July 1, 2021
12:00 pm - 1:00 pm
In typical practice, lighting designers are responsible for defining design intent and specifying lighting and control technology that they believe will deliver that intent. However, designers often sacrifice control over what products actually get installed, or discover a gap between expected and actual product performance that limits their ability to control characteristics of the finished environment. This webinar will examine multiple approaches to incorporating additional measures of validation, accountability, and control into the design-bid-build process, including vertical integration and digital design environments.
Webinar participants are eligible for one (1) IES Continuing Education Unit (CEU).
Michael Poplawski, Pacific Northwest National Laboratory
Michael Poplawski is a senior engineer at Pacific Northwest National Laboratory, where he primarily supports the DOE Lighting R&D Program. He is the principal investigator for research focused on evaluating and characterizing new connected lighting system technologies and capabilities, exploring the potential for connected lighting systems to provide grid services, and developing related standards and specifications.
Jessica Collier, Pacific Northwest National Laboratory
Jessica is an associate lighting research engineer on the Lighting Science Research team at PNNL supported by the Department of Energy Solid-State Lighting program. Prior to joining in 2019, Jessica worked as a lighting designer in New York while completing her graduate degree. Her current research interests include light and human health interactions, emerging solid-state lighting technologies and metrics, and ways to translate research findings into practice.
Star Davis, Design Consultant
Star Davis is an internationally acclaimed design consultant with a passion for process innovation. Balancing macro-level strategic thinking with strong technical capabilities, her approach is guided by a deep understanding of human perception, physics, product manufacturing, and construction methodologies.