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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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Example Plans

Published
January 5, 2024

Strategic Plan, Strategic Planning Website

Public Doctoral/Research University (Georgia, United States)

Strategic plan for the university, which is beginning its second decade after consolidation.

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Example Plans

Published
April 20, 2023

Master Plan

Public Doctoral/Research University (Michigan, United States)

Campus master plan document for a STEM-focused institution, deeply aligned with its strategic plan.

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Planning for Higher Education Journal

Published
April 19, 2023

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The Fourth Industrial Revolution

Align Strategic, Physical, and Capital Planning for the Next Generation of Students

By: Jacob Guter, MPA, RA, and Doug Kozma, BSLA, PLA

Michigan Technological University used active stakeholder engagement, frequent reviews, and vigorous discussion to develop its aspirational master plan.

From Volume 51 Number 3 | April–June 2023

Abstract: Profound technological changes are occurring today, and universities need to prepare our students to work and live in this new world. Michigan Technological University (Michigan Tech) is addressing the future of technology in society, academia, and the campus through our Tech Forward Strategic Plan, a bold enrollment and retention initiative, an aggressive capital campaign, and a dynamic hiring initiative. Our aspirational campus master plan, developed in partnership with SmithGroup, an integrated design firm, integrates and supports these initiatives and goals. Active stakeholder engagement, frequent reviews, and vigorous discussion allowed us to craft a campus master plan aligning strategic, physical, and capital planning that supports and drives the university’s 2035 Vision.

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Report

Published
October 26, 2022

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Smart Building, Smart Campus

By: Angela Foss, Autodesk (previously of Southern New Hampshire University)

This is a SCUP Fellow Research Project Final Report for the 2019–2020 program. This report explores the hypothesis that user-centered design would better address STEM student needs and could increase the likelihood of a broader adoption of remote labs.
Abstract: “Will innovative environments like a smart building expand STEM education and reach more underrepresented groups? If technology can support remote work, then why haven’t the previous proofs of concept become fully adopted?” The author pursued these questions through her SCUP Fellows research, exploring the hypothesis that user-centered design would better address STEM student needs and could increase the likelihood of a broader adoption of remote labs. Although the COVID-19 pandemic required a hard pivot in her research plan, she was able to leverage the world's new focus on remote activities and work with students to design a prototype mobile application for a digital, interactive twin of a STEM building on campus.

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Planning for Higher Education Journal

Published
May 25, 2022

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Scaling Active Learning Classrooms

Adopt 11 Best Practices to Transform Existing Spaces to Support Student Success

By: Sharon Beaudry, JD, SPHR

A large-scale study uncovered factors that led to successful scaling of active learning spaces and pedagogical approaches in colleges and universities.

From Volume 50 Number 3 | April–June 2022

Abstract: Active learning has been a growing trend in higher education for decades based on its positive impact on student learning and success. Colleges and universities have invested resources into expanding this teaching approach by using active learning classrooms (ALCs). But why have some institutions been successful at rapidly growing their ALCs and learning spaces, while others have struggled? This article, focusing on the higher education arena, summarizes the best practices from a large-scale study that uncovered factors that led to successful scaling of learning spaces and pedagogical approaches in colleges and universities.

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Conference Recordings

Published
July 12, 2021

2021 Annual Conference | July 2021

Campus Tour | University of Hawaii at Manoa

By: Jan Gouveia, University of Hawai‘i | Seth Siaki, University of Hawai‘i | Ryan Sullivan, G70 | Glen Berry, HERA Laboratory Planners | Seth Goodnight, Layton Construction

This tour will showcase the University of Hawaii’s flagship campus and the unique challenges the university faces with regard to long-term planning, campus redevelopment, and designing in a tropical environment.
Abstract: This tour will showcase the University of Hawaii’s flagship campus and the unique challenges the university faces with regard to long-term planning, campus redevelopment, and designing in a tropical environment. The tour will then focus on the university’s new Life Sciences Building, which consolidated various departments in aging facilities into new state-of-art teaching and research laboratories. This building was one of the first major design-build projects on campus. We will discuss the challenges that were encountered and how each was solved.

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Webinar Recordings

Published
April 20, 2021

A Different Kind of SMART

Using Performance-Oriented Metrics to Redefine Success in a Forward-Focused Research Lab

By: Carlos Perez Rubio, AIA, LEED AP, HERA laboratory planners | Sarah T. Smith, NCARB, LEED GA, Auburn University | Clay Stafford, HERA laboratory planners

In this presentation, we discuss how to identify and select appropriate metrics—equally focused on education and research—for evaluating “SMART” research laboratories.
Abstract: “SMART” built environments usually refer to buildings with embedded technologies that allow them to run as efficiently as possible. Yet for research institutions, that definition should be expanded beyond efficiency to include metrics that are used to quantify research productivity and accomplishments. The expected useful life of the building and individual labs, research dollars generated per square foot, intellectual property generated, and successful recruitment and retainment of researchers are but a few bottom line-oriented measures that colleges and universities use. By embracing the business side of higher education, architects can create even smarter built environments.

In this presentation, we discuss how to identify and select appropriate metrics for institutions that are equally focused on education and research. What objective and subjective measures can be considered? Are these metrics applicable in our new (hopefully) post-COVID reality? How are institutions reallocating space in this new reality? How do we redefine the future of “smart” higher education research facilities?

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Conference Recordings

Published
March 18, 2021

2021 North Atlantic Regional Conference | March 2021

Isttaniokaksini / Science Commons

University of Lethbridge Virtual Tour

By: Stephen Phillips, Stantec | Michael Moxam, Stantec

Isttaniokaksini—the Blackfoot name bestowed on the new Science Commons for transdisciplinary science at the University of Lethbridge—means deep knowledge and awareness growing out of the unknown. Planned for many generations into the future, the design creates a highly sustainable, flexible, and supportive platform for discovering solutions to the challenges facing humanity, nature, and the universe.
Abstract: Isttaniokaksini—the Blackfoot name bestowed on the new Science Commons for transdisciplinary science at the University of Lethbridge—means deep knowledge and awareness growing out of the unknown. The new 32,600 SM collaborative science facility is sited in the iconic coulee landscape adjacent to University Hall, one of noted Canadian architect Arthur Erickson’s most iconic works. The architecture of Isttaniokaksini / Science Commons realizes the vision to create the most advanced science building in Canada and an incubator for transdisciplinary discovery. Planned for many generations into the future, the design creates a highly sustainable, flexible, and supportive platform for discovering solutions to the challenges facing humanity, nature, and the universe.

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