Offsite Manufacturing: Driving Efficiency, Quality, and Sustainable Construction
Course Overview Offsite construction is transforming the building industry by shifting key processes from traditional sites to controlled factory environments. This approach enhances productivity, quality, and sustainability, addressing challenges like labor shortages and environmental impact. The delivery process emphasizes early collaboration, integrated design, and robust project management to optimize efficiency and risk management. Durability and energy efficiency are achieved through advanced material selection, moisture management, and airtight, highly insulated assemblies. Construction logistics, quality control, and commissioning are tailored for offsite methods, ensuring rapid, reliable project delivery. Life cycle analysis shows offsite construction can reduce embodied carbon and waste, supporting climate goals. Canada’s evolving policies and market trends position offsite construction as a key solution for affordable, sustainable housing. Learning Objectives Explain the difference between predesigned and custom steel hangers, and describe situations where a custom connection offers practical advantages in mass timber construction. Describe in plain terms how structural loads travel through a steel hanger assembly, from the supported beam through to the primary supporting member. Recognize why eccentricity occurs in hanger connections and understand, at a conceptual level, how it affects the design of the surrounding structure. Understanding the role the Ontario Structural Wood Association plays in advancing offsite construction in Ontario, including industry coordination, advocacy, and best practices. Course Video Speakers Bio Cassandra Lafond Senior Scientist and Project Leader FPInnovations Cassandra Lafond is a Senior Scientist and Project Leader at FPInnovations, specializing in wood construction systems and industrialized building solutions. Her work combines applied research, innovation, and industry practice to support the advancement of sustainable wood construction. She is particularly focused on the development of practical building solutions that help accelerate the adoption of efficient and scalable offsite construction approaches. Dorian Tung Manager of Technology Assessment FPInnovations Dorian Tung is currently the Manager of Technology Assessment at FPInnovations. Prior to this, he worked as a structural consultant in Canada and the US. As a manager, he has been working with scientists on projects related to structure, seismic, durability, energy, fire, acoustic, and vibration. With the evolving ecosystem, Dorian is active in many working groups to facilitate discussions, remove duplicates, accelerate processes, with the goal to maximize impacts for the forest industry NOW using research data. He is also the editor of the Offsite Wood Construction Handbook published by FPInnovations. Sadegh Mazloomi Senior Scientist FPInnovations Sadegh (pronounced Saa-dek) is a Senior Scientist at FPInnovations working on different timber engineering topics, including building vibration and acoustics, as well as non-destructive testing of mass timber structures. He is also experienced in the development of sampling and testing plans for lumber and engineered wood products.
From Forest to Form: Sourcing Local Wood for BC Projects
Course Overview Wood and mass timber are increasingly being specified for all kinds of buildings and spaces in BC, including mid-rise and taller residential apartments, schools, and healthcare facilities. Does this mean BC will cut down more trees? On this panel, hear BC’s Chief Forester discuss the province’s forest management practices and wood supply. Learn from a recently completed project that effectively sourced local wood materials and discover the tools and resources available to assist in procuring wood products from BC’s forests. Learning Objectives Explain how British Columbia’s forest management framework governs timber supply, old-growth protection, and sustainable harvesting for wood construction projects. Identify key challenges and opportunities in sourcing local wood for BC buildings, including certification systems, Indigenous rights, supply-chain transparency, and societal expectations. Recognize strategies designers and project teams can use to responsibly procure BC wood, including collaboration with vertically integrated suppliers, community forests, and forest stewards. Course Video Speakers Bio Helen Goodland Principal, Head of Research and Innovation Scius Advisory Inc. Helen Goodland is an architect registered in the UK and has an MBA from the University of BC. As head of research and innovation for Scius, she brings over 30 years of experience working on transformative solutions for the real estate and construction industries in Canada and around the world. Helen is firmly committed to achieving truly sustainable buildings within the next decade. She is also passionate about advancing leadership opportunities for women in construction technology. To this end, she participates on numerous boards and committees. Currently she serves on the Board of Directors of Building Transformations (formerly CanBIM), the BC Digital Advisory Council, the BCIT Mass Timber Education Advisory Board and the University of Victoria’s Green Civil Engineering Advisory Council. She is also past chair of the UN Sustainable Buildings Initiative’s Materials Technical Committee. Shane Berg Assistant Deputy Minister and Chief Forester Ministry of Forests, Province of British Columbia Shane Berg is an Assistant Deputy Minister, and the Chief Forester, for the Province of BC with the Ministry of Forests. Shane obtained his BSc. in Forestry from the University of Alberta and has more than 35 years of experience working within BC’s Public Service. Shane is a registered professional forester (RPF) and has worked throughout the province, beginning as a silviculture technician in Invermere, a silviculture forester in Grand Forks, a forest planning manager in Squamish, and eventually taking on district manager roles over a span of 14 years with the BC Forest Service in northern BC (Hazelton) and the southern interior (Kamloops). He spent six years working as a regional executive director with the Ministry of Aboriginal Relations and Reconciliation until he returned to FLNR as an executive director and the deputy chief forester in 2017, a role that he held until has appointment as BC’s 18th chief forester in June of 2022. The mantra for the Office of the Chief Forester is “Caring for BC’s Forests”…and Shane’s goal as chief forester is to promote BC as a world leader in sustainable forest management. Ayme Sharma Associate Principal ZGF Architects Ayme leads ZGF Vancouver’s Building and Project Performance Team, drawing on almost 20 years of professional experience in architecture centered on building performance and environmental stewardship. Trained as both an ecologist and an architect, Ayme brings deep expertise in embodied carbon, healthy materials, high-performance envelope design including Passive House and LEED certification. Her current research delves into linking the biogenic value of wood to sustainable forest management practices in BC to understand carbon and ecosystem benefits. Ayme has cultivated an extensive network of wood industry partners that spans the entire supply chain-from First Nations forest stewards to both small- and large-scale product fabricators. Ayme brings expertise in designing one of the first CLT elementary schools in British Columbia that promotes student health and well-being. Rebecca Holt Senior Director, Sustainability hcma Rebecca Holt is an urbanist and passionate advocate for our planet. She spent her career collaborating with design teams, organizations, and researchers on strategies for high-performance buildings, neighborhoods, and cities. She leads hcma’s Impact Team, shaping how we practice, operate, and advocate. A subject matter expert with a foundation in building performance assessment and climate-responsive design, Rebecca brings decades of experience in design guidance. She is a strategist and steward of process dedicated to outcomes that respect the planet and include everyone.
Scaling Housing With Prefabricated Timber: Regulations-Ready Mid-Rise Prototypes
Course Overview British Columbia faces an urgent housing shortage and mounting pressure to accelerate delivery of multi-unit housing. Recent code changes enabling mass timber up to 18 storeys create a unique opportunity to rethink how housing is designed, permitted, and built. This session will present findings from the Housing Growth Innovation Program’s Prefabricated Timber Housing Systems project. Attendees will learn how pre-engineered, regulations-ready modular timber prototypes can streamline design and approvals, reduce embodied carbon, and speed construction through off-site manufacturing. The session will share strategies for integrating computational design, compliance analytics, and supply-chain insights to create adaptable, scalable mid-rise housing solutions. Geared to architects, developers, policymakers, and builders, participants will gain insight into how prefabrication and digital tools can de-risk projects, reduce permitting delays, and accelerate the delivery of sustainable, affordable homes in B.C. and beyond. Learning Objectives Explain how pre-engineered, regulations-ready prefabricated timber systems can support faster delivery of mid-rise, multi-unit housing under recent B.C. code changes. Identify key structural, building-services, and envelope strategies used in modular mass timber housing prototypes to improve constructability, adaptability, and permitting certainty. Recognize how digital tools, computational design, compliance analytics, and supply-chain benchmarking, can de-risk housing projects and support scalable, low-carbon construction. Course Video Speakers Bio Adrian Watson Principal, Design Director Perkins&Will Adrian Watson is Principal and Design Director at Perkins&Will, where he leads complex, high-profile projects that integrate sustainability, innovation, and design excellence. With over 30 years of experience, Adrian has shaped award-winning buildings and master plans across sectors, including higher education, infrastructure, civic, and housing. In his role as Design Director for the Vancouver and Calgary studios, Adrian leads a team of over 160 architects and designers. He is committed to the development design processes that look to the future, whilst believing that design excellence is attained by doing simple things very well. Yann Tregoat Architect Perkins&Will Originally from France, Yann’s early career was spent in Amsterdam and Paris, working on the Paris 2024 Olympic Games Aquatic Centre. Through urban environment and professional exposure, he has developed a strong interest in mass timber and parametric design, as well as innovative sustainable building solutions. Since moving to Vancouver in 2021, he has worked on various mid-to-large-scale projects, from private development to civic buildings. He brings his own life and professional experience from Europe to his work while learning and further expanding his design expertise at Perkins&Will. Yann has two master’s degrees in both Architecture and Structural and Civil Engineering from the Institute of Applied Science of Strasbourg, France. Solomon Fung Associate Principal Introba Solomon Fung is an Associate Principal at the multidisciplinary engineering firm Introba. Based out of their Vancouver office, he brings 15 years of experience to the mechanical team with a diverse project portfolio including mid- and high-rise mixed-use residential buildings, affordable housing, commercial & office buildings, passive house design, and healthcare. With a keen interest in innovation, Solomon leads his team in pursuit of simple solutions that are replicable for the industry. Brent Olund Partner, Principal Credos Brent Olund is a Professional Engineer, a Gold Seal Project Manager, and holds an MBA from the Richard Ivey School of Business. Brent’s 28 years in the construction industry to date started with industrial, commercial, and marine construction and included many years of focus on residential concrete high-rises, educational buildings, and mass timber construction. Brent is a nationally recognized expert and thought leader in the field of planning and control of mass timber structures, has worked with design teams through validation of several upcoming mass timber building assembly systems, and has designed and patented a new lateral structural system for use in these buildings. Brent believes that the highest purpose of his efforts is helping solve the housing crisis by implementing building systems toward improved productivity of construction. Andrew Blackie Structural Designer ASPECT Structural Engineers Andrew enjoys a diverse engineering background, ranging from adaptive reuse of heritage buildings through to the development of modular construction systems. As a common thread across his body of work, he brings expertise in digital workflows and parametric design to deliver an efficient, modern form of building design. Andrew graduated with a Master’s in Structural & Architectural Engineering from the University of Strathclyde in 2016 and has since gained almost a decade of experience between the UK and Canada. He joined ASPECT in 2025, where he has been developing strategies to deploy mass timber at scale and at pace. Andrew’s focus is bridging the gap between conventional and off-site construction, easing the transition away from carbon-intensive materials through a kit-of-parts approach to building structures. Halil Erhan Professor of Interactive Systems and Design Director of Computational Design Lab SFU School of Interactive Arts and Technology Dr. Halil Erhan completed his undergraduate studies at Middle East Technical University (METU) before earning a master’s degree at Clemson University, where he specialized in integrating 3D models into building design. He received his Ph.D. in Design Computation from Carnegie Mellon University, with a focus on generating design requirements. Currently, Dr. Erhan serves as a professor at Simon Fraser University and leads the Computational Design Laboratory. His interdisciplinary research approaches design as a cognitive and collaborative problem-solving process, aiming to develop effective tools that enhance the capacities of creative practitioners. He and his team create and test innovative, human-centered computational design tools. Dr. Erhan founded a research initiative called “Design Analytics,” which uses data from Performance Predictions to facilitate design space exploration through interactive visualizations. He collaborates with industry partners to encourage the adoption of new tools in the AEC sector.
Challenging Convention With Innovative Timber Applications
Course Overview This dynamic session explores cutting-edge applications of mass timber in Canadian construction through three compelling case studies that showcase how timber is revolutionizing the building industry. Attendees will discover Spearhead’s visionary approach to next-generation manufacturing through their innovative glulam facility in British Columbia. This groundbreaking project challenges conventional thinking and reimagines timber production processes, setting new standards for what’s possible in wood manufacturing. The session will also feature Intelligent City’s remarkable achievement—Canada’s first tall timber Passive House facade. This case study reveals how mass timber building envelopes can deliver exceptional environmental performance while meeting the most demanding energy efficiency standards, creating sustainable structures that perform as beautifully as they look. Finally, the session will present ETRO’s 837 Beatty project, where heritage preservation meets modern timber innovation. This thoughtful integration creates a harmonious dialogue between historical architecture and forward-thinking construction methodologies, demonstrating timber’s versatility across different building contexts. Learning Objectives Describe innovative timber applications across three case studies, including prefabricated mass timber envelope systems on tall wood buildings, next-generation glulam manufacturing, and heritage adaptive reuse with new timber additions. Identify key technical considerations for prefabricated timber building envelopes—panel sizing, air/water tightness strategies, moisture risk reduction through rapid enclosure, and crane sequencing/logistics constraints. Recognize construction and detailing approaches highlighted in the case studies, including NLT and glulam integration, concealed connection strategies (e.g., glued-in rod concepts as discussed), and coordination methods that support efficient, low-carbon timber delivery. Course Video Speakers Bio Shaun St-Amour Retrofit (Revive) Manager ETRO Construction Shaun brings a unique combination of expertise, leadership, and passion for high-performance buildings. With extensive knowledge of high-performance building standards and hands-on experience with sustainable materials and methods, he bridges the gap between design intent and construction execution. Beyond ETRO, Shaun contributes to the Passive House Accelerator, organizes Zero Carbon Building Tours with ZEBx, and hosts building science meet-ups. His expertise plays a key role in driving decarbonization, resiliency, and efficiency in both new and existing buildings. Josh Hall Partner, Director of Business Development Spearhead Josh is a Partner and Director of Business Development at Spearhead, where he helps shape the company’s vision and strategic direction. With over fifteen years of experience spanning architecture, digital fabrication, and commercial construction, his knowledge of design, process, and project delivery plays a key role in guiding Spearhead’s continued growth and evolution. Josh holds a Master of Architecture from the University of British Columbia and a Bachelor of Architectural Science from the British Columbia Institute of Technology. Shawn Keyes VP, Strategic Growth & Business Development Intelligent City Shawn is a structural engineer and commercial executive with more than a decade of experience leading innovation in mass timber and industrialized construction. As Vice President of Strategic Growth at Intelligent City, he leads commercialization, market strategy, and partnerships to scale the company’s prefabricated housing systems. Previously, Shawn served as Executive Director of WoodWorks BC, where he led a strategic transformation that strengthened partnerships, technical leadership, and influence across the development, AEC, and policy sectors. Before that, he spent over six years at Fast + Epp, developing deep expertise in mass timber and hybrid structural systems. Shawn’s teams have supported more than 150 mass timber projects across Canada, and he has served on advisory councils for BC Housing, BCIT, and the BC Office of Mass Timber Implementation. He holds an MBA from UBC Sauder, a Master of Engineering from Carleton University, and is a licensed Professional Engineer in BC and Ontario.
From Vision to Reality: Solutions for Beautiful, Sustainable, Attainable Housing
Course Overview As the push for sustainable residential development intensifies, mass timber is increasingly taking a central role in how we reshape city building approaches. This session will delve into why we are pursuing a national residential portfolio based on mass timber, addressing the material’s impact in reducing carbon footprints, its status as a renewable resource, and the challenges surrounding its implementation for a large-scale residential portfolio. We will explore how transparency in supply chains and construction methods can unlock better outcomes for the built environment. The discussion will also address key challenges in delivering mass timber projects at this scale, from procurement complexities to cost-effective strategies. Lastly, we will chart the way forward by examining how prefabrication, structural systems, and repeatable typologies can advance the competitiveness and feasibility of mass timber, positioning it as a cornerstone of attainable housing and a sustainable construction future. Learning Objectives Understand the strategic importance of mass timber in city building and how it supports long-term sustainability goals, housing affordability, and market transformation. Analyze key challenges in the building with mass timber in a portfolio context—from supply chain limitations to procurement complexities—and explore innovative strategies for advancing timber design and construction. Explore the role of prefabrication and material properties in delivering cost-effective timber projects and repeatable building typologies. Evaluate carbon reporting and the transparency of value chains in the timber industry, while discussing the potential for timber to drive a sustainable future. Consider the intersection of timber construction with local guidelines and how structural engineering and urban design principles can align with broader industry goals for competitiveness and diversity. Course Video Speakers Bio Nina Boccia Director of Marketing KPMB Nina Boccia is a marketing and communications professional with over a decade of experience creating dynamic and engaging content that connects to vision and values. She previously served as an associate editor at Azure Magazine and managing editor of its sister publication, Designlines, where she interviewed and reported on the best minds in design and architecture. Through her work in arts and culture in Toronto, she has held various leadership positions; creating and overseeing programming, marketing initiatives, and fundraising efforts. She has spearheaded and managed national marketing efforts including branding campaigns, partnerships, and content strategies. Nina is passionate about sharing stories that are purpose-driven, facilitate important conversations, drive investment in community and culture, illustrate the transformative power of design, and champion the people creating meaningful impact. Geoffrey Turnbull Director of Innovation and Sustainability Kindred Works As Director of Innovation and Sustainability at Kindred Works, Geoff Turnbull champions an evidence-based, holistic approach to creating beautiful, sustainable, and high-performing development projects. Geoff came to Kindred Works with a broad background in architecture, business, film, computation, and real estate development, including serving as director of KPMB LAB, the sustainability-focused research group at leading Canadian architecture firm KPMB Architects. A licensed architect (OAA) who holds the LEED AP and CPHD designations, he earned a Bachelor of Commerce degree in finance from Dalhousie University and a Master of Architecture degree from the University of Toronto. Adam Gerber Principal ASPECT Structural Engineers Adam is the CEO and Principal of ASPECT Structural Engineers and a leader in mass timber engineering. His engineering achievements cover a variety of unique and complex structures utilizing different building materials, and he has a breadth of hands-on and technical experience unique in the field. Adam earned his master’s degree in structural and earthquake engineering from the University of British Columbia in 2016, where his research focused on the development of timber-concrete composite technology and vibration performance of floors. Prior to and throughout his degree in civil engineering from the University of British Columbia, Adam gained experience in the design and construction of timber structures as a carpenter, foreman, estimator, and, ultimately, structural engineer. This experience enables him to view projects from the perspective of designers, builders, and project managers, leading the creation of cost-effective, constructible, and efficient solutions. Adam is deeply committed to sustainability and is a certified Passive House Consultant. A respected public speaker, he has shared his insights on mass timber at numerous industry conferences, including BuildEx Vancouver, the World Conference on Timber Engineering, and the International Mass Timber Conference in Portland. Laurence Holland Associate KPMB Laurence has worked on several projects that draw on his expertise in urban design, community consultation, and multi-family residential design, along with his proficiency in communication and policy analysis. In addition to leading the design of several projects within the Kindred Works residential portfolio, he was a key member of the interdisciplinary Downsview Framework Plan team, working on the intersection of resilient landscapes, sustainable mobility systems, and architecture. Working closely with Indigenous design partners and community members, Laurence led the award-winning design of the Resilient Duplex for Fort Severn First Nation. Outside his project responsibilities, Laurence has led the establishment of funding opportunities and education programs for equity-deserving groups as part of KPMB’s commitment to Equity, Diversity, and Inclusion. He is also a sessional lecturer at the Daniels Faculty of Architecture, Landscape & Design at the University of Toronto.
FRAMEWORK for Success: Prefabricated Wood Systems and Design Innovation
Course Overview This presentation explores the transformative impact of prefabricated light wood frame construction systems in multi-residential development, focusing on VanMar’s FRAMEWORK methodology and its application in the new 150 Wissler Road project in Waterloo. FRAMEWORK is a highly efficient, panelized light wood frame system designed for buildings up to six storeys, delivering rapid, sustainable, and cost-effective construction that meets and exceeds energy and greenhouse gas reduction targets. The session will highlight VanMar’s extensive experience in affordable housing, the advantages of offsite prefabrication, and the collaborative process that accelerates project delivery. Learning Objectives Participants will understand the benefits of prefabricated wood frame construction for multi-residential buildings. Participants will understand the FRAMEWORK system’s approach to speed, cost-effectiveness, and sustainability. Participants will be shown how collaborative offsite construction methods accelerated the 150 Wissler Road project. Participants will learn strategies for overcoming design challenges and achieving efficiencies in fire walls, shafts, and acoustics. Course Video Speakers Bio Jordan Zekveld Director of Preconstruction VanMar Constrcutors ON Jordan is a construction and development professional with deep experience in estimating, preconstruction, and cost strategy for multi-unit residential projects. At VanMar Constructors, he helps developers, REITs, and non-profits bring condominium, rental, and affordable housing projects from concept to construction. Drawing on VanMar’s integrated design-build expertise, Jordan leads collaborative preconstruction processes that align design intent, feasibility, and cost efficiency. His experience spans concrete high-rise and innovative mid-rise wood-frame developments, including the Framework system — VanMar’s sustainable, fast, and cost-effective building solution. With a focus on clarity, constructability, and long-term value, Jordan works at the intersection of planning, design, and execution to help deliver housing that’s efficient, affordable, and built to last. Mike Philips Executive Director Ontario Structural Wood Association (OSWA) Mike Phillips has served as Executive Director of OSWA since 2008. Under his leadership, the association has evolved from a truss-fabricator-focused group into Ontario’s leading voice for structural wood component manufacturing. Today, the province is home to 70 certified truss plants and 40 wood-panel manufacturers, with engineered wood products now the preferred choice for floor systems. At the same time, Ontario’s building code has never been more prepared to accommodate advanced wood-construction methods. Mike is a strong advocate for the industrialization of construction and the expanding role of off-site building systems—critical drivers of wood construction’s future growth. Paul Marchesani Operations Manager Panelized Building Solutions Inc. Paul Marchesani is the Vice President of Panelized Building Solutions Inc., a family run business where he plays a key leadership role in driving operational excellence, strategic growth, and project execution across the company. Known for his strong work ethic, hands-on approach, and deep industry knowledge, Paul oversees day-to-day operations while supporting long-term planning that aligns with the company’s vision. Before joining Panelized Building Solutions, Paul held key roles in project management and operations within manufacturing and construction environments, where he oversaw production teams, implemented process improvements, and helped streamline workflow efficiencies. His ability to manage both people and complex technical projects made him a natural fit for leadership. Respected by colleagues, clients, and trade partners alike, Paul combines technical expertise with strong leadership, making him an essential pillar of the company’s continued success.
International Perspectives on Sustainable Housing Development
Course Overview Around the world there is a significant and growing housing shortage that is exacerbated by rapid urbanization and population growth. This challenge demands innovative solutions that prioritize sustainability, occupant comfort, and efficient land use. This panel discussion brings together three internationally renowned architects: Francine Houben (Mecanoo, the Netherlands), Christophe Ouhayoun (KOZ Architects, France), and Geoff Denton (White Arkitekter, Sweden) to explore their approaches to sustainable housing. Each panelist will share their unique perspective on how to address housing shortages and sustainable densification, offering insights into the latest design strategies, materials, and technologies that can contribute to more resilient and equitable urban environments. Join us for a dynamic conversation that will delve into the future of housing and the role of architecture in creating livable, sustainable cities. Learning Objectives Understand how international architects approach sustainable housing development, including wood‑based construction, urban densification, and low‑carbon strategies. Compare differing regulatory, cultural, and construction‑industry conditions that influence mass timber, modularity, prefabrication, and approval processes in Sweden, France, and Canada. Identify urban‑design principles used to create healthy, community‑oriented neighborhoods. Course Video Speakers Bio Francine Houben Founding Partner, Creative Director Mecanoo, the Netherlands Francine Houben is founding partner of Mecanoo (1984) and has led the firm to success in The Netherlands and abroad, amassing a portfolio of work that is wide-ranging, inspired by global challenges and with a sustainable view on society. Mecanoo combines the disciplines of architecture, urban planning, landscape architecture and interior design to produce unorthodox design solutions born from a strong sensitivity to context and a highly interdisciplinary design process. Each of her projects illustrates the four fundamental elements of her architectural vision: People, Place, Purpose, Poetry. Francine Houben was professor of mobility aesthetics at Delft University of Technology and taught at the universities of Harvard, Yale and Mendrisio. As curator of the First International Architecture Biennale Rotterdam (2003), she brought the theme of the aesthetics of mobility to the forefront of international design consciousness. Francine holds Honorary Fellowships of the Royal Institute of British Architects (RIBA), the American Institute of Architects (AIA), the Royal Architectural Institute of Canada (RAIC) and was granted lifelong membership to the Akademie der Künste in Berlin as well as receiving the International Honorary Fellow Award by the Architecture Institute of Taiwan. In 2014 Francine was named Woman Architect of the Year by the Architects’ Journal and in November 2015 Queen Máxima of The Netherlands presented her with the Prins Bernhard Cultuurfonds Prize for her wide-ranging career. Francine was awarded Honorary Doctorates from the Université de Mons, Belgium (2017) and the Utrecht University (2016). In 2018 she received the BNA Kubus Award for her oeuvre; the International Prize, Prix des Femmes Architectes (2019) and distinguished with the TU Delft Alumnus of the Year (2020). In 2024, King Willem-Alexander appointed Francine Houben as a Knight in the Order of the Netherlands Lion. Christophe Ouhayoun Founding Partner Architect KOZ Architects, France Christophe Ouhayoun is a graduate of the École Nationale Supérieure d’Architecture de Paris-Belleville. He currently serves as a State Architect Advisor in the Aveyron department. In 1999, he co-founded KOZ Architectes with Nicolas Ziesel. A pioneer in wood architecture since 2001, he recently delivered Lot E of the Paris 2024 Athletes’ Village as co-coordinator within the Nexity-Eiffage team. In addition to his architectural work, he co-founded: KOZTO, a workshop dedicated to the creation of up-cycled furniture. PLAN01, a collaborative “”second office”” active from 2003 to 2014, in partnership with Atelier du Pont, BP Architectures, and Philéas. PLAN02, an integrated environmental consulting firm. Alongside his private practice, Christophe Ouhayoun works as a visiting professor at the École Nationale Supérieure d’Arts et Métiers and at the École spéciale d’architecture de Paris. Geoff Denton Partner Architect White Arkitekter, Sweden Geoff Denton is an architect and urban designer who has led residential, educational and mixed-use urban design and architectural projects across the UK, Europe and North America. Educated at Sheffield University in the UK, his career in Sweden notably led him to the role of lead architect for the implementation of Greenwich Millennium Village for Ralph Erskine Architect. This project marked the beginning of his focus on socially and environmentally sustainable urban development and regeneration. He joined White Arkitekter in 2011 and is now a partner and member of the board of directors. During his time at White he has led award winning urban design projects and was responsible for starting White Arkitekter’s London Studio. The studio has been built on the goal to share knowledge and experience of sustainable development and offsite fabrication methods used throughout the Nordics. Key projects developed during the first years of the London studio include the Climate Innovation District in Leeds and the Gascoigne estate regeneration in London. Geoff is now based in Stockholm where he works with diverse complex international projects. His approach to architecture is collaborative and he strongly believes that good design solutions are very much about creating places where people feel secure and invigorated.
Offsite Construction Handbook
Course Overview Offsite construction is transforming the building industry by shifting key processes from traditional sites to controlled factory environments. This approach enhances productivity, quality, and sustainability, addressing challenges like labor shortages and environmental impact. The delivery process emphasizes early collaboration, integrated design, and robust project management to optimize efficiency and risk management. Durability and energy efficiency are achieved through advanced material selection, moisture management, and airtight, highly insulated assemblies. Construction logistics, quality control, and commissioning are tailored for offsite methods, ensuring rapid, reliable project delivery. Life cycle analysis shows offsite construction can reduce embodied carbon and waste, supporting climate goals. Canada’s evolving policies and market trends position offsite construction as a key solution for affordable, sustainable housing. Learning Objectives Understand how offsite construction improves the durability, moisture control, and energy performance of wood building systems. Identify the structural and sustainability benefits of early design integration in offsite wood construction projects. Evaluate the role of life-cycle analysis and embodied carbon in positioning offsite wood construction as a solution for sustainable and affordable housing in Canada. Course Video Speakers Bio Dorian Tung Manager, Technology Assessment FPInnovations Dorian Tung is currently the Manager of Technology Assessment at FPInnovations. Prior to this, he worked as a structural consultant in Canada and the US. As a manager, he has been working with scientists on projects related to structure, seismic, durability, energy, fire, acoustic, and vibration. With the evolving ecosystem, Dorian is active in many working groups to facilitate discussions, remove duplicates, accelerate processes, with the goal to maximize impacts for the forest industry NOW using research data. He is also the editor of the Offsite Wood Construction Handbook published by FPInnovations. Helen Goodland Principal. Head of Research and Innovation SCIUS Advisory Helen Goodland is an architect registered in the UK and has an MBA from the University of BC. Helen is firmly committed to achieving truly sustainable buildings within the next decade. She is also passionate about advancing leadership opportunities for women in construction technology. To this end, she participates on numerous boards and committees. Currently she serves on the Board of Directors of Building Transformations (formerly CanBIM), the BC Digital Advisory Council, the BCIT Mass Timber Education Advisory Board and the University of Victoria’s Green Civil Engineering Advisory Council. She is also past chair of the UN Sustainable Buildings Initiative’s Materials Technical Committee. Adam Robertson Co-founder and Principal Sustainatree Adam completed his Bachelor of Applied Science in Civil Engineering at the University of Toronto and also holds a Master of Applied Science degree from the Department of Wood Science at the University of British Columbia. He is the past Chair of the CSA Subcommittee on Permanent Wood Foundations and acted as a primary author and editor during the update and revisions to the Canadian Wood Council’s Permanent Wood Foundations publication. He is the co-founder and principal of Sustainatree Consulting, a small firm specializing in sustainability and engineering design of wood building systems. Prior to opening his own practice, Adam was previously employed by the Canadian Wood Council and has also worked as a consulting structural engineer and within the building development and construction management fields.
Offsite Construction in Ontario: A Practical and Diligent Path Forward
Course Overview From the housing supply deficit to affordability issues and labour challenges, several conditions have been supporting a renewed interest for innovation in construction practices. Offsite construction is often identified as a promising approach to improve the way we build. This session explores the current market characteristics which are conducive to offsite practices, including the consistent shift towards multifamily construction in Ontario. It also identifies the numerous potential benefits of shifting the construction process from site to factory. The speakers will discuss underlying assumptions and conditions and questions such as: Are the promised benefits tangible and quantifiable? Do savings actually reach a project’s bottom line? Do all of the benefits apply to specific applications? Learning Objectives Identify market, labour, and housing conditions in Ontario that are driving interest in offsite and wood-based construction systems. Evaluate the practical benefits and limitations of offsite construction using mass timber and panelized wood systems. Assess when offsite construction provides measurable value at the project level, including cost, schedule, quality, and risk considerations. Course Video Speakers Bio Mike Schmidt President Auto Construct Incorporated A Tool & Die Maker with a Masters’ Degree in Business Administration, Mike understands manufacturing from the ground up. He spent his formative years as an executive in the automotive industry; working for world-class, multinational corporations such as Magna International and ArcelorMittal. In 2017, Mike established Auto Construct Incorporated (ACI), a management consulting firm, to accelerate the industrialization of residential construction. Specializing in the conversion from stick-built to offsite construction, Mike has led and facilitated the growth of several companies to become dominant players in their respective fields. ACI provides education, guidance, and implementation support in the areas of business development, manufacturing systems, technology selection, and factory start-ups. ACI serves a broad range of land developers, construction firms, homebuilders, and manufacturing companies throughout Canada and the United States.
Halsa 230 Royal York: Ontario’s Tallest Mass Timber Residential Building
Course Overview Halsa 230 Royal York is setting new standards as Toronto’s pioneering 9-storey prefabricated mass timber rental building, demonstrating the viability of carbon-neutral communities within Toronto’s Right of Way zoning. Through a case study of the building, this session will present the advantages of integrated design and prefabricated mass timber building systems components. Learning Objectives Explain the integrated design and prefabrication strategies used in mass timber residential construction: Learners will be able to describe how collaborative design, advanced manufacturing, and prefabricated building systems contribute to project efficiency, quality, and scalability. Analyze the technical features and performance benefits of mass timber floor cassettes and curtain wall systems: Learners will understand the structural, acoustic, fire resistance, and thermal properties of the building’s mass timber components, and how these features address common challenges in high-rise construction. Evaluate the sustainability, regulatory, and operational considerations in developing carbon-neutral mass timber buildings: Learners will assess how material sourcing, certification, lifecycle carbon analysis, and code compliance shape the viability and impact of mass timber projects in urban environments. Course Video Speakers Bio Oliver Lang Co-Founder, Chief Product Officer, Intelligent City Co-Founder, Principal, LWPAC Oliver Lang is a German-Canadian architect and urban entrepreneur with 25+ years of experience and a recognized leader in design innovation and integration of complex urban projects, mixed-use housing, advanced prefabrication, and green building strategies. He is a graduate of Columbia University’s Graduate School of Architecture Planning and Preservation, with a Master of Science in Advanced Architectural Design, and he holds a professional degree (Diplom-Ingenieur Architektur) from the University of Technology Berlin with two-year studies at the ETSA Barcelona UPC. Prior to founding LWPAC in 1998, Oliver researched and practiced in digitally assisted design and fabrication with Smith-Miller & Hawkinson in New York, while teaching digital design at Princeton University, Columbia University, and University of Pennsylvania. He subsequently has taught advanced design and digital technology at SCI_ARC, the Berlage Institute, TU Berlin, UTF Santa Maria, and University of British Columbia (UBC). Shawn Keyes VP – Strategic Growth and Business Development Intelligent City Shawn is a structural engineer and commercial executive with more than a decade of experience leading innovation in mass timber and industrialized construction. As Vice President of Strategic Growth at Intelligent City, he leads commercialization, market strategy, and partnerships to scale the company’s prefabricated housing systems. Previously, Shawn served as Executive Director of WoodWorks BC, where he led a strategic transformation that strengthened partnerships, technical leadership, and influence across the development, AEC, and policy sectors. Before that, he spent over six years at Fast + Epp as a Senior Structural Engineer, developing deep technical expertise. Over his career, Shawn has supported more than 150 mass timber and hybrid projects across Canada, and has served on advisory councils for BC Housing, BCIT, the BC Office of Mass Timber Implementation, Forestry Innovation Investment, and Natural Resources Canada. He holds an MBA from UBC Sauder, a Master of Engineering from Carleton University, and is a licensed Professional Engineer in BC and Ontario.
Design Best Practices for Mid-Rise Light Wood Frame Structures
Course Overview Light wood frame (LWF) construction is an accessible, cost-effective, low-carbon solution for mid-rise multi-family buildings. This session will clarify fundamental differences in approach between traditional low-rise LWF construction and modern mid-rise construction methods. LWF is an attractive option for mid-rise development and participants will gain practical insights into design efficiencies, from meeting seismic demands and other key structural considerations to how engineered wood products and specialty hardware can be used to optimize design. The session will also explore prefabrication strategies, highlighting the challenges and opportunities offsite construction presents for streamlined, higher-quality construction. Whether attendees are new to mid-rise wood design or looking to optimize their next project, this session will share valuable information they can apply to their next mid-rise building. Learning Objectives Distinguish key differences between traditional low-rise and modern mid-rise light wood frame construction, including changes in design loads, seismic requirements, and code updates. Apply practical design strategies to optimize mid-rise wood structures—such as efficient stacked framing, engineered wood products, specialty hardware, and solutions for wood shrinkage and differential movement. Evaluate prefabrication and offsite construction methods for mid-rise projects, identifying both challenges and opportunities to improve construction quality, speed, and coordination. Course Video Speakers Bio Sean Henry Director – Mid-Rise, Principal Tacoma Engineers Sean is the Director of Mid-Rise and a Principal at Tacoma Engineers, bringing 20 years of structural engineering experience to the role. Since joining the firm in 2005, Sean has led the design of a wide range of building types, with a particular focus on mid-rise developments including multi-family, seniors and affordable housing projects. He is especially recognized for his expertise in light wood frame construction with multiple projects designed and built since the adoption of 6 storey wood framed buildings in Ontario. He also has extensive experience with cold-formed steel, structural steel, reinforced concrete, precast, and concrete block building systems. Sean focuses on delivering practical, efficient structural solutions that support design intent while meeting the demands of constructability and cost-effectiveness.
From Trees to Keys: Scaling Industrialized Wood Construction
Course Overview This session brings together a panel of experts to discuss lessons learned and visions for wood-based manufactured housing solutions. The panel will address key challenges in scaling modular and panelized wood construction, including design for manufacture and assembly, systems integration, workforce transformation, and product standardization. Innovators throughout the supply chain will explore requirements for bringing scalable mass timber housing into the mainstream, from procurement to policy and from urban infill to supply chain readiness. The discussion will focus on how factory-built housing and wood innovation can contribute to addressing Canada’s housing crisis. Learning Objectives Assess practical lessons learned from implementing modular, panelized, and mass-timber housing projects, including challenges related to design coordination, manufacturing constraints, and on-site assembly. Explain how integrated approaches across structure, envelope, and mechanical systems enable scalable, high-performance wood-based housing solutions, drawing on examples from factory-built and turnkey delivery models. Evaluate the roles of standardization, procurement models, workforce capabilities, and policy alignment in advancing wood-based manufactured housing as a viable response to Canada’s housing crisis. Course Video Speakers Bio Hailey Quiquero Technical Manager WoodWorks Ontario Hailey is a structural engineer and has focused her career specializing in sustainable architecture and the advancement of timber building systems. Hailey spent several years of her career in research on the behaviour and fire safety of mass timber, as a structural designer with Entuitive in Toronto, and working to develop affordable housing products built of high-performance timber panels, contributing to the successful completion of several turnkey housing projects with Assembly Corp. (previously R-Hauz). In her current role as a Technical Manager for the Canadian Wood Council’s WoodWorks program, Hailey works with the team to aid project teams with technical support and to bring resources and education to industry stakeholders, advocating for the successful implementation of a beautiful and sustainable building material in our built environment. Ben Chicoine President Fab Structures Ben Chicoine is an accomplished entrepreneur with over 20 years of hands-on experience in the construction industry. As the co-founder of Fab Structures, he has built a multi-million dollar company specializing in mass timber and panelized construction, with energy efficiency at its core. Certified in Passive House design, Ben now consults on high-performance building strategies, championing innovative solutions that push the boundaries of sustainable construction in Canada. Kyle Power Director of Construction Assembly Corp. Kyle is Director of Construction at Assembly. He brings 15+ years of end-to-end construction management experience with Canada’s largest general contractor. Kyle held key leadership roles in the delivery of several high-profile projects in the GTA, including commercial high rise, complex retail renovations, and high rise residential. He is responsible for successful project construction delivery from the pre-construction planning stages to close-out. Kyle successfully executes the construction of Assembly’s unique end-to-end housing product and the delivery strategy underpinning its mission of creating faster, more sustainable housing. Cara Sloat Mechanical Principal Hammerschlag and Joffe Inc. Cara Sloat brings over 20 years of increasingly complex experience in high-performance mechanical design and energy efficiency expertise to Hammerschlag and Joffe. She has worked extensively with decarbonizing building portfolios, including for Fortune 50 companies, and has worked in high-performance mechanical system design, with a career focus on energy efficiency, energy exchange, and indoor environmental quality. In our current housing crisis, she is also passionate about finding better mechanical solutions for the Canadian housing market. She delivers projects at every scale, and believes every building deserves a quality and well thought out mechanical system. She has LEED certified over half a million square feet of new construction real estate projects, and provided energy audits for over 5 million square feet of commercial properties, identifying millions in potential energy savings.
