The Applied Research Consortium (ARC) is rooted in the idea that collaboration across academia and industry will accelerate progress in our fields. ARC brings together an interdisciplinary group of built environment firms with faculty experts and graduate student researchers at the University of Washington’s College of Built Environments (CBE) to address the most vexing challenges that firms face today. The next generation of practitioners and scholars apply their creativity and knowledge of the latest scholarship and practices, accelerating progress and preparing for future work at the leading edge of our fields.
Through the ARC initiative, built environment firms with a presence in the Seattle area partner with College of Built Environments graduate students and faculty for research that is targeted at the specific needs of the firms. Firms work with faculty to shape research priorities for the consortium based on their needs and the latest research in our fields. ARC then matches graduate student fellows with firms for multi-quarter applied research projects that directly relate to the firms’ current work. Faculty mentors and supervisors at firms work with the fellows, contributing to their academic and professional development in the program and ensuring that the projects fit with longer term research goals.
The unique set of fields under the College of Built Environments umbrella—architecture, construction management, landscape architecture, real estate, and urban design and planning—allows ARC projects to leverage creative, interdisciplinary approaches to the most vexing problems that firms–and the disciplines themselves–face today.
ARC builds on CBE’s prioritization of equity and diversity, thus ensuring that the next generation of built environments practitioners and scholars bring the broadest possible range of perspectives and experiences to their work.
Michael K. Lindell has conducted research on emergency preparedness and response for a wide range of natural and technological hazards over the past 40 years. He has conducted research or provided technical services to 40 different organizations in the public and private sectors. He has provided technical assistance on radiological emergency preparedness for the International Atomic Energy Agency, the US Nuclear Regulatory Commission, the Department of Energy, and nuclear utilities and also worked on hazardous materials emergency preparedness with State Emergency Response Commissions, Local Emergency Planning Committees, and chemical companies. He has served eight times as a consultant to National Research Council committees examining environmental hazards, and has been a member of three National Research Council committees—Disasters Research in Social Sciences, Assessing Vulnerabilities Related to the Nation’s Chemical Infrastructure, and Inherently Safer Chemical Processes: The Use of Methyl Isocyanate (MIC) at Bayer CropScience. In addition, he has reviewed research proposals for 20 different foreign, federal, and state agencies as well as performed manuscript reviews for over 75 different journals in the social and environmental sciences and engineering. He has written extensively on emergency management and is the author of 80 technical reports, 125 journal articles and book chapters, and nine books.
As principal and founder of KRIEGH ARCHITECTURE STUDIOS | Design + Research, Julie Kriegh brings her clients’ project goals to fruition while adhering to the values of sustainability, high-performance construction principles, exceptional craft and attention to detail. These principles apply to custom single-family, multi-family, and residential community developments, as well as religious, medical, educational, and municipal facilities. She offers collaborative, team-oriented architectural services that result in custom designs that are aligned with her clients’ project needs. As a passive house designer, Julie uses state of the art energy modeling software to design and consult on net-positive energy buildings.
Dr. Kriegh is currently working on several research initiatives at the University of Washington, Seattle. Collaborating with a team of university researchers and industry partners on sustainability issues, Dr. Kriegh is leading research on building and occupant performance using wireless sensing devices and tailored feedback on energy use in residential settings. As a Research Scientist, she belongs to a consortium between UW, UA, Microsoft and Google researching the future of sustainable Data Centers. In addition, Dr. Kriegh worked with the UW Carbon Leadership Forum investigating materials for the Carbon Storing Data Center of the future to advance Microsoft’s goal to be carbon neutral by 2030 and carbon negative by 2050.
Julie received a PhD from the University of Washington in 2018, where her research focused on high-performance buildings, building user behavior and environmental psychology.
Teresa Moroseos is a Post-Doctoral Scholar at the Integrated Design Lab (IDL) in the University of Washington’s College of Built Environments. In this role, she provides daylighting and energy performance analysis for projects throughout the United States. She collaborates with design teams to find solutions that respond to the environment and maintain design intent, determines appropriate metrics of evaluation, and performs daylight and energy simulations. Teresa also conducts research related to building performance.
Teresa has a background in engineering, architecture, and academics, and enjoys combining the computational aspect of daylight and energy analysis with the qualitative aspect of design in her work. Prior to working at the IDL, she worked as a designer at a Seattle architecture office, where she worked on civic buildings from schematic design to construction administration. Teresa has also taught undergraduate students at the University of Washington in topics of climate analysis, energy principals for buildings, passive solar design, and daylight simulations.
The Urban Form Lab (UFL) research aims to affect policy and to support approaches to the design and planning of more livable environments. The UFL specializes in geospatial analyses of the built environment using multiple micro-scale data in Geographic Information Systems (GIS). Current research includes the development of novel GIS routines for performing spatial inventories and analyses of the built environment, and of spatially explicit sampling techniques. Projects address such topics as land monitoring, neighborhood and street design, active transportation, non-motorized transportation safety, physical activity, and access to food environments.
Research at the UFL has been supported by the U.S. and Washington State Departments of Transportation, the Centers for Disease Control and Prevention, the Robert Wood Johnson Foundation, the National Institutes of Health, and local agencies.
The Urban Form Lab is directed by Anne Vernez Moudon, Dr es Sc, a leading researcher and educator in quantifying the properties of the built environment as related to health and transportation behaviors. Philip M. Hurvitz, PhD, a veteran of geographic information science and data processing, leads data management and GIS work.
Urban Commons Lab in the College of Built Environments at the University of Washington focuses on research and public service that contribute to civic engagement and democratization of contemporary city-making. The Lab approaches Urban Commons as a spatial and social practice that embodies sharing, reciprocity, inclusion, civic engagement, and collective actions. Through research, and community design projects as well as events and publications, it seeks to engage the public and the scholarly/professional community in advancing the understanding and making of urban commons.
Locally, the Lab’s primary focus has been on working with immigrant communities in King County. Specifically, the projects have engaged underserved communities including Seattle’s Chinatown-International District in collaboration with community organizations with support from Seattle’s Department of Neighborhoods and other funding sources. Through research and teaching collaboration, the Urban Commons Lab is also part of a network of community design scholars and practitioners in the Pacific Rim.
Urban Commons Lab has led and participated in projects funded by the Seattle Department of Neighborhoods, National Endowment for the Arts, Landscape Architecture Foundation, Worldwide Universities Network, Andrew W. Mellon Foundation, the UW Office of Global Affairs, and other organizations.
SHARE Lab (Safety and Health Advancement through Research and Education Laboratory) embarks on innovative research that promotes the wellbeing of the construction taskforce and/or reduces occupational injuries and illnesses for the construction industry.
The lab is housed in the Department of Construction Management at the University of Washington and is a part of the Pacific Northwest Center for Construction Research and Education (PNCCRE). The mission of the lab is to promote construction safety and health through evidenced-based innovative research, education, and practices. In particular, the SHARE lab is specialized in creating new knowledge, learning resources, and practical solutions using technology interventions such as wearable sensors, visualization, serious gaming and tablet computers.
Projects completed at the lab include: sensor based physiological status monitoring on construction workers, video gaming development for the training and education of construction safety, information communication technology for field safety inspection, machine-learning based solutions for retrieving and classifying safety resources, and Total Worker Health.
SHARE Lab’s work is supported by domestic stakeholders as well as national institutions and global corporations.
The Northwest Center’s mission is to enhance the livability of communities in the Pacific Northwest through applied research and outreach in the areas of land use planning, policy, and design; healthy communities; food security; and public participation and democracy.
The Center is a research and policy center focused on issues of environmental and economic sustainability, quality of life, and responsible governance using Washington as a model. Recognizing that the term “livability” has many different definitions and interpretations, the Center’s programs are focused on how the fields of urban planning and design, landscape architecture, and architecture work within this broader context to address livability factors.
The Center operates from the belief that the university should, in cooperation with state agencies, local governments, and community leaders, seek to improve existing social and environmental conditions through research and innovative policy development. It advocates development strategies that focus on smart and efficient land use, strong communities, high-wage, low waste jobs and economic development and public participation and accountability in government.
The Integrated Design Lab (IDL) is operated by the Department of Architecture in the College of Built Environments at the University of Washington. IDL’s mission is to discover solutions that overcome the most difficult building performance barriers, and to meet the building industry’s goals of moving towards radically higher performing buildings and healthy urban environments. The IDL advances their mission through interconnected research, technical assistance, and professional educational and tour programs.
The Integrated Design Lab carries out research to advance knowledge and policies that support the healthiest and highest performing buildings and cities. It measures and analyzes modeled and actual building performance data so as to influence the building industry’s understanding of how to radically improve the design and operation performance of buildings. The performance research includes energy efficiency, daylighting, electric lighting, occupant energy use behavior, human health and productivity in buildings, and advanced building management systems.
The Integrated Design Lab connects its discoveries and the transformative knowledge of others to the building industry and public through education. These offerings include classes, workshops, focus-group meetings, leadership forums, and exhibits of breakthrough technologies intended to transform the market for the highest performing buildings by reaching out and educating current and future leaders on meeting 21st century building performance challenges with the knowledge and policies that favor renewable and regenerative buildings, neighborhoods and cities.
The IDL is a self-sustaining organization that includes interdisciplinary faculty, staff, students, professional collaborators, and partner organizations.
The Institute for Hazards Mitigation Planning and Research is an interdisciplinary academic institute housed in the College of Built Environments. The Institute is dedicated to exploring ways to enhance Community Resilience, through integration of hazards mitigation principles across all aspects of community development. Its mission is to build a resource center that will enhance risk reduction and resilience activities through research and analysis of hazards, policies related to mitigation, and outreach to the community.
The Institute for Hazards Mitigation Planning and Research is dedicated to integrating hazards mitigation principles into a wide range of crisis, disaster, and risk management opportunities. The Institute provides expertise in disaster preparedness, response, and recovery with a special emphasis on mitigation and planning in the promotion of community sustainability. It is interdisciplinary in focus and structure, and the capabilities of the Institute are enhanced by its close relationship with other academic and research organizations. This incorporates collaboration with several other disciplines within the University of Washington.
The Institute’s faculty and researchers are involved in numerous innovative and path-breaking research initiatives with the ultimate goal of enhancing community capacity to anticipate, respond to, cope with, and recover from natural and man-made hazard events.