Webinar: Researching Light: Current Projects from 6 labs

IES Educational Webinar Series
When:
June 17, 2021 @ 11:00 am – 12:30 pm America/Chicago Timezone
2021-06-17T11:00:00-05:00
2021-06-17T12:30:00-05:00
Cost:
$0 - $20

What if you could sit down and have each of the premier lighting research facilities in the United States come to you and distill their recent activities to about ten minutes each? That seems like a valuable use of time and exactly what we have organized for you. Lighting research occurring now provides a glimpse into our industry’s future. What lighting trends are being further researched and why? This is part one of a two-part webinar series. In July, we will feature labs specifically researching light & health concerns. The June and July “Researching Light” Series will be moderated by Mark Lien, Industry Relations Manager at IES.

  • Virginia Tech Transportation Institute – Dr. Ron Gibbons
  • Pacific Northwest National Lab – Kelly Gordon
  • Lighting Enabled Systems & Applications Lab – Dr. Robert Karlicek
  • Lighting Research Center – Dr. Nadarajah Narendran
  • Lawrence Berkeley Lab – Jordon Shackelford
  • Sandia National Lab – Dr. Paul Sharps

Webinar participants are eligible for one and a half (1.5) IES Continuing Education Units (CEUs).

PRESENTERS:
Ron GibbonsDr. Ron Gibbons, Virginia Tech Transportation Institute
Ron Gibbons is the Director of the Center for Infrastructure Based Safety Systems (CIBSS) at the Virginia Tech Transportation Institute (VTTI). He is the Institute’s lead lighting research scientist. He is currently the PI on projects investigating the impact of outdoor lighting on human health, the Spectral Effects of new light sources on roadways, the visibility of police vehicles and is the subject matter lead for the FHWA office Safety IDIQ contract. Dr. Gibbons is also an Associate Professor in the School of Architecture and Design at Virginia Tech. Gibbons is the author of over 80 published papers on roadway lighting, photometry, and target visibility. He is a past Director of Division 4 of the International Commission on Illumination (CIE) and a past president of the Illuminating Engineering Society of North America.

Kelly GordonKelly Gordon, Pacific Northwest National Laboratory
Kelly Gordon has been a Program Manager at Pacific Northwest National Laboratory for 20 years. She manages the Advanced Lighting Research program with 24 team members who provide core technical support to the US Department of Energy Lighting R&D program. Kelly has focused throughout her career on lighting energy efficiency and technology development. She earned a Master’s in Public Policy from Duke University and a BA in Political Science from Gustavus Adolphus College in Minnesota.

Bob KarlicekDr. Robert Karlicek, Lighting Enabled Systems & Applications Lab
Dr. Robert F. Karlicek, Jr. is a professor of Electrical, Computer and Systems Engineering, and the Director of the Center for Lighting Enabled Systems & Applications (LESA) at Rensselaer Polytechnic Institute. Prior RPI, he spent over 30 years in industrial research and R&D management positions related to optoelectronics, telecommunications and lighting systems with corporations including AT&T Bell Labs and General Electric. He obtained his Ph.D. in Physical Chemistry from the University of Pittsburgh and has over 56 peer reviewed technical papers and 48 U.S. patents.

Nadarajah NarendranDr. Nadarajah Narendran, Lighting Research Center
Dr. Narendran is a professor and director of research at Rensselaer’s Lighting Research Center. He is well known for his pioneering research in the field of solid-state lighting, including LED performance improvement through novel packaging, development of accelerated life-testing methods, and the use of LEDs in high-value lighting applications. His current research focuses on 3D printing for lighting, specifically investigations of the properties of materials and 3D printed components for lighting fixtures, including mechanical, thermal, optical, and electrical subcomponents. Dr. Narendran and his research group are leading the lighting industry transformation to supply on-site, on-time delivery of cost-effective lighting components and fixtures, and thus changing the current lighting practice. Dr. Narendran has authored more than 130 articles in archival journals and proceedings and holds over 50 patents. He is a Fellow of the Illuminating Engineering Society of North America, the SPIE, the international society for optics and photonics, and a member of the committee on the assessment of solid-state lighting for the National Research Council of the National Academies.

Jordon ShackelfordJordon Shackelford, Lawrence Berkeley Lab
Jordan Shackelford is a Senior Scientific Engineering Associate in the Electronics, Lighting & Networks Group at LBNL. Jordan has over 10 years of experience in emerging lighting and controls technology evaluations. He works in LBNL’s FLEXLAB on experimental design, testing, and analysis, and installs and manages lighting, controls, and monitoring systems in the lab. Jordan has worked on field demonstration projects for interior commercial LED retrofits and networked controls with auto-DR, and on early utility-funded LED street lighting and advanced controls research. He holds a Masters Degree in Civil and Environmental Engineering from Stanford’s Atmosphere / Energy Program.

Dr. Paul SharpsDr. Paul Sharps, Sandia National Lab
Dr. Sharps is the manager of the Advanced Materials Sciences department at Sandia National Labs. He has a PhD in Materials Science from Stanford University. Prior to joining Sandia, he was involved in the development of high efficiency, III/V multi-junction solar cells for over 28 years, both at the Research Triangle Institute and at Emcore / SolAero. He has 24 US patents and over 120 conference proceedings and peer reviewed publications. He has either led or been involved with teams that have developed nine commercial products. Dr. Sharps also has extensive experience with growth, processing, and testing of III/V photovoltaic devices, as well as support of manufacturing yield improvement and process optimization.