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Future of Lighting Controls
Learning Objective 1:
Participants will be able to describe the internet of things, power over ethernet, and internet of lighting as well as their networking relationships to improve efficiency and information sharing.
Learning Objective 2:
Participants will be able to discuss the impact on the industry or lighting value chain that the internet of lighting will have as well as any additional links/jobs it will add to the value chain.
Learning Objective 3:
Participants will be able to identify the pros and cons of the internet of lighting as well as recommendations to balance design and control strategies in order to achieve occupant comfort and energy savings.
Learning Objective 4:
Participants will be able to illustrate the benefits to clients or building owners for deploying the internet of lighting but also, emphasize the importance of additional security and privacy concerns that come with the new technology.
AIA Course Number:
Research Scientist I
After earning a Bachelor of Science degree in Architecture from the University of Idaho, Moscow, Dylan studied the science and engineering of building design by completing a Master's degree in architecture. As a student he worked at the Integrated Design Lab and gained hands-on experience in the practice of Integrated Design. As an IDL Research assistant, Dylan worked with both the architectural and engineering side of integrated design, providing a broader opportunity to cross over fields of study. He started working on real world projects at the Lab in the spring of 2015 and, graduated with a Master's of Architecture in Fall of 2017 with an emphasis in urban planning and net-zero/energy efficiency building design. Shortly after graduation Dylan began working as a Research Assistant at the IDL and has since been working on a wide range of projects from Energy Modeling to Daylighting Design.