If you would like to write for this, or any other Emerald publication, then please use our Emerald for Authors service information about how to choose which publication to write for and submission guidelines are available for all. Please visit www.emeraldinsight.com/authors for more information. About Emerald www.emeraldinsight.comEmerald is a global publisher linking research and practice to the benefit of society. The company manages a portfolio of more than 290 journals and over 2,350 books and book series volumes, as well as providing an extensive range of online products and additional customer resources and services.Emerald is both COUNTER 4 and TRANSFER compliant. The organization is a partner of the Committee on Publication Ethics (COPE) and also works with Portico and the LOCKSS initiative for digital archive preservation. AbstractPurpose -The purpose of this paper is to describe how 3D printing and scanning technology was implemented by the Dalhousie University Libraries in Halifax, Nova Scotia. Insights will be outlined about the benefits of these technologies in terms of data visualization and archival practices, as well as the potential user base for library-centered 3D printing and scanning services. Design/methodology/approach -This paper describes why the Dalhousie University Libraries purchased a 3D printer and scanner, the challenges of maintaining these technologies and instructing students in their use, and how Dalhousie faculty members and students have made use of these technologies for their own research purposes. Findings -3D printing and scanning technologies can be of use to a much wider range of Faculties than have traditionally had access to them. The unique role libraries have on university campuses allows them to function as universal access points for these technologies. By offering 3D scanning technology, they can also use this technology internally for archival purposes. Originality/value -While much has been written on 3D printing and scanning technology, very little has been written about how these technologies could relate to academic libraries. This paper sets the groundwork for further exploration into how 3D technologies can improve and expand library services.
Purpose The growing popularity of virtual and augmented reality (VR and AR) technologies, and increased research into their educational uses, has seen them appearing in a significant number of academic libraries. Little is known, however, about how many libraries have actually adopted these technologies or how they have structured library services around them. The purpose of this paper is to answer these questions. Design/methodology/approach The authors surveyed the websites of the Association of Research Libraries (ARL) member libraries to gather information about the availability of VR and AR equipment as well as information about how access is provided. Recorded details about these services included information about staffing, dedicated space, software, what type of technology was offered and whether or not the technology was lent out or only made available for in-library use. Findings Results of the research project showed that a significant number of ARL-member libraries do offer access to VR technology. AR technology was much less widespread. The most common technologies offered were the Oculus Rift and HTC Vive. The technology was most typically offered for in-library use only. There were few details about staff or what software was offered to be used with the technology. Originality/value While there is growing research around how VR and AR is being used in education, little research has been undertaken into how libraries are adopting these technologies. This paper summarizes the research that has been done so far and also takes the next step of providing a larger picture of how widespread the adoption of VR and AR technologies has been within academic libraries, as well as how access to these technologies is being provided.
Purpose – The number of 3D models available on the internet to both students and educators is rapidly expanding. Not only are the 3D model collections of popular websites like Thingiverse.com growing, organizations such as the Smithsonian Institution and NASA have also recently begun to build collections of 3D models and make these openly accessible online. Yet, even with increased interest in 3D printing and 3D scanning technologies, little is known about the overall structure of the 3D models available on the internet. The paper aims to discuss this issue. Design/methodology/approach – To initiate this project, a list was built of 33 of the most widely used 3D model websites on the internet. Freely downloadable models, as well as models available for purchase or as 3D printed objects were included in the list. Once the list of 33 websites was created, the data for each individual 3D model in the collections was manually assembled and recorded. The titles of the 3D models, keywords, subject headings, license information, and number of views and downloads were recorded, as this information was available. The data were gathered between January and May 2015, and compiled into a CSV database. To determine how online 3D model content relates to a variety of educational disciplines, relevant subject terms for a variety of educational disciples were extracted from the EBSCO database system. With this list of subject terms in hand, the keywords in the CSV database of model information were searched for each of the subject terms, with an automated process using a Perl script. Findings – There have been many teachers, professors, librarians and students who have purchased 3D printers with little or no 3D modelling skills. Without these skills the owners of these 3D printers are entirely reliant on the content created and freely shared by others to make use of their 3D printers. As the data collected for this research paper shows, the vast majority of open 3D model content available online pertains to the professions already well versed in 3D modelling and Computer Aided Design design, such as engineering and architecture. Originality/value – Despite that fact that librarians, teachers and other educators are increasingly using technologies that rely on open 3D model content as educational tools, no research has yet been done to assess the number of 3D models available online and what educational disciplines this content relates to. This paper attempts to fill this gap, providing an overview of the size of this content, the educational disciplines this content relates to and who has so far been responsible for developing this content. This information will be valuable to librarians and teachers currently working with technology such as 3D printers and virtual reality, as well as those considering investing in this technology.
The majority of academic libraries currently use one or more social media websites in their efforts to communicate and engage with students. Some of the most widely used sites are Facebook, Twitter, YouTube and Instagram. Education Library users at the University of British Columbia were surveyed and asked to rank whether they preferred receiving Education Library communications from Facebook, Twitter or WordPress (blogs). The results indicate that students ranked Facebook first, WordPress second and Twitter third. Students also provided explanations for their rankings, and Facebook was the top choice because it is the most widely used as well as the most convenient way to access Library information. Additional research in this area should be conducted at other academic libraries.
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