UC Davis Home Page

News and Information

Outdoor 'smart' lighting system to save energy, enhance safety (VIDEO)

June 18, 2012

Smart lighting and energy efficiency developed at UC Davis

Video (1 min 51 sec)

Videography by Ken Zukin and Kristen Simoes

The University of California, Davis, today unveiled one of the most advanced outdoor lighting systems in the country, a roughly $1 million network of “smart” lights that talk to each other and adapt to their environment.

The $950,000 project is part of the university’s Smart Lighting Initiative, established in 2010 to reduce campus lighting electrical use by 30 million kilowatt hours -- or to 60 percent of 2007 levels -- by 2015. The new outdoor lights promise to save the university $100,000 a year on electricity, shrink its carbon footprint and make it a safer place after dark.

“The face of the campus is changing, and the face of California is changing. Exterior lighting is going to be smart, safe and adaptive,” said Michael Siminovitch, director of the UC Davis California Lighting Technology Center. “What we’ve done at UC Davis is massively replicable, and it will have to be.”

Recognizing that lighting accounts for about a quarter of all electricity use statewide, California is expected to require in 2014 that all new, nonresidential construction have adaptive lighting.

UC Davis unveiled its new outdoor lights on the first day of the California Higher Education Sustainability Conference, a five-day meeting that is bringing together nearly 1,000 people from 70 colleges and universities, mostly in California, to share best practices in sustainable planning.

Adaptive lighting adjusts light levels to suit activity levels, using such tools as occupancy sensors and multilevel lighting. The new UC Davis project wirelessly connects more than 1,400 energy efficient lights along pathways and roadways to a main control area, so that lights that once operated in solitude are now “talking” to each other as part of a seamless web.

The lighting can be scheduled and adjusted for increased or decreased levels of activity, such as during sporting events, or to guide pedestrians along preferred routes. The system senses occupants, whether on foot, bicycle or automobile, predicts their direction of travel, and lights the path ahead. The smart network also senses when areas are vacant, then dims lights enough to save energy and reduce light pollution, without compromising safety.

“Adaptive lighting means having the right levels when you need them,” said Keith Graeber, director of engineering at the UC Davis California Lighting Technology Center. “It’s safe, secure and efficient. It’s better lighting.”

So far, with the exterior lighting project roughly 80 percent complete, the energy needed to light outside spaces on campus is 58 percent less than it was five years ago, even as the university has added buildings, students, faculty and staff.

When completed, the outdoor lighting network is projected to save more than 1 million kWh of electricity annually -- enough to offset the annual greenhouse gas emissions of 135 cars and trucks. Completion is expected within the year.

Far greater savings will be realized when the campus installs adaptive, networked lighting on the inside of campus buildings -- along corridors, inside restrooms, offices and hallways -- beginning later this year. When both inside and outside lights are in place, UC Davis expects to see $3 million a year in annual electricity savings.

“We used to have a single on/off switch for these lights,” said David Phillips, director of UC Davis Utilities. “Now, we have a coordinated network with programmable, independent, fully dimmable switches. We turn them on, and they all start chattering. They ask, ‘Where am I?’ ‘When should I light up and how much?’ With support from CLTC, UC Davis Design and Construction Management, and our colleagues across the campus, we’ve answered those questions. And we’ll be able to continually update the programming to make improvements over time.”

Other University of California campuses are doing smaller projects with exterior adaptive lighting, including UC Irvine and UC Santa Cruz.

UC Davis Smart Lighting projects are based on innovations developed or refined by the campus’s California Lighting Technology Center and implemented by UC Davis Facilities Management. Many of these technologies were developed in partnership with the California Energy Commission’s Public Interest Energy Research program. 

The projects have included upgraded fixtures in campus parking structures, and smart lighting projects in administrative offices, Shields Library, various residence halls, classrooms and bathrooms.

The California Strategic Energy Partnership Program provided $4 million to help fund the initiative. The balance will be paid for through annual energy savings.

 “I am so proud that UC Davis and CLTC are partnering on finding solutions to critical issues of energy conservation,” said Jessie Ann Owens, dean of the Division of Humanities, Arts and Cultural Studies, which encompasses Siminovitch’s Department of Design. “The innovations tested here will make a huge difference.”

About UC Davis

UC Davis is a global community of individuals united to better humanity and our natural world while seeking solutions to some of our most pressing challenges. Located near the California state capital, UC Davis has more than 34,000 students, and the full-time equivalent of 4,100 faculty and other academics and 17,400 staff. The campus has an annual research budget of over $750 million, a comprehensive health system and 13 specialized research centers. The university offers interdisciplinary graduate study and 99 undergraduate majors in four colleges and six professional schools.

Additional information:

Media contact(s):

  • Kelly Cunningham, California Lighting Technology Center, (530) 747-3824, kcunning@ucdavis.edu (Cell: (916) 202-2499. Interview requests for CLTC director Michael Siminovitch can also be made by contacting Cunningham.)
  • Kat Kerlin, UC Davis News Service, (530) 752-7704, kekerlin@ucdavis.edu

Return to the previous page