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By Neall Digert, Ph.D., MIES ��

Developing athletic facilities in dense, urban environments can present a unique set of challenges. While these types of projects are often constrained by surrounding development and environmental barriers, design teams are still expected to deliver safe, high-performance spaces that support rigorous activities. At the same time, designs must anticipate the realities of climate change by embedding resilience and sustainability at every level.��

Columbia University’s Philip & Cheryl Milstein Family Tennis Center stands as a model of resilient design, demonstrating how to successfully overcome these challenges. Perched on the northern tip of Manhattan between the Hudson and Harlem Rivers, the state-of-the-art facility employs a vertical building strategy, advanced daylighting solutions and flood-resilient design concepts to create one of the most forward-thinking collegiate athletic centers in the country.����

This project also reflects broader industry trends: . With showing that 88% of metropolitan areas gained population between 2023 and 2024, and the projecting increasingly severe storms from climate change, the importance of space-conscious, adaptive design will only continue to rise.��

Meeting the Urban Challenge��

When Perkins&Will set out to design the Milstein Family Tennis Center, the firm faced the dual challenge of replacing an aging structure within Columbia University’s Baker Athletics Complex while also reflecting the institution’s commitment to resilient, high-performance design. Given the site’s proximity to two major waterways in one of the nation’s most densely populated areas, the project required a facility that met NCAA standards with six indoor and six outdoor courts, plus training areas, locker rooms and social spaces.��

Adding to the complexity, the building had to maintain strong visual and physical connections to the surrounding park and waterfront, despite the site’s vulnerability to flooding.��

“The motto for this project was fitness for all, and our team needed to create both a functional athletic facility and a community space within a constrained footprint, on land that has narrowly escaped severe flooding in the past and faces ongoing risk in the future,” said Stephen Sefton, Design Director, Principal, Perkins&Will.��

Building Up, Not Out��

To surmount the site’s restrictions, the design team implemented a vertical building strategy: elevating six indoor courts above the 100-year floodplain surrounded by resilient support areas with six more courts stacked above on the roof, with six more on the roof. This tiered design supported spatial and functional needs without compromising the surrounding landscape.������

By building vertically, Perkins&Will was able to incorporate social gathering areas and training amenities while also creating opportunities for more strategic integration of daylighting features and view corridors.��

Harnessing Natural Daylight��

Daylighting was a central design driver for the Milstein Family Tennis Center. To enhance visibility, comfort and energy efficiency, the design team specified Kingspan Light + Air’s with Verti-Lite grid pattern and integrated windows for the indoor courts. The translucent panels allow for abundant, diffused natural daylight while minimizing glare and thermal hotspots, key factors in .����

“Natural daylight was essential for this project, not only to reduce reliance on electric lighting, but to create an environment where athletes can perform at their best,” Sefton continued. “The UniGrid system gave us the ability to balance soft, even daylight with clear sightlines, ensuring the space feels bright, comfortable and connected to its surroundings.”��

Research continues to validate these benefits. from the Lighting Research Center demonstrate that exposure to daylight influences serotonin levels and alertness, helping reduce fatigue and sharpen cognitive performance, critical in high-intensity environments such as athletic training and competition. Similarly, a peer-reviewed published in the Journal of Clinical Sleep Medicine found that workers with greater exposure to daylight reported higher vitality, better sleep quality and longer rest duration than those in windowless spaces. In athletic facilities, these findings reinforce the role of daylighting as a performance strategy, supporting sharper concentration, faster reaction times and improved overall well-being.��

Framed windows integrated into the translucent wall system build on this approach by introducing curated views of the Hudson and Harlem rivers. The façade’s vertical rhythm of metal fins and white cladding references Manhattan’s maritime and industrial heritage while delivering a clean, contemporary aesthetic.��

Read the full article, including more on designing for resilience and efficiency, in the .

Neall Digert, Ph.D., MIES, is Vice President, Innovation and Market Development, for Kingspan Light + Air North America.��

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As educational institutions strive to create healthier, more energy-efficient and student-centered learning environments, natural daylighting has emerged as a key design strategy that supports sustainable and inclusive learning design. A well-planned daylighting strategy offers numerous sustainability benefits and can enhance key design principles that are shaping the future of educational spaces

The Benefits of Sustainable School Design

1. Healthier Indoor Environments

Sustainable school design creates healthier learning environments by improving indoor air quality, natural ventilation and daylighting. High-efficiency ventilation systems filter out airborne pollutants, while sustainable materials and finishes reduce exposure to harmful chemicals.

Natural daylight, a critical element of healthy indoor spaces, offers a dynamic lighting alternative to static electric lighting solutions, which can adversely affect the building occupants’ mood, sleep patterns and overall well-being. The daily progression from darkness to physiologically meaningful dynamic daylight and back supports the body’s time-dependent production of serotonin and melatonin, enhancing mood regulation, attention span and overall student engagement.

Recent discoveries about have further underscored the importance of daylight as a source for interior space illumination. These cells play a vital role in regulating circadian rhythms, paving the way for evidence-based daylighting design strategies. By integrating these insights with modern architectural and engineering principles, sustainable schools are better equipped to optimize learning environments.

2. Higher Attendance and Teacher-Retention Rates

Sustainable school design not only creates healthier learning environments—it also boosts attendance and teacher retention. A survey of 665 industry executives revealed that more than 70% of respondents saw reduced absenteeism and improved performance in green schools. Complementing this, a nationwide survey found that nearly all teachers (97%) consider effective learning environment design essential for student success, with 80% linking it to effective teaching and 68% factoring it into job decisions.

Key features—such as improved indoor air quality, reduced chemical emissions, abundant natural daylight and better humidity control—yield environmental, fiscal and health benefits. These advantages lead to lower absenteeism, reduced turnover and enhanced performance, with a 2011 study showing up to 7.5% improvement in attendance and an 8% to 19% boost in student performance when compared to conventional schools.

3. Improved Student Performance and Test Scores

The relationship between sustainable school design and academic performance is also well documented. from the Lighting Research Center (LRC) and other academic institutions shows that exposure to natural daylight in classrooms enhances cognitive function, improves memory retention and reduces stress and fatigue. In fact, a by the Heschong Mahone Group revealed that students in naturally daylit classrooms advanced 20% faster in math and 26% faster in reading compared to those in environments with limited daylight. Additional studies indicate that classrooms with optimized natural daylighting contribute to increased productivity, better concentration and higher overall academic achievement.

4. Reduced Environmental Impact

K-12 schools spend roughly $8 billion annually on energy and emit approximately 72 million metric tons of CO₂—equivalent to 18 coal-fired power plants per year—according to the U.S. Department of Energy. By adopting sustainable design strategies, especially natural daylighting, schools can lower energy consumption, reduce emissions and create healthier learning environments.

A well-designed daylighting system reduces reliance on electric lighting, which can account for 35% to 50% of a school’s annual energy use. Daylight has a higher efficacy factor compared to electric lighting, providing more light with less heat. As a result, maximizing daylight can lower cooling demands by up to , easing the load on HVAC systems, and can reduce electric lighting consumption by up to . These energy efficiencies translate into significant cost savings and a reduced environmental footprint.

5. Lower Operating Costs

Lastly, schools designed with sustainability in mind benefit from significantly lower long-term operational costs. High-performance buildings utilize strategies such as natural ventilation, enhanced insulation and geothermal heating to reduce energy consumption and improve efficiency. According to the , green schools, on average, use 33% less energy and 32% less water than their conventional counterparts, saving roughly $100,000 per year in direct operating costs.

Read the full story in the of 91��Ƶ and learn more about natural daylighting and sustainable design principles that can support biophilic design, neuro-inclusive learning spaces, resiliency and more.

Neall Digert, Ph.D., MIES, is vice president of Innovation and Market Development, for Kingspan Light + Air North America.

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Ever since Thomas Edison successfully commercialized the incandescent lightbulb more than a century ago, artificial lighting has become a critical technology that facilitated the modern civilization through offering sufficient light level for indoor activities. LED lighting then brought financial and sustainability benefits by significantly reducing lighting energy consumption through increasing energy efficiency over the past decade. Now the history of lighting is entering its next age characterized by human-centric lighting (HCL) that is expected to vastly expand the impact of lighting on human health and wellbeing. For schools, that means the most important constituents—students and teachers—will not just be visually receiving lighting but may also benefit from it like never before.

HCL aims to enhance the biological health and emotional wellbeing of people through advanced capabilities such as flicker-free, dimmable and color tunable or circadian lighting. It has been gaining recognition since the term first emerged around 2013 as LED and lighting control technologies started to make it possible for commercial applications.

An obvious and persistent hazard of artificial lighting that HCL aims to remove is flicker. Flicker occurs as a result of modulating the current to artificial light sources, in particular fluorescent, which has been the primary lighting choice for classrooms since the 1950s. Flicker has shown to cause headaches, migraine, eye strain or fatigue, particularly for photosensitive individuals or those with scotopic sensitivity syndromes that hamper perceptual processing and reading. With quality LED lighting, flicker can be largely removed, so much so that it could be considered “flicker-free.”�� UL (Underwriters Laboratories) provides a “Low Optical Flicker” certification to qualify LED lamps and fixtures that “meet optimal flicker thresholds for verifiable lighting comfort,” assuring schools can make lighting choices with optimal flicker performance.

Another significant benefit of HCL is circadian lighting, which alters the color temperature and intensity of lighting by aligning our bodies with circadian rhythm. Circadian rhythms are those biological, mental and behavioral changes that respond to light and darkness in a daily, 24-hour clock. In 2017, three scientists won a Nobel Prize for discovering the gene (which they aptly call “timeless”) and the molecular mechanisms that control human circadian rhythm. They showed how light helps humans synchronize with the clock, further validating the working of circadian rhythm.

In the classroom, producing light with cooler, bluer color temperatures and higher intensity, mimics the sun’s daylight quality that induces dopamine, endorphin and cortisol while suppressing melatonin, which can promote higher visual acuity and mental focus, according to several studies. Towards the end of the day, lowering color temperature to more yellowish and dimming the light mimics the sunset spectrum, prompting calmer moods by inducing melatonin.

Since average Americans spend close to 90% of their time indoors, constant exposure to artificial light is one of the key factors that affects sleep. Sleep is inextricably linked to cognitive development, so schools have a vested interest in promoting healthy sleep. Research published in Brain and Cognition has demonstrated that the frontal lobe, which enables rational thinking and critical decision making, takes deep sleep to accomplish the neural maturation required and studies have also shown that sleep sets in motion the process of memory consolidation. Students exposed to circadian lighting during learning times should be able to sleep better at night, according to research in Neuroendocrinology Letters, which can be a powerful tool for schools. In fact, studies have demonstrated significant improvements in learning efficiency and test scores under circadian lighting, including a study of elementary school students conducted by University of Mississippi showing a 33% increase in performance under circadian lighting compared with the control group.

Notably, there’s a double downside for students with Autism Spectrum Disorder (ASD) learning under flickering lights that also harm their circadian rhythms because their circadian rhythms are already weaker. According to research published in the Journal of Neurodevelopmental Disorders, it’s as if the day and night are far less bright and dark, respectively, with a flatter profile of melatonin secretion across 24-hour periods. Children with ASD are also more susceptible to extreme visual sensitivity where sharp peaks in light can jumble the signals to the brain. It can result in dizziness, headaches, nausea, and difficulty concentrating, according to International Journal of Clinical and Health Psychology.�� HCL may be particularly instrumental in helping to improve physiological health and behavior in students with ASD.

Additionally, advanced HCL capabilities such as circadian lighting requires lighting controls, which traditionally have been notorious for being inaccessible in existing buildings due to system complexity and prohibitive cost. For HCL to be massively impactful, it needs to be simpler to install, budget-friendly, intuitive to use, and easy to maintain. Fortunately, with the latest developments in LED lighting systems that incorporate advanced electronics, communication and software technologies, schools can now benefit from HCL solutions that leverage on existing fixtures and AC powerlines without the need of running new wire, introducing potentially insecure wireless communication protocols, or replacing the fixtures that could last multiple decades. By replacing just the lamps and switches, schools can gain HCL benefits at a fraction of the time and cost while maximizing long-term sustainability by eliminating the solid waste from replacing the fixtures. There has never been a better time for schools to boost and transform health and performance of students and teachers by adopting HCL.

James Tu is chairman and chief executive officer of Energy Focus, Inc., an industry-leading innovator of sustainable LED lighting technologies and solutions.

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Several years ago, the Nordonia Hills City School District near Cleveland, Ohio, was looking to implement an energy conservation program. When one of the district’s schools, Rushwood Elementary School, began to study the available options, its administrators considered a number of factors—including the fact that the fluorescent lighting long in use had proven disruptive to some of their special-needs students. The decision was made to install flicker-free LED lighting, which could be easily retrofitted into Rushwood’s existing light fixtures. Following the retrofit, differences were noticed immediately across the school: teachers described the LED light quality as crisper, clearer and brighter, with words on paper easier to read; one teacher reported getting fewer headaches; a special-needs teacher noted a more “mellow feel” in her classroom; and the district reduced its total electric bill by about 11 percent.

Rushwood is just one of an increasing number of success stories across the educational landscape involving the installation of flicker-free LED lighting—an innovation with a wide range of advantages over the traditional fluorescent lights that have illuminated educational institutions for decades. For decision makers involved in the construction and renovation of primary and secondary schools as well as colleges and universities, this option represents a key opportunity. Evidence exists that the flicker and spiky spectrum of traditional fluorescent lighting and early-generation LEDs can be detrimental to the health of those in classrooms and other school facilities, whereas flicker-free, full-spectrum LEDs offer a superior option, all while significantly slashing maintenance costs. Not only can the retrofit be performed without hassle; LED bulbs have an extremely long lifetime, which translates into sharply reduced maintenance costs.

Flicker-free LED lighting offers numerous health and cognitive benefits

What are some of the potential health benefits of flicker-free LED lighting? Pioneering controlled studies conducted by Arnold Wilkins of the University of Essex found the occurrence of headaches in office workers who sat beneath fluorescent lighting all day could be reduced by as much as half following a significant reduction in flicker. In addition to dizziness, migraines, eyestrain and fatigue, it has also been shown that seizures can be triggered by the flicker of traditional fluorescent lighting in individuals with photosensitive epilepsy. And while fluorescent bulbs contain mercury—a material that can present a serious safety risk for students if it comes in contact with lungs or skin—LED bulbs do not. Further, in the long term, the ultraviolet (UV) light generated by fluorescent bulbs can contribute to cataract formation and even macular degeneration, with young students especially at risk from the hazards of UV light. All these drawbacks can be avoided through the use of flicker-free LED lighting.

Along with these benefits, flicker-free LED lighting holds the potential to boost the quality of classroom learning and productivity. This is a natural consequence of the fact that students can concentrate more intently—and for longer periods of time—under this type of illumination. The full spectrum and constant irradiance generated by flicker-free LED lighting contribute to greater illumination and sharper color contrast, which in turn can enhance the quality of learning. Such improvements in learning and behavior may be most striking in the population of students with autism, due to their visual hypersensitivity, as well as those with other learning disabilities, as shown, for example in studies by Alexandria Kappel at Indiana University of Pennsylvania. The full-spectrum light from LED (but not fluorescent) lighting, which matches that from the sun, can also promote a healthier sleep-wake cycle in students.

Nor do the advantages of flicker-free LED lighting end at the classroom door; they can also improve the quality of the student experience in gymnasiums and shop classes. For example, under fluorescent lights with a high flicker rate, a basketball thrown across a gym can display a distracting, near-stroboscopic effect. And for those using lathes in metalworking and woodworking classes, the decreased visibility that results from the flicker of fluorescent lighting can pose a safety risk that can be avoided with flicker-free LED lighting.

Significant cost benefits can result from flicker-free LED lighting

In conjunction with these advantages, flicker-free LED lighting can offer significant maintenance cost savings and ease of installation. Converting from fluorescent lighting to LED lighting is increasingly being recognized as a key contributor to environmental sustainability. It is estimated that there are 12 billion fluorescent sockets worldwide; retrofitting all of them with LED lights has the potential to reduce electricity consumption by 960 billion kilowatt-hours globally, the equivalent of removing 679 million tons of CO2 per year. This helped to increase sales of the . Various school districts have reported savings in the millions of dollars as a result of retrofitting their fixtures with flicker-free LED lighting. Manufacturers of flicker-free LED lighting provide retrofit kits that can be utilized either by school maintenance staff or by third parties.

In addition, the emergence of building Internet-of-Things (“IoT”), leveraged upon rapidly evolving software, electronics, sensor and cloud technologies, will enable LED lighting systems to serve as the hub of connectivity to manage and control IoT devices across school buildings and campuses, thereby substantially optimizing building energy efficiency, improving building performances and elevating the student and faculty experience.

To date, the health and economic advantages of retrofitting with flicker-free LED lighting have been recognized and implemented by more than 230 leading educational institutions, ranging from the University of Minnesota and Yale University to Penn State University and Ohio State University, as well as numerous school districts across the country.

Considering the array of health, learning and economic benefits it offers, flicker-free LED lighting represents a bold advance that is well worth assessing by all stakeholders in the area of school construction, renovation and retrofit.

John Davenport is Chief Scientist at Energy Focus, Inc., an industry-leading innovator of energy-efficient LED lighting technologies and solutions.����������

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COOPERSBURG, Pa.—In recent years, human centric lighting (a philosophy describing lighting that creates more comfortable, welcoming, and engaging environments for people) has become a widely discussed talking point in the building industry. But differences of opinion regarding its impact and scope have generated discussion among industry specifiers and end users.

Lutron Electronics, the leader in lighting controls and automated shading solutions, believes human centric lighting should promote comfort, enable enhanced well-being, and foster engagement.

To further those goals, Lutron has created a holistic approach to human centric lighting: Lutron HXL.

The Lutron HXL approach combines four elements of lighting design to allow people to be, work, and feel their best: Quality Light, Natural Light, Connection to the Outdoors, and Adaptive and Personalized control.

The approach recognizes the importance of biophilia, a human connection to nature; incorporates the Internet of Things with smart technology; and allows people to manage their environment with a variety of personalized control. Indeed, the four elements of lighting design focus on different aspects of the human experience:

• Quality light. The impact of quality light can’t be understated. For designers, it can mean the difference between delivering their design intent – such as preserving color or highlighting architectural features – or not. For occupants, it may make the difference between feeling engaged or detached. With tunable white control and high-performance dimming, Lutron quality light technology helps create unforgettable experiences.
• Natural light. Sunlight, of course, is the standard by which light is measured. The HXL approach maximizes daylight with dynamic shading solutions, which let light in while mitigating glare, and brings it indoors with solutions from Ketra, whose technology provides light that seamlessly emulates daylight in interior spaces. Together, the seamless combination of daylight and interior light feels balanced at any time of day.
• Connection to the outdoors. The concept of biophilia, which suggests that humans have an inherent desire to connect with nature, has become a central component of architectural design. The Lutron HXL strategy emphasizes window views and uses shades that mitigate glare to promote this relationship.
• Adaptive and personalized control. The Internet of Things, through automation and connection, is helping to create flexible, dynamic environments that interact with people, support efficiency, and help save energy. Lutron’s approach also leverages smart technology to change spaces for the benefit of the occupants and allows people to shape those spaces with personalized control.

The HXL approach also supports sustainability by helping reduce energy costs and embracing elements of the natural world, and it contributes to design supporting WELL and LEED standards.

Lutron HXL specifics reinforce the innovative design choices that are being made in commercial spaces such as offices, hotels, and college campuses.

Founded in 1961, Lutron Electronics is headquartered in Coopersburg, Pa. The company offers more than 15,000 energy-saving products, sold in more than 100 countries.

Visit for more information.

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Limelight is a wireless lighting control solution for outdoor and industrial facilities that provides remote control and management, conserves energy, and elevates facility safety. With the simplicity of its wireless fixture-level control architecture, it also helps ensure code compliance and streamlines the specification and design process.

In May 0f 2018, Lutron and TwistHDM announced a relationship that established Limelight by Lutron, adding a best-in-class wireless exterior lighting control offering to Lutron’s wide-ranging product line, which historically focused on interior controls and automated shading solutions.

Limelight by Lutron integrates data seamlessly into Lutron’s existing data and management platform, Enterprise Vue. That software, which offers a variety of metrics and alerts, allows a facility’s indoor and outdoor lighting to be controlled from a single dashboard and provides a solution for multi-building projects and campuses looking to control lighting indoors and out.

“With the construction industry increasingly turning to smart building IoT solutions, the addition of Limelight to Lutron’s brand portfolio gives Lutron a formidable range of lighting control options,” said Bob Niemiec, managing partner at Twisthink and TwistHDM.

Founded in 1961, Lutron Electronics is headquartered in Coopersburg and offers more than 15,000 energy-saving products, sold in more than 100 countries. In the U.S. alone, Lutron products save an estimated 10 billion kWh of electricity, or approximately $1 billion in utility costs per year. The company’s early inventions — including the first solid-state electronic dimmer invented by Lutron’s founder, Joel Spira — are now at the Smithsonian’s National Museum of American History in Washington, DC.

Limelight was developed in 2008 by Twisthink, a strategic innovation firm, with one goal: to create the smartest outdoor lighting control system in the market. Limelight’s universal wireless modules are capable of working with any LED fixture, factory or field installed. The controls leverage occupancy sensing, daylight harvesting, event scheduling, and zoning to use energy only when, where and to what degree is needed, resulting in an energy savings of at least percent.

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