HOK Canada Higher Education Brochure

Higher Education

HOK designs environments that enhance the quality of life for the people who live, work, and play in them, by translating trends into unique environments with a distinct sense of place and design excellence.

FIRM PROFILE

SUSTAINABILITY

PROJECTS

TEAM

FIRM PROFILE 60 years of design excellence

“We asked what it would really take for the university, this province, to be out front … Edmonton Clinic Health Academy is our answer. It’s Alberta’s engine for health innovation, and we believe it has the capacity to transform the way we think about health care.” -- Carl Amrhein Provost, University of Alberta

Firm Profile In Canada since 1997, HOK has over 170 people in its Calgary, Ottawa, Toronto, and Vancouver offices. Architects, interior designers, workplace strategists, landscape architects, planners, graphic designers, and space programmers work in collaboration. This ensures a consistent vision throughout a project, from its overall design concept to the smallest, carefully considered details. HOK combines global reach with local expertise. We have offices around the world, which means that projects everywhere benefit from a team of experts with both international perspective and intimate knowledge of regional clients and market intelligence. HOK’s Canadian teams offer experience in almost every sector: healthcare, corporate, retail, hospitality, science and technology, residential, education, government, justice and institutional. Every project is an opportunity to champion environmental responsibility. We have pioneered sustainable design for more than 15 years with books, research, and a commitment to the environment that is integrated into all our design and service businesses. Our creative problem-solving and client-based services result in loyal clients and successfully completed projects.

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Ways You Will Benefit With HOK on Your Project

Strategic Problem Solving: HOK understands strategic and facilities planning, corporate finance and capital investment, organizational structure, decision-making methods and information analysis. Whether you are relocating, renovating, building anew, rebranding, amalgamating or diversifying, HOK can help you succeed in today’s competitive economy. Breadth and Depth of Knowledge: HOK works in more than a dozen market sectors. With knowledge and research shared across the firm’s 24 offices, the cross-fertilization of ideas sparks innovative solutions that will benefit your organization. HOK has designed and delivered P3 projects in North America and Europe in both compliance and consortia participation. Team Leadership: HOK has successfully managed large multidisciplinary teams of consultants working on demanding complex projects around the world. Best practices, tools and protocols are in place to guide your project to success. With HOK you can trust that your project will proceed smoothly and seamlessly. Design Creativity: HOK has gained international awards for its creative design solutions. Whether you need a landmark building to attract donors, cutting-edge office environment to draw workers, or a refreshed retail brand to stay competitive, HOK can meet your needs. Green Expertise: HOK’s Sustainable Design Group can help develop new green operations plans, green new or existing buildings, even design entire green communities. Our sustainably focused services brings new life to existing buildings and optimize the impact of occupants on achieving energy conservation initiatives.

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International Resources: HOK has offices around the world. No matter the location, your project will benefit from our understanding of international standards, business procedures and technological solutions. Multi-disciplinary Teams: HOK has a full range of design professionals including architects, urban planners, programmers, space planners, interior designers, brand specialists, graphic designers and landscape architects. Our multi-disciplinary approach ensures that the design of your entire project is consistent, from the overall concept to the smallest detail. Consensus Building: HOK’s Problem Seeking® methodology will help you and your stakeholder groups simplify seemingly complex problems and develop solutions that can be successfully implemented. Because our methodology covers qualitative (goals and concepts) and quantitative (facts and needs) information, consensus will be achieved quickly and effectively. Technology: HOK uses Building Information Modeling (BIM), a design and documentation methodology that makes available coordinated, computable information about a building project early in design and develops into a single model that can be shared with engineers, construction teams and facilities managers. Project Management: HOK has refined its system of processes and procedures over many years and projects. Recognizing that every client has a different organizational structure and decisionmaking processes, HOK will tailor the way it works to suit your needs.

S U S TA I N A B I L I T Y Leading the way in sustainable design

services Architecture Consulting Engineering Interior Design Landscape Architecture Lighting Design Planning + Urban Design Product Design Renovation + Restoration Strategic Accounts Sustainable Consulting Visual Communications

projects

Aviation + Transportation Civic + Cultural Commercial Corporate Education Government Healthcare Hospitality Justice Residential Retail + Mixed Use Science + Technology Sports + Entertainment

200+ green certified projects

working

across

13 24

global

offices

740+ LEED

Credentialed Professionals

sectors globally

Ranked Top

Role M o d el fo r S u s t ain a ble + Hig h Pe r fo r m a n c e D e sig n Design Intelligence, four consecutive years

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296+

LEED Registered

projects

firsts

LEED-certified airport terminal

LEED-certified embassy

LEED-Gold project in Latin America

LEED-CI certified project in Singapore LEED-NC Platinum project in Saudi Arabia LEED-CI Gold project in the UK LEED Gold airport building in India

As one of the world’s most influential design firms, HOK accepts a responsibility to incorporate measurable, sustainable outcomes into everything we do.

Our Commitment to Sustainability We have been a leader in sustainability since the days when it was known simply as environmentally responsible design. In 1993, we made it official by establishing sustainable design as a core value. We’re proud of what we have helped our clients accomplish and of HOK’s reputation as a worldwide leader in sustainability. But the future demands much more.

We wrote the books

HOK’s global practice partners with clients to be responsible stewards for the environment. Our collaborative, multidisciplinary design process blends art and science to create optimal, sustainable and beautiful environments that provide value for our clients, satisfy people’s needs, and help sustain the planet. Leadership We deliver sustainable solutions for every building type, region and budget. This has led to numerous sustainable firsts and accolades. GSA Office of Governmentwide Policy

Innovation From our alliance with Biomimicry 3.8, to our FIT tool, Process Zero design and net zero projects, we are pushing into new frontiers. Action Our actions are guided by a Sustainable Roadmap and Operations Plan. We have signed on to The 2030 Challenge and the AIA’s 2030 Commitment. Measurement We achieve measurable outcomes. We provide design analysis services, follow a “6 Steps to Energy Optimization” process and use BIM to forecast and monitor performance.

The New Sustainable Frontier P R I N C I P L E S O F S U S TA I N AB L E D E V E L O P M E N T September 2009

P RO J EC TS I n te g r a t i n g c r e a t i v i t y, s u s t a i n a b i l i t y, a n d d e s i g n exc e l l e n c e

Higher Education Clients Algonquin College Auburn University California Institute of Technology California State University, Long Beach California State University, San Bernardino Carleton University Charles Drew University Chicago State University Clemson University College of DuPage College of Lake County Columbia University Cornell University Donald Danforth Plant Science Center Dallas County Community College Drury University Duke University Emory University Florida International University Florida State University Florida State University College of Medicine George Mason University Georgia Institute of Technology Georgia State University Harvard University Houston Community College Humber College

Indiana State University James Madison University Johns Hopkins University King Abdullah University of Science and Technology (KAUST) Kingwood College Kirkwood College Loyola University Maryville University McGill University Medical College of Georgia at Georgia Memorial University of Newfoundland Mississippi State University Missouri State University Missouri Western State University New York University North Carolina State University Northern Kentucky University Northwestern University Notre Dame University Pennsylvania State University Pierce College Princeton University Queen’s University Regents University Rockefeller University Rutgers University Santa Clara University Sheridan College

Stanford University SUNY Brockport SUNY Buffalo SUNY Farmingdale State SUNY Geneseo Tennessee Technological University Truman State University U.S. Naval Academy University at Buffalo University of Alabama University of Alberta University of Calgary University of California, Berkeley University of California, Davis University of California, Irvine University of California, Merced University of California, Riverside University of California, San Diego University of Central Florida University of Chicago University of Colorado, Denver University of Dayton University of Florida University of Georgia University of Glasgow University of Guelph University of Illinois at Chicago University of Illinois at UrbanaChampaign

University of Kansas University of Miami University of MissouriColumbia University of Missouri-St. Louis University of New Mexico University of Oklahoma University of Ottawa University of Regina University of Saskatchewan University of South Carolina University of South Florida University of Southern California University of Southern Indiana University of Texas, Austin University of Texas Medical Branch University of Wisconsin-Green Bay University of WisconsinMadison University of WisconsinStevens Point University of Wyoming Vassar College Washington University West Los Angeles College West Virginia University Wichita State University William Paterson University William Rainey Harper College Zayed University

Memorial University of Newfoundland Core Science Facility St. John’s, Newfoundland

Memorial University wants to double their faculty and student enrollment by the year 2020 and is in need of facilities to accommodate this growth, as well as enable the recruitment/retention of world class faculty and top students. HOK’s design team has been working with Memorial to design a building that will provide interdisciplinary learning and research space for Faculties of Science and Engineering. The building is positioned on a signature site, providing a new gateway into the campus. Science and Engineering will be put on display inside and outside of the building, which takes design cues from natural elements and local building traditions. At the second floor, the facility will be connected via a bridge to University Center at the Food Court Level (which also connects on the other side to the existing Engineering Building) and will be a studentfocused floor, housing the Senior and Junior design studios, Computer Lab and Classroom, and student collaboration areas. 125,000 square feet of the facility is designated as shell space to be built out in conjunction with industry partners to support collaborative research.

Kintore College Toronto, Ontario This unique 16-storey project, located in a distinguished neighbourhood at the edge of the University of Toronto campus, houses two different uses: a residential women’s college combined with a high-rise residential condominium. The project’s design is the result of a careful, measured response to its two distinct internal functions and to the scale and character of its distinguished location. The three-storey college building mass is a simple, well-proportioned low-rise stone rectangular building set well back from the sidewalk to create a generous landscaped forecourt. The college is deliberately scaled and proportioned to match the pedestrian scale of the older buildings of the street, while the 16-storey residential tower above it is scaled to make the urban transition from the University campus to the residential and commercial towers forming the edge of the commercial city scape surrounding the campus to North and East. Sustainable design features include locally manufactured stone to clad three sides of the building and a curtain wall cladding system chosen for higher efficiency.

University of Guelph Centre for Biodiversity Genomics Guelph, Ontario The Biodiversity Institute of Ontario was expanded to include a new research facility to support the study of DNA-based approaches for biodiversity analysis and enhance the University’s reputation as a world leader in DNA bar-coding. The 37,700 sq. ft. specialized infrastructure includes a bio-informatics forum, a plant and animal collections facility with dry and wet labs, and augmented DNA sequencing instrumentation. The design was inspired as a result of BIO’s newest initiative, the International Barcode of Life (iBOL), which is a system for both identifying known species and discovering new ones. The project emulates the flora and fauna species (moths + butterflies), dividing the building into two ‘wings’ – administration to the west and laboratories to the east. The wings are linked by a common two-storey atrium that has informal and formal collaboration areas, and is naturally lit by a floor-toceiling curtain wall, featuring tinted glazing in organic colours. A rainwater retention system was integrated into the design to minimize the buildings operating costs by capturing precipitation for landscaping purposes and sustainable and regional materials were incorporated wherever possible.

University of Calgary Information, Communications & Technology Building Calgary, Alberta The 190,000 sq. ft. ICT Building is a showcase for inter-faculty group dynamics. The new home for the departments of Computer Science and Electrical and Computer Engineering is not only a teaching and research facility, it is a major campus centre with places for gathering, eating, shopping, and relaxation. The project answers the demands of increasing enrolment and the need for greater partnering opportunities with the technology industry. HOK’s mandate was to establishing a common vision for the project by facilitating a three-day visioning session with faculty members where fresh air was identified as a key issue. The design solution: perimeter offices with operable windows and maximum natural light. All classroom seats/tables are fully wired with fiber optics and power allowing students full connectivity and classrooms utilize smart-board technology enabling direct information flow from professor to student via the university network. In addition to the passive ventilation system and high-performance building envelope, the sustainable features include North America’s first structural slab radiant cooling system. Architect of Record: Stantec Architecture; Collaborating Architect and Consultant: HOK.

Carleton University Landscape Ecology Lab Ottawa, Ontario The Landscape Ecology Centre occupies Levels 4 and 5 of Carleton’s National Wildlife Research Centre. The fit-up included the provision of special purpose laboratory areas and a suite of office and support accommodation. One of the key design considerations was flexibility to accommodate unpredictable future changes in program and technologies. The research spaces permit a wide range of scientific investigations, and the robust, non-constraining services infrastructure can be easily reconfigured in a multitude of ways. Architect of Record: HOK; Prime Consultant: Morrison Hershfield.

Humber College Student L Building Toronto, Ontario Funded under the Government’s Knowledge Infrastructure Program, client design objectives were to create a new centre piece on Humber College’s Lakeshore Campus, the historically designated site of the Old Lakeshore Psychiatric Hospital. The design had to respect the cultural nature of the site, complement the existing historical buildings, and assist in developing the site as the primary location for the degree program. The new 90,000 sq. ft. building is the focal point for the collaborative, creative and expressive arts community at the campus. Designed to promote and enrich the student experience as well as resident and visiting faculty, program elements include the Information Commons, a large variety of student study and social spaces, the campus cafeteria, classrooms, administrative offices, and the Digital Media and Communications Centre. The design complements the scale of the existing historical buildings and the material palette is subdued in deference to the surrounding context. In spite of the aggressive schedule, the HOK team engaged in extensive research and study into the site’s history and facilitated an interactive design process with faculty and students.

Carleton University Chemistry SuperLab Ottawa, Ontario The SuperLab was born out the University’s desire to increase student capacity of the existing facility, while heightening the department’s profile within the broader academic community. The existing facility had not been significantly updated since the 1960s and needed a major overhaul. The design solution consolidated four existing chemistry labs, supporting preparation labs and shared balancing rooms into a unified, eye-catching and highly functional learning facility. Consolidation not only increased capacity but also yielded the safest possible equipment layout complete with barrier-free access. The new design also engaged the ring corridor as part of the teaching environment by introducing chalkboards for impromptu collegial discussions, as well as capturing one leg of the ring corridor for the modular preparation labs. Activating adjacent areas and consolidating learning spaces transformed the space into a high-capacity, equipmentdriven teaching machine. Architect of Record: HOK; Prime Consultant: Morrison Hershfield.

St. Andrews Biological Station St. Andrews, New Brunswick The 84,000 sq. ft. project consist of a marine biology research facility located at the historic St. Andrews Biological Station on the St. Croix River at the Bay of Fundy. The expansion program is driven by the need to attract and retain top research talent. Included in the program are two new research facilities, renovations to existing structures, a review of the overall site master plan, and a new wastewater treatment system. The new Science Building houses analytical and computer labs, reference library, administration, and other support services. This is the “front door� for the entire station and provides a focus for the revitalized lower plateau. The new Wet Lab Building houses an experimental aquaculture tank environment along with necessary prep and support facilities. There is extensive servicing and significant restrictions on the control of biocontamination and lights. Accounting for the high humidity levels and the pervasive salt water environment were unique challenges. HOK designed a contemporary, flexible research environment that reflects the heritage of St. Andrews and the broader Maritime context.

University of Alberta Edmonton Clinic Health Academy Edmonton, Alberta The 578,000 sq. ft. Health Academy is designed to promote interprofessional collaboration, innovative teaching and leading-edge technologies that advance health education and care delivery. Bringing 12 Health Science departments, schools from six faculties and numerous stakeholders into a single environment required a proactive engagement process. HOK used its consensus-building Problem Seeking methodology to define the strategic vision and program of requirements and gain universal stakeholder agreement. Designing an interactive and connected learning environment in a building that runs the length of two football was accomplished by colourcoding the building, inside and out. A north-south Main Street, filled with natural light, leads through the building and connects to walkways, plazas, cascading stairs, elevator banks and exit stairs. Light wells, generous glazing in classrooms and interconnecting stairs ensure even below-grade levels, which are punctuated with every kind of student space imaginable, are flooded with light. The upper three levels, which house office and administrative spaces, are equally light-filled by two atria and three light wells. The building is LEED-registered, with LEED Silver anticipated. HOK in association with Stantec Architecture.

Carleton University Residence Commons Expansion Ottawa, Ontario HOK’s 41,000 sq. ft., three-storey expansion to the existing Residence Commons injected style and energy into the entire residential precinct. “Alive” and “vibrant” were high on Carleton’s wish list, along with an identifiable front door to the overall campus and a public image to attract new students. The design and massing were inspired by four key concepts: Collide, Conceal, Bridge and Expose. Viewed from the street, the exterior of the new building collides with that of the existing, concealing its outdated façade. Inside, clear circulation paths carefully bridge the two buildings, while a multi-storey light well exposes the differences between the two. The exposed space between the old and new is the focal point of the design and the intersection of the functional (light well) and the conceptual (bridging). Design priorities included maximum visual connections to and use of adjacent green spaces. Advantage was taken of the location next to a neighbouring residence to create a public square open to the main street.

Carleton University Herzberg Science Building Addition Ottawa, Ontario

Carleton University is a dynamic research and teaching institution dedicated to achieving the highest standards of scholarship. In keeping with their high standards, HOK was hired to develop progressive solutions for the planning, design and implementation of the Herzberg Building, level three, four, and five addition. The goal of a significant architectural presence was achieved with exterior sub-shading louvers, bold coloured cladding and large window sections facing north and south resulting in an iconic new campus building. The amount of daylighting is optimized through building orientation and window-to-wall ratio. On the interior, current research and teaching facility concepts integrate best in class standards. The interior, constructed while the lower floors were still in use, includes special purpose interactive classrooms for the Science Program including offices, interactive student study areas, social spaces facing the Rideau River and faculty offices located on the top two floors along with support spaces for students. The building has a Green Globes 4 globes rating and is designed to use 80% less energy than a typical office building. The sun shading louvers control heat gain and meet the OBC-SB10 requirements for energy savings.

Carleton University Alumni Hall and Physical Recreation Centre Expansion Ottawa, Ontario

A new 5,000 m², multipurpose facility which house three practice basketball courts and one performance court with seating for 2,500. Dedicated locker rooms are provided for Carleton’s men’s and women’s basketball teams and additional locker rooms are provided for other varsity teams as well as visitors. The new athletics facility also includes program space for a new physiotherapy room, educational classrooms, dance / cardio exercise studio, media room, health clinic and a concourse for the exhibit of memorabilia for the Alumni and Sports Hall of Fame. The facility was designed to enhance the strength of Carleton’s athletic program and to provide a strong visual presence for the University from Bronson Ave. The massing of the building and the selection of materials which include iron spot brick (which is the campus brick), aluminum panels, curtainwall and steel siding present an attractive and sophisticated face for the university along a busy thoroughfare. The creation of a large pre-function area with glass lanterns at each end provides adequate space to manage crowds for larger events and for the Athletic department and Alumni group to showcase awards and recognition. The introduction of natural light into the gym improves the quality of the space for users during the day and allows passers –by to catch a glimpse of activity at night.

Queen’s University GreenCentre Labs Kingston, Ontario

As North America’s first hands-on commercialization facility for emerging Green Chemistry innovations, GreenCentre is dedicated to developing and marketing greener chemicals that will reduce pollution and waste. Located at Queen’s University’s Innovation Park, GreenCentre’s product and application development activities are housed in state-of-the-art wet and dry lab facilities that include solvent-handling systems, inert atmosphere glove boxes, and standard analytical equipment. The project called for the renovation of an existing 25-foot-high warehouse space within a fully operational research lab. The renovations required major structural changes, including a new slab-on-grade and structural roof. The existing large windows that flood the space with natural light were maintained.

Queen’s University West Campus Field & Sports Facility Kingston, Ontario

This proposed stadium redevelopment offers significant improvements to the parking, pedestrian walks, athletic fields, and facilities that support field sport programs at the university and for the surrounding community. The new stadium will accommodate a wide range of sports including football, rugby, soccer and skating, as well as homecoming activities, enhancing the experience of both athletes and spectators, and accommodate a training and academic centre. The surrounding fields will include a natural practice field, two artificial fields, and eight tennis courts.

King Abdullah University for Science & Technology (KAUST) Thuwal, Saudi Arabia

This new campus along the coast of the Red Sea houses the world’s most advanced collection of laboratories, equipment and instrumentation across the entire spectrum of science. The mission of KAUST’s internationally renowned scientists is to address humanity’s most urgent scientific challenges related to energy and the environment. Interdisciplinary research being conducted at KAUST includes pursuing sustainable solutions for water, energy and food. The project team had less than 30 months to design and construct 5.5 million square feet of complex space across 27 buildings. The campus features 2 million square feet of laboratory space spread across four interconnected, 500,000 sq.ft. buildings. Exceptionally flexible building shells and universal floor plates accommodate virtually every lab type. R&D Magazine reported that “KAUST contains just about every modern lab concept known today. Just a few of the notable features include interchangeable lab neighborhoods, changeable lab support zones, grid planning, kit-of-parts lab furniture, walkable interstitial space, overhead lab services, MEP systems integrated with lab grid, heat recovery wheels, lab visibility/transparency, collaboration spaces, simple and large circulation spines, high-height pilot areas and lab daylighting.” The campus is Saudi Arabia’s first LEED certified project and, at the time of its certification, was the world’s largest LEED Platinum project.

University of Alberta Chemicals & Materials Engineering Study Edmonton, Alberta The University of Alberta’s Chemical & Materials Engineering is a fastgrowing discipline. The current facility could not meet the demand to fulfill the program requirements. HOK was retained to carry out a Fit Feasibility Study that outlined several ways that the University could meet the demand for additional space as well as the right type of area required, today and into the future. The options developed in the study looked at ways to accommodate these needs ranging from minor renovations within the existing building, to major additions to the facility that could accommodate all of the department’s current and future needs, as well as potentially incorporating other University space needs. The options included a ‘phased’ approach where minor renovations could be implemented very quickly with little disruption of day to day activities, another option to ‘modularize’ the building one floor at a time, increasing efficiency and utilization, and finally, implementing a major building addition to fully maximize the current site and satisfy all the department area needs. Regardless of the go-forward option, the infrastructure upgrade and phasing sequence are critical to the success and timeline of project. All of these issues will have to be evaluated with other University Planning & Infrastructure initiatives and be linked and aligned with the University’s Long Range Development Plan.

University of Alberta Books and Records Depository & Museums and Collections Services Edmonton, Alberta

HOK’s work with the University of Alberta has included the provision of strategic planning services including: the Book, Archives and Record Depository (BARD); Museums and Collections Services (MACS); as well as other key University entities. Services have included the provision of strategic visioning, functional programming and master plan development models, and in select cases business case pro-formas. MACS is responsible for the University’s highly valuable array of collections, covering diverse areas of endeavor such as anthropology, ethnography, paleontology, zoology and fine art. HOK’s services addressed the physical space, interdependency and environmental requirements of 36 sensitive collections spread throughout 15 buildings in varying physical conditions. The resulting deliverable laid out a road map identifying the needs for a modern consolidated facility that would properly accommodate the collections, as well as prioritizing immediate action required to address collections at risk. BARD provides centralized accommodation, repair and restoration of the University’s collection of printed and electronic communication. The functional programme and master plan developed anticipated current and future needs and an appropriate built environment capable of housing and maintaining research artefacts ranging from original university maps and print material, to meteorites and digital media. In both cases a key strategy was to enable such institutions to become active and engaging interchanges for multi and cross-disciplinary research and teaching.

University of Saskatchewan South Campus Master Plan Saskatoon, Saskatchewan The purpose of this master plan was to create a new inspiring campus for students, optimize the university’s endowment lands, and maximize the value of its real estate assets. HOK’s role was to develop an initial proforma for a connective link between the old, established and beautifully landscaped North Campus and the new emerging south campus. HOK worked with a development advisor retained by the University as well as Faculty, City Official and Community ratepayers to develop an overall plan. The overall vision is of a campus of inspiration and beauty, drawing from its agricultural heritage and the prairie landscape. Buildings would be two to six storeys in height would and relate to the existing neo-gothic architecture. Recommendations in the Master Plan for the 47-acre site included a performing arts centre, double pad ice rink, commercial uses, student residences, seniors’ and market housing, and an artificial lake that would double as a stormwater management pond. The study concluded with cost estimates and potential phasing for the development.

Carleton University Steacie Building Renovations Ottawa, Ontario

HOK has provided on-going prime consulting services for various upgrade and replacement projects to the Steacie Building at Carleton University. In 2015, HOK coordinated mechanical, electrical, roofing and structural removal of existing roof mounted exhaust fans and their replacement with a new manifold ducted exhaust systems with 9-metre-high exhaust stacks. The $1.5M budget included the removal and replacement of the roof membrane and an optional heat recovery system. The consultant team included a Mechanical Engineer for the replacement of six strobic exhaust fans with two new exhaust stacks and four new roof mounted fans. Long lead mechanical items were pre-tendered through Merx and through invited bids from an existing approved list of contractors with Carleton University. Project challenges included winter construction, limited down time for student lab research, and delays in the delivery of custom galvanized steel supporting structures.

Wilfred Laurier University Global Innovation Exchange Building Pursuit Waterloo, Ontario

The 210,000 gsf Global Innovation Exchange Building at Laurier accommodates the following areas of study and research: •

The Laurier School of Business & Economics including its Research and Professional Centres and the Schlegel Centre for Entrepreneurship

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Department of Mathematics - Laurier Faculty of Science

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Laurier Faculty of Graduate Studies

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Laurier Office of Research Services including Laurier International

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Laurier Graduate Student Association

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Centre for Community Research, Learning and Action - Laurier Faculty of Science

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Research Centres from the Laurier Faculty of Arts

Images shown on these pages are from HOK’s shortlist interview presentation to Wilfrid Laurier University. Other projects pursued at WLU include: •

Science Building II

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Campus Learning Commons & Arts C Wing Expansion

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Athletic Complex Fitness Centre Expansion

TEAM O v e r 17 0 t a l e n t e d p r o f e s s i o n a l s d e d i c a t e d t o d e s i g n excellence

Our team combines the talent of thoughtful architects, designers, strategists, planners, workplace consultants and responsive professionals whose main objective is to create spaces that answer our clients’ needs. It is because of our world-class team that HOK is able to forge relationships that lead to multiple projects for repeat clients.

Higher Education Calgary 620 12th Avenue S.W. Suite 401 Calgary, Alberta T2R 0H5 Canada T 403 517-3888 F 403 517-3889

Ottawa 205 Catherine Street Suite 101 Ottawa, Ontario K2P 1C3 Canada T 613 226-9650 F 613 226-9656

Toronto 400 University Avenue Suite 2200 Toronto, Ontario M5G 1S5 Canada T 416 203-9993 F 416 203-9992

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