Stokes Anne Hutton (Design Principal) Blanca Dasi Espuig
Farah Arakji Chris Fannin
Ysmael Vonn Bantay Ekaterina Amromin
Jessica Chan Natalia Lopes
Kostas Dimitrantzos Francesca Pintus
DESIGN TEAMS (CONT.)
CORPORATE Consumers Credit Union Headquarters Kalamazoo, Michigan, USA 114 Tyson Foods Emma Avenue Office Springdale, Arkansas, USA 166
Peter Ruggiero (Design Principal) Abby Maciejewski Eli Hoisington (Design Principal) Abby Maciejewski
Josh Behrns Heather Neri Steven Crang Mackenzie McCulloch
Michela Bettin Michael Nolan Jeff Davis Heather Neri
Jeff Davis Felipe Oropeza Jr. Stefanie Hartman Jason Pierce
Julie Donovan Domenic Salpietra Julia Huetel Andrew Renwick
Alex King Dan Sullivan Brad Liebman
Nareg Kurtjian Emily Willner
GOVERNMENT United States Embassy New Office Annex Moscow, Russia 176
Korean Broadcasting System Design Competition Seoul, South Korea 128 Roger Schwabacher (Design Principal) Yoshi Koyama
Larry Malcic (Design Principal) Timothy Hatton Ed Abboud Maja Likakis
Chris Yoon (Design Team Leader) David Weatherhead Saad Dimachkieh Sarah Oppenhuizen
Amy Fabry Pamela Sams
Nasdaq Office Philadelphia, Pennsylvania, USA 142 Brandon Hartz Sonal Shah
Kai Olsen (Design Principal) Sherri King Parente Bill Hellmuth Emillio Stokes
Benjamin Bauman Jennifer Pittenger John Jackson Morgan Williams
Lorraine Fisher Sherri Smith Tom Kaczkowski Michael Zajkowski
Alyssa Horn
HEALTHCARE NewYork-Presbyterian David H. Koch Center New York, New York, USA 188
OpenText Office San Mateo, California, USA 150 Kenneth Drucker (Design Principal, Arch.) Robert Gerardi
Daniel Herriott (Design Principal) Anne Pradenas Christine Vandover (Design Principal, Int.) Marilyn Hecker
Dimitri Avdienko Randa Tukan Sasha Archer Eli Hoisington
Danielle Leon Jenna Walsh Mara Baum Tim Howarth
Jess Bayuk Stephanie Hur
Polsinelli Law Office Chicago, Illinois, USA 160 Amy Beckman Julie Janeo
Eric Linebarger (Design Principal) Lou Oswald Lizzy Bochner Natalie Levinson
Erin Adcock Steven Roark Bryant Bosland Yule Lee
Aaron Godfrey Peter Sloan Sandra Castaneda Christopher Lodge
Nayyareen Chhapra Stanley Pikul
Nate Cornman Frank Ruggiero
Stephen Danielpour Stephen Weinryb
Julie Donovan Deborah Young
Carl Galioto Vincent Yu
DESIGN TEAMS (CONT.)
HOSPITALITY Atlantis Ko Olina Resort Oahu, Hawaii, USA 202 JUSTICE Wayne County Justice Center Detroit, Michigan, USA 228
Gregory Cranford (Design Principal) Francesca Meola Peter Ruggiero (Design Principal) Trey McCann
Peter Baldwin Marie-Paule Petitjean Yousef Abougabal Nikitha Mallela
Michael Bykovski Harsha Sharma Mo Abumuhaimid Paul Maute
Mario Claussnitzer Simon Shim Roosevelt Alexandre Francesca Meola
Claudia Conde Andrew Sutton Scott Anderson Jourdon Miller
Louis Hedgecock Haiyin Tang Michela Bettin Mike Morland
Mark Hendel Ever Umana Tyler Boyett Candice Ogando
Nathan Hoofnagle James Wright Jose Briones Mark Paskus
Nathan Janicek Bing Wu Jeremy Charmchizadeh George Pavlovski
Bryan Jones Lin Xia Dany Chehade Leila Ray
Byounggi Lee Zhaoyan Zheng Jonathan Colebrook Casey Renner
Donald Marmen Saad Dimachkieh Sandy Reyna
Yu Gao Emily Richards
Topwin Center & InterContinental Beijing Sanlitun Beijing, China 218 Tony Garoppolo Brad Robins
Jeff Kaeonil (Design Principal) Nicole Liu Fred Goebel Ryan Rohlfs
Benjamin Chan Patrick Sloan Jeff Goodale Richard Saunders
Albert Chen Peiju Tai Adriana Hernandez Jayson Savino
Hui Dang Scott Taricco Mark Ip Greg Sherman
Tim Kwan Hong Tian Dave Ivey Simon Shim
Philip Kwong Jin Xu Yongbeom Ji Bob Schwartz
Pam Johnson Tim Smith
Nick Juhasz Angelina Stasulis
Tom Kaczkowski Donald Taylor
Sue Kim Chris Tuey
Gary Kuzma Kristen Zilch
Cindy Landry
DESIGN TEAMS (CONT.)
RESIDENTIAL Arterra Residential Tower Kansas City, Missouri, USA 240 Mount Sinai Health System 103rd Street Research Facility New York, New York, USA 284
Eli Hoisington (Design Principal) Kelly Lott Kenneth Drucker (Design Principal) Aman Krishan
Jonathan Wirth (Senior Designer) Martha Martinko Jim Berge Donald Marmen
Barb Anderson-Kerlin Arno Sandoval Sara Dionis Ismini Naos
Carl Galioto Tzveta Panayotova
Mixed-Use Development for Confidential Client Missouri, USA 248 Mohammed Hasafa David Schwartz
Eli Hoisington (Design Principal) Barb Anderson-Kerlin Alka Jakkaraju Louie Takwing
Jonathan Wirth (Senior Designer) John Pirtle Kooho Jung Ali Ward
Abby Buchman Christine Sima William Kenworthey Stephen Weinryb
Jeff Davis Andrew Zell
Jake Durchholz Univ. at Buffalo Jacobs School of Medicine + Biomedical Sciences Buffalo, New York, USA 300
Kenneth Drucker (Design Principal) Phillip Luse
SCIENCE + TECHNOLOGY LG Science Park Seoul, South Korea 256 Jim Berge Chirag Mistry
Larry Malcic (Design Principal) Beate Mellwig Bobby Bouzenekis Teruka Miyauchi
Chris Yoon (Design Team Leader) Bill Odell Marisa Caban Bill Odell
Joyce Chan Adam Rigby Frank Cauthen Robert Powers
David Cutmore Shem Sacewicz Jen-Shen Chan Krishna Prasad
Paul Duggleby Jeff Strohmeyer Rhoda Chan Kimberly Robidoux
Jeongsu Eun Robert Studd Patricia Garcia Chimeno Rene Ruiz
Ian Fleetwood Yeojoong Yang Ting Chin David Scheck
Randy Kray Stephen Danielpour David Schwartz
Robert Elliot Ami Shah
Morgan State University Martin D. Jenkins Hall Baltimore, Maryland, USA 274 Eli Hoisington Jeff Strohmeyer
Bill Hellmuth (Design Principal) Anica Landreneau William Jenkins Rain Wang
Jack Baker Tim O’Connell Takwing Louie Stephen Weinryb
John Cain Damon Sheppard
James Doussard Joe Winters University of Maryland Health Sciences Facility III Baltimore, Maryland, USA 316
Duncan Kirk Bill Hellmuth (Design Principal) Tim O’Connell
Mide O. Akinsade Susan Williams
Carrie Hsu
DESIGN TEAMS (CONT.)
SPORTS + RECREATION + Little Caesars Arena Detroit, Michigan, USA 326 Yas Arena Abu Dhabi, UAE 354
ENTERTAINMENT Ryan Gedney (Design Principal) Sarah Hunter John Rhodes (Design Principal) Mark Kennedy
Travis Bailey John Jesik Alan Addison Jihum Kim
Tabitha Darko Doug Kuster Matt Chamberlain Kirsty Mitchell
QiQi De Graaff Paul Leskovac Carlos Delabarrera Tom Leung
Jeff Goode Mark O’Hara Nuno Guerreiro Yuan Liang
Adam Groth Danny Shervington Daniel Hajjar Ocean Liu
Ryan Halford Tracy Stearns Lee Johnston Robert Studd
Bryan Hallier Tambra Thorson
George Heinlein Matt Van Becelaere RESEARCH Genius of Place: California Coast Design Research Project California, USA 368
Eric Henke Megan Weber Paul Woolford (Design Principal) Junyoung Lee
Darius Hollwell Sean Quinn (Sustainable Design Leader) Jared Parker
Annelise Barbieri Mathew Roush
Mercedes-Benz Stadium Atlanta, Georgia, USA 336 Fang Fang Benjamin Taube
Bill Johnson (Design Principal) Jon Maxey Beth Grote Xiyao Wang
Alex Augustin Mac McCoy 382
Andrea Baker Kent McLaughlin Stadium of Tomorrow Design Exercise London, UK
Tom Bayer Joe Nehama John Rhodes (Design Principal) Lee Johnston
Matt Breidenthal Mark O’Hara Carlos Delabarrera Dimitar Pouchnikov
Peter Broeder Renee Petty Nuno Guerreiro
Julie Busby Greg Pfau
Chris DeVolder Alejandro Rodriguez
Gus Drosos Rich Saunders
Tiffany Franklin Rashed Singaby
David Gile Jeff Sittner
Ewa Glebocka Tracy Stearns
Jeff Goode Hideaki Taguchi
Darius Hollwell Jeff Verkamp
Bryan Hutchinson Megan Weber
Andrew Kelmers Kyle Wedel
Victoria Lewis Adam Wilson
IMAGE CREDITS
COMMERCIAL Central + Wolfe Campus Tim Griffith, Tom Householder, Brent Martin 12 JUSTICE Wayne County Justice Center HOK 228
151 W. 42nd Street Paul Warchol, HOK 38
1771 N Street NW Repositioning HOK 50 RESIDENTIAL Arterra Residential Tower Pictury 240
4th and Harrison Mixed-Use Development Steelblue, Fictional Pixel 56 Mixed-Use Development for Confidential Client Pictury 248
Hangzhou Wubao Mixed-Use Design Competition Layer CG 70
New SouthWorks Concept Master Plan HOK 80 SCIENCE + TECHNOLOGY LG Science Park Namgoong Sun 256
Office Tower Design Competition Smilodon 88 Morgan State University Martin D. Jenkins Hall Brad Feinknopf 274
Omani Riviera PTAH 98 Mount Sinai 103rd Street Research Facility Pictury, Rachel Sale 284
University at Buffalo James Ewing, Paul Warchol 300
CORPORATE Consumers Credit Union Headquarters Tom Rossiter 114 Jacobs School of Medicine + Biomedical Sciences
Korean Broadcasting System Design Competition Pixelflakes 128 Univ. of Maryland Health Sciences Facility III Brad Feinknopf, Alan Karchmer 316
Polsinelli Law Office Michael Robinson 160 ENTERTAINMENT Mercedes-Benz Stadium Bruce Damonte, Michael Robinson 336
Tyson Foods Emma Avenue Office Randy Brawley 166 Yas Arena Stefan Augustyn, Wire Collective 354
GOVERNMENT United States Embassy New Office Annex Alan Karchmer 176 RESEARCH Genius of Place: California Coast Foreground Visuals, 368
Design Research Project Creative Commons
HEALTHCARE NewYork-Presbyterian Albert Vecerka/Esto, Frank Oudeman, 188 Stadium of Tomorrow Design Exercise HOK, Per Brunkstedt 382
HOSPITALITY Atlantis Ko Olina Resort ICON, Jordan Lerma, Clark Little, Miles Morgan 202
Topwin Center & InterContinental Beijing Sanlitun Terrence Zhang 218
HOK
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