Learning Resources

Abstract: Pedagogies, study needs, and socialization habits are changing as student bodies become more diverse. Planners and architects must respond with new, more responsive spaces to create successful facilities. In this session, we will focus on both in-depth and high-level overviews of four new projects and how they specifically address STEM students' evolving space needs, including needs particular to first-generation and underrepresented minority students. Find out what's working at Amherst College’s newly opened Science Center and discover innovative designs for types and configurations of learning spaces at several new undergraduate STEM facilities.

Abstract: The demand for graduates and technicians in the academic fields of science, technology, engineering, and mathematics (STEM) is influencing the design of specialized educational facilities in community colleges. Community colleges are increasingly aligning their academic programs to the specific economic development priorities and projected demand for skilled labor in the geographic regions they serve. It is expected that partnerships with local industry will increasingly shape curriculum development and facilities design. This trend is rapidly developing in California, where community colleges are incorporating sophisticated simulation laboratories, makerspaces, and innovation centers outfitted with advanced infrastructure and equipment, along with spaces that support the full spectrum of competencies required for graduates to succeed in the STEM labor market.

Abstract: The design-build delivery approach, in which design and construction services are contracted through a single entity, has the potential to help higher education institutions control costs, streamline processes and communications, and more efficiently and effectively meet project objectives. This article examines the relationship between the University of North Georgia and design-build firm Pond, describing the process of design-build and highlighting two projects, the replacement of a dining hall floor and the renovation of a science classroom. The success of these projects demonstrates the benefits of integration and collaboration inherent in the design-build model.

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.

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.

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.

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.

Abstract: While universities recognize the need for change, establishing an environment conducive to change requires time and movement through stages. In this article, I examine different tools and processes that can pave the way for innovation or change. These processes became evident in my research on the emergence of an interdisciplinary policy school jointly established on two campuses where previous models did not exist. The change came about because there was a confluence of forces that promoted it; these factors were strong enough to negate the barriers. There were key actions undertaken by the universities that promoted the change, including systematic program review, university-wide integrated planning, the appointment of an executive sponsor who had social and political capital, and the establishment of a “grassroots” working committee comprising faculty who were passionate about the initiative. However, there were equally important practices and policies that hindered the movement forward; these included institutional procedures that required multiple levels of approval in a lock-step process and the many facets of resistance to change. For universities contemplating a change agenda, the implementation of some of these processes and tools could potentially be beneficial in moving forward.

Abstract: Over the course of two years, The New School, a New York City university established in 1919 by philosopher John Dewey and other prominent Progressive Era scholars, partnered with the Stevens Institute of Technology, a private research university in Hoboken, New Jersey, founded in 1870. The partnering universities entered—and were selected as one of 20 finalists of—a biannual, international competition among higher education institutions to design and build an energy-efficient house. Typically, the competition draws significant public attention because of its focus on showcasing innovative technologies to advance energy savings. (All 20 finalist houses—this time, including the New School–Stevens “Empowerhouse”—are displayed on the National Mall in Washington, DC.) As well, the competition spurs innovation among students and provides an extraordinary “real-world” educational experience. Five of us who worked on this project discuss the challenges and benefits of an inter-institutional approach that also centered on collaboration with multiple community partners including Habitat for Humanity of Washington, DC, several DC government agencies, and community-based organizations in the DC neighborhood of Deanwood, where the competition house would ultimately be relocated and reconstructed as a two-family Habitat for Humanity residence. The project involved more than 200 students over a multiyear period working on and employing their academic preparation in areas including community engagement, advocacy, mechanical engineering, civil engineering, environmental policy, sustainability management, fashion design, lighting design, organizational change management, urban policy, environmental studies, architecture, and product design.