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Chris Meek

Christopher Meek is Professor of Architecture at the University of Washington and Director of the Center for Integrated Design at the University’s College of Built Environments. Professor Meek’s areas of research include building energy performance for new construction and retrofits, daylighting, visual comfort, electric lighting, and climate responsive design. His work bridges practice, research, and education with collaboration between practitioners, faculty, and students. Under his leadership, the Center advances its mission through interconnected research, technical assistance, and educational programs that create impact in three primary areas: (1) influential new construction and renovation projects that achieve exceptional energy performance targets and serve as a model for future buildings; (2) the development and advancement of tools, methods, and technologies to accelerate energy efficient buildings through peer-reviewed publications and competitive grant awards, and; (3) the delivery of educational programs and experiences that form the next generation of leaders in the building industry.

Over the past decade, Professor Meek has consulted on over 20 million square feet of commercial and institutional buildings including working, learning, and healing environments including the net-zero energy Bullitt Center in Seattle. His research has been funded by the Northwest Energy Efficiency Alliance, the National Science Foundation, the US Department of Energy, the Illuminating Engineering Society, the Bullitt Foundation, and the American Institute of Architects. Professor Meek teaches graduate and undergraduate level courses on building design and technology at the UW Department of Architecture.

Professor Meek is co-author of Daylighting Design in the Pacific Northwest and Daylighting and Integrated Lighting Design.  He was elevated to Fellowship in the American Institute of Architects in 2020.

Mehlika Inanici

Mehlika Inanici, Ph.D. is a Professor and the former director of the Design technology track of the Master of Science in Architecture program at the University of Washington, Department of Architecture.

The focus of her research is computational lighting design and analysis. The underlying presumption in her research and teaching is that analytical approaches employed throughout the design processes help architects envision the performance of their designs, accelerate and improve design decisions, and reduce the uncertainty of the outcome. A large body of her research centers on developing and utilizing computer-based (day)lighting analysis techniques and metrics that can facilitate occupant comfort, satisfaction, health, and productivity improvements, in conjunction with significant energy savings.

Inanici has authored or co-authored highly influential papers on the use of high dynamic range (HDR) photography to measure and evaluate existing environments and to conduct psychophysical studies on visual comfort and preference. Her work on lighting measurements with HDR photography was selected as one of the “25 classic papers” in the 50-year history of the Journal of Lighting Research and Technology (2018) among the 2048 papers published between 1969 to 2018. Some of her papers are on the most cited list in Leukos (the journal of Illuminating Engineering Society) and Lighting Research and Technology.

She developed Lark Multispectral Lighting tool in collaboration with ZGF Architects LLC. Lark is an open-source software to simulate the non-visual effects of light that entrains the human circadian system. She also co-developed hdrscope in collaboration with Viswanathan Kumaragurubaran.
Her research has been funded by the US Department of Energy, the Pacific Northwest National Laboratory, the University of Washington Royalty Research Fund, UW Built Environments Innovations Collaborative Grant, and the Nuckolls Funding for Lighting Education.

Prof. Inanici’s teaching focuses on graduate-level courses on building performance simulation (Arch 524 Design Technology V, Arch 582 Computational Lighting Research, and 598 Performance-Driven Design) and research methodologies. She supervises students from the Master of Architecture, Master of Science in Architecture, and the Ph.D. program in Built Environments.

Inanici has received her Ph.D. degree from the University of Michigan. She has Master of Science degrees both in Architecture (University of Michigan) and Building Science (METU), and a Bachelor of Architecture degree (METU). Previously, she worked at the Lawrence Berkeley National Laboratory in Berkeley California. Dr. Inanici is a member of the Illuminating Engineering Society, the International Commission on Illumination, and the International Building Performance Simulation Association.

Heather Burpee

Heather Burpee, Research Professor at the University of Washington Integrated Design Lab, is a nationally recognized scholar in high-performance buildings — buildings that reduce energy and promote healthy indoor environments. Her work bridges practice, research, and education with collaboration between practitioners, faculty, and students. Her research addresses both qualitative and quantitative aspects of buildings including tracking health impacts and synergies between environmental quality, natural systems, sensory environments, and energy efficiency. She has led several efforts to create protocols for performance-based tracking and auditing for hospitals, higher education, and commercial buildings. She regularly applies these roadmaps in practice, consulting with leading design teams nationally that are charged with implementing high-performance buildings.

As the Director of Education and Outreach at the UW IDL, she leads a tour program at the Bullitt Center “The World’s Greenest Building,” and develops curriculum and implementation of other educational opportunities related to high-performance buildings to multi-faceted audiences. Heather is a Pacific Northwest native and received her Master of Architecture degree from the University of Washington College of Built Environments and her undergraduate degree in biology from Whitman College.

Gundula Proksch

Gundula Proksch is a scholar, licensed architect, and Professor in the Department of Architecture and Adjunct Professor in the Department of Landscape Architecture. She is the Founding Director of the Circular City + Living Systems Lab (CCLS), an interdisciplinary research group investigating transformative strategies for sustainable urban futures. The CCLS leverages research and design methods to investigate the potential of synergetic systems to apply circular economy principles and integrate living systems in buildings and cities. These approaches produce and circulate resources within the food-water-energy nexus toward efficient, just, and sustainable urban built environments.

Professor Proksch is the Principal Investigator of the National Science Foundation (NSF) funded research project “Belmont Forum Collaborative Research: CITYFOOD.” As part of an international research consortium, with partners in Germany, Sweden, Norway, the Netherlands and Brazil, CITYFOOD investigates the potential of integration of aquaponic systems into cities on a broad scale, as an innovative solution to mitigate daunting environmental, economic, and social challenges. Her book Creating Urban Agricultural Systems: An Integrated Approach to Design (Routledge, 2017) is the first source book on how to approach urban agriculture from a systems perspective. It explores the ways urban farms provide integrated environmental systems, innovative operational strategies, and design approaches to create environmentally sound and economically viable urban agricultural operations.

Professor Proksch’s interdisciplinary sustainability research builds on her professional experience spanning fifteen years of practice in Europe and the United States. She practiced with renowned architects, David Chipperfield in London and Richard Meier, Stan Allen and Roger Duffy of SOM in New York. She holds a Master of Architecture from Cornell University and a master-level degree from the Technical University Braunschweig in Germany. She received a DAAD scholarship for independent studies at the Swiss Federal Institute of Technology, ETH Zurich in Switzerland.