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Planning for Higher Education Journal

Published
April 30, 2025

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Colocating Dissimilar Academic Programs

A School of Nursing and a School of Engineering Align for Mutually Beneficial Outcomes

By: Ed Stand, BArch, LEED BD+C, AIA, Richard S. Leddy, MBA, P.E., and Laura White, BArch, AIA, LEED AP, WELL AP

Respecting mission-oriented mutual goals, two schools at Hofstra University shaped an improbable pedagogical partnership through cross-functional collaboration and data-informed decision-making.

From Volume 53 Number 2 | January–March 2025

Abstract: Administrators at colleges and universities across the country face mounting concerns over enrollment rates, curricular rigor, and climbing real estate costs. These challenges are particularly daunting for liberal arts institutions, many of which have pivoted or are pivoting to STEM programs out of necessity. Cross-disciplinary colocation strategies can enhance hands-on learning opportunities while optimizing spatial and financial resources. This article explores the planning approach to forming mutually successful partnerships between dissimilar academic programs through mission-oriented cross-functional collaboration, including examples of tools and processes for data-informed decision-making.

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Planning for Higher Education Journal

Published
August 16, 2024

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Bridging Research Silos

Improve Collaboration with a Planning Framework

By: Donald Merritt, PhD, and Craig Park, BSArch, Assoc. AIA

The authors emphasize practical applications and the integration of diverse expertise as a transformative approach to educational facility design.

From Volume 52 Number 4 | July–September 2024

Abstract: This article explores the application of interdisciplinary translational design (ITD) as a method to overcome disciplinary silos, enhance collaboration and integration across various fields, and promote a culture of respect and cooperation. ITD facilitates the creation of adaptable, technology-rich environments supportive of future-oriented research. Emphasizing practical applications and the integration of diverse expertise, ITD is presented as a transformative approach to educational facility design, fostering more effective interdisciplinary interactions and optimized research outcomes.

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Planning for Higher Education Journal

Published
August 13, 2020

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De-Densifying Classrooms in the COVID-19 Era

A Scalable and Accurate Non-Linear Model Projects New Distanced Space Capacities

By: Kimberly S. Koverman and Ann P. Kalayil

Columbia College Chicago’s “logistic growth model,” a mathematical model that is adaptable to highly variable campus spaces, gives priority to human-centered solutions while also promoting physical and emotional well-being. It can flexibly accommodate instructors, teaching assistants, and students for different pedagogical uses and within different types of facilities.

From Volume 48 Number 4 | July–September 2020

Abstract: Campus space planning generally involves the use of linear models that apply a simple square-foot-per-person calculation to determine capacities for different room sizes. Most return-to-campus strategies following the easing of COVID-19 shelter-in-place restrictions involve modification of these models, increasing square-footage-per-person to accommodate six feet of distancing. This provides reasonable upper and lower capacity estimates, but it does not yield accurate estimates across different room sizes and room types. Columbia College Chicago has developed a non-linear model that is both scalable and accurate, resulting in estimates that match test fits across all observed spaces.

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Planning for Higher Education Journal

Published
July 1, 2017

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Collaborative Spaces Transform Teaching, Amplify Learning, and Maximize Resources

By: Andrea Leers

A wide range of interactive, hands-on, and socially enhanced settings provide space for the most effective and dynamic teaching and learning in higher education today.

From Volume 45 Number 4 | July–September 2017

Abstract: Leers Weinzapfel Associates recently talked with campus planners and facilities directors nationwide about the big issues driving campus planning. Rapidly evolving pedagogies are demanding radical rethinking of effective teaching and learning spaces. Better use and optimal configuration of these venues is key as the stereotypical “sage on the stage” mode of instruction rapidly expands through a wide range of interactive, hands-on, and socially enhanced settings. Several examples of the firm’s work—the University of Massachusetts Amherst John W. Olver Design Building, the University of Arkansas (Fayetteville) Stadium Drive Residence Hall, and the Wentworth Institute of Technology (Boston) Multipurpose Academic Building—substantiate these findings in practice.

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Planning for Higher Education Journal

Published
July 1, 2017

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Enhancing the Student Experience in the Sciences

The Pennsylvania State University Creates a Nucleus for Student Education and Advising

By: Nicole M. Dress

Science education and science student retention are improved by transforming an underutilized campus space into an Academic Support Center that colocates critical undergraduate academic services.

From Volume 45 Number 4 | July–September 2017

Abstract: A critical concern of universities today is ensuring that students remain in their selected major and graduate promptly. In addition, there has been a renewed emphasis on scientific education presented to non-science majors. Through the renovation of the Ritenour Building, Penn State’s Eberly College of Science created an Academic Support Center as a hub of advising and assistance for prospective students, science majors, and science education. The center’s layout provides opportunities to share knowledge of science teaching with advising staff and the online learning department. The design of this space has been crafted to enhance these retention and educational goals.

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Planning for Higher Education Journal

Published
July 1, 2017

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Changing the Future of Health Care

The University of North Dakota’s New School of Medicine and Health Sciences

By: James Galloway,Amanda Kosior

Designed and built for collaborative, interdisciplinary education through a highly engaged process, this building transforms health care education and health care for the entire state.

From Volume 45 Number 4 | July–September 2017

Abstract: With North Dakota experiencing a significant shortage in all health care-related fields, the University of North Dakota School of Medicine and Health Sciences replaced its aging facility with a new school in order to (1) increase enrollment by 25 percent, (2) attract and retain top-tier faculty and staff, (3) encourage inter-professional collaboration, (4) colocate all eight medical, health sciences, and basic sciences in one building, and (5) retain more in-state graduates. The facility is now a shared collaborative learning environment, the result of the university “rethinking everything” about how it delivered health sciences education.

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Planning for Higher Education Journal

Published
July 1, 2017

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Strategies to Successfully Navigate the Design of STEM Facilities

A Case Study at the University of Mississippi

By: Shirine Boulos Anderson,Maurice Eftink

Successfully planning interdisciplinary, inter-college STEM facilities requires a special set of tools to navigate the challenges that arise when dealing with a diverse set of users.

From Volume 45 Number 4 | July–September 2017

Abstract: Colleges and universities are increasingly planning interdisciplinary, inter-college STEM facilities and need tools to address the special challenges that arise when dealing with a diverse set of users. This article discusses the importance of articulating a STEM vision as a means to prioritize building program components while maintaining project goals. It describes effective strategies for organizing diverse user groups, anticipating potentially challenging group dynamics, in a programming process that yields consensus about common goals and shared resources. It discusses layout strategies that support the mission of the building and an approach to STEM building governance that is independent of a particular college or department. The University of Mississippi is used as a case study.

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Planning for Higher Education Journal

Published
July 1, 2017

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The Challenge of Making Buildings Flexible

How to Create Campuses That Adapt to Changing Needs

By: Cliff Cort,Glenn Cort,Rusty Williams

How can buildings be both flexible and concrete? The answer is critical as institutions try to keep up with rapid changes in technology, curriculum, teaching techniques, and demographics.

From Volume 45 Number 4 | July–September 2017

Abstract: How can buildings be both flexible and concrete? It’s a contradiction in terms and a huge challenge facing university planners and facility managers as they try to keep up with rapid changes in technology, curriculum, teaching techniques, and student demographics. This article explores some of these trends in education and how construction techniques are evolving to meet the need for reconfigurable spaces.

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Planning for Higher Education Journal

Published
July 1, 2017

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Teaching, Learning, Doing in Collaborative Spaces

By: David Moos,Kimberly Miller,Adam Fontecchio

The intermingling of undergraduate students with grad students, post-docs, faculty, and commercial interests in one innovative facility results in better academic experiences.

From Volume 45 Number 4 | July–September 2017

Abstract: Makerspaces designed for collaborative learning are appearing on campuses throughout the United States, including at Drexel University. These spaces succeed because they permit students to collaborate, observe, and learn from professors and peers. Unique to the Drexel project is the intermingling of engineering undergraduates, graduate students, post-docs, faculty, and commercial interests in one facility with laboratories, machine-shop equipment, and informal study areas. Facilities that give students great visibility into nearby research, contain areas where they can take breaks without leaving the building, and lend themselves to informal encounters with peers, faculty, and others result in better academic experiences for undergraduates.

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Planning for Higher Education Journal

Published
July 1, 2017

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University-Industry Collaborations Are Driving Creation of Next-Generation Learning Space

By: Caitlyn Clauson,Romil Sheth

New spaces, ranging from fabrication and prototyping studios to innovation districts, reflect a growing entrepreneurship and maker culture and give students the tools they need to succeed in a rapidly evolving marketplace.

From Volume 45 Number 4 | July–September 2017

Abstract: Industry and academia are partnering like never before as entrepreneurship and maker culture become more important to our economy and a regular fixture in higher education curricula. With the influx of allied industry partnerships, evolving pedagogies, entrepreneurship programs, and a maker culture comes a pressing need for new spaces, ranging from fabrication and prototyping studios to innovation districts devoted to new kinds of research partnerships. Schools like the University of Washington, Babson College, and Arizona State University are leading the way on new collaborations. In this article, Sasaki planners and urban designers examine how design disruption will guide the development of campuses that enable 21st-century teaching, learning, and research paradigms.

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