Retraction statement
The publisher of Library Hi Tech News wishes to retract the article by Adeyinka Tella, Oluchi Precious Ogbonna (2023) “Telepresence robots in libraries: applications and challenges”, published in Library Hi Tech News, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1108/LHTN-03-2023-0035. It has come to our attention that certain information presented within the article is incorrect.
As part of the investigation, the authors were requested to provide references so that the editorial team could verify the information. The authors were unable to provide the corroborating information. As a result, the findings of the article cannot be relied upon.
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Abstract
Purpose
The main purpose of this paper is to explore telepresence robots are being used in libraries to facilitate library services and also to explain the future trend in the application of robots in libraries.
Design/methodology/approach
Through a review of the literature, this paper analyzes various library websites and consults literature relating to the use of telepresence robots in libraries; the current application of robots in libraries has been highlighted along with case studies of libraries currently adopting telepresence robots.
Findings
The uses of telepresence technology in libraries help to enhance library services, reach new users and provide a more inclusive and accessible library experience. Telepresence robots enhance the quality and accessibility of library services, expand library outreach and provide new opportunities for virtual engagement and programming. The application of telepresence robots in libraries can offer many benefits, but there are also several challenges that libraries must address to ensure successful implementation.
Originality/value
This paper highlights how the application of telepresence robots in libraries improves service productivity in libraries and creates a more engaging environment for the user group. The benefits and challenges of using robots in the library and the future trend in the application of telepresence robots in libraries are also discussed.
Keywords
Citation
Tella, A. and Ogbonna, O.P. (2023), "RETRACTED: Telepresence robots in libraries: applications and challenges", Library Hi Tech News, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1108/LHTN-03-2023-0035
Publisher
:Emerald Publishing Limited
Copyright © 2023, Adeyinka Tella and Oluchi Precious Ogbonna.
License
Published by Emerald Publishing Limited. This article is published under the Creative Commons Attribution (CC BY 4.0) licence. Anyone may reproduce, distribute, translate and create derivative works of this article (for both commercial & non-commercial purposes), subject to full attribution to the original publication and authors. The full terms of this licence may be seen at http://creativecommons.org/licences/by/4.0/legalcode
Introduction
Telepresence robots are robots that allow people to remotely interact with a physical environment through a camera and a screen. They have been increasingly used in various settings, including libraries, to enable remote participation and engagement. With the aid of a substitute robot body, telepresence robot technology allows people to be present and active in distant physical space (Lei et al., 2022). The ability to support videoconferencing and locomotion, which enables operators the people in charge of the robots to see, hear and move around their environment, characterizes telepresence robots in general (Lei et al., 2022). These powers enable adaptable applications, such as roving librarians roaming the library’s stacks (Guth and Vander, 2017). In addition to telepresence, telemanipulation uses robot substitute bodies, such as magnetic hands, to allow users to engage with their surroundings.
In the context of libraries, telepresence robots are used to provide virtual access to library services and resources. They allow people to remotely attend events, participate in meetings, access library collections and receive assistance from librarians (Blake, 2017). The use of telepresence robots in libraries has become more prevalent in recent years, particularly due to the COVID-19 pandemic and the resulting need for remote access to services. Libraries have used telepresence robots to allow patrons to attend virtual library programs, participate in book clubs and access library resources remotely (De Sarkar, 2023).
Telepresence robots come in various shapes and sizes, from mobile robots with screens that can move around the library space to stationary robots that are placed in designated areas. They are equipped with cameras, microphones and speakers, which enable remote users to interact with the library staff and other users in real time.
While telepresence robots have the potential to enhance library services and provide access to a wider audience, they also pose certain challenges, such as privacy concerns and technical difficulties. Additionally, telepresence robots require a significant investment in terms of equipment, maintenance and staff training.
Overall, telepresence robots in libraries represent a new and innovative way of delivering library services and engaging with patrons. As technology continues to evolve, the use of telepresence robots in libraries is expected to become more widespread and integrated into library operations.
Applications of telepresence robots in libraries
Telepresence robots in libraries can be used in various applications, including:
Remote reference services: Telepresence robots allow librarians to provide reference services to remote users who cannot physically visit the library. Remote users can communicate with librarians in real time and receive assistance with research, database searching and other library-related enquiries.
Virtual programming: Telepresence robots can be used to provide virtual programmings, such as virtual storytimes, book clubs and other events. This allows libraries to reach a wider audience and engage with users who cannot attend in-person events.
Remote tours: Telepresence robots can be used to provide virtual tours of library spaces, collections and resources. This is particularly useful for users who cannot visit the library in person, such as distance learners or people with reliabilities.
Collaborative meetings: Telepresence robots allow remote users to participate in collaborative meetings and discussions with librarians and other users. This enhances collaboration and enables remote users to have an active role in library operations.
Accessibility: Telepresence robots can be used to enhance accessibility for users with disabilities, such as providing virtual sign language interpretation services or enabling remote users to access materials that are not available in their local library.
Overall, telepresence robots in libraries provide a unique opportunity to extend library services beyond physical library spaces and engage with remote users in a meaningful way. As technology continues to advance, the applications of telepresence robots in libraries are expected to grow and provide even more opportunities for library users to connect with library services and resources.
Case studies of libraries using telepresence robots
Telepresence robots have been increasingly adopted in various fields to enable remote presence, and libraries are no exception. Telepresence robots allow library staff to extend their reach beyond the physical boundaries of the library and engage with patrons who are unable to visit the library in person (Waller and Schweikhard, 2019). There are some examples of libraries currently using telepresence robots across the world. A comprehensive report on case studies of such libraries using telepresence robots, with references is discussed in the literature (Stone and Hansen, 2018). In this paper, five case studies of libraries from around the world that have implemented telepresence robots are examined along with the benefits and challenges of using them.
Case Study 1: New Canaan Library, USA – The New Canaan Library in Connecticut, USA, is a public library that has been using telepresence robots since 2015. The library employs Beam robots, which are mobile telepresence devices that enable remote interaction between library staff and patrons. The robots are operated by library staff and can be used to provide virtual reference assistance, host remote meetings and even lead tours of the library. The robots have proven to be particularly useful for reaching out to patrons with disabilities, who may find it difficult to visit the library in person. One of the key benefits of using telepresence robots at the New Canaan Library is the ability to provide a personalized experience for patrons. Library staff can use the robots to interact with patrons in real time and address their specific needs. Additionally, the robots allow staff to extend their working hours beyond the library’s regular hours, enabling the library to provide round-the-clock services. However, the library has also faced challenges with the robots, including connectivity issues and the need for ongoing technical support.
Case Study 2: Christchurch City Libraries – New Zealand Christchurch City Libraries in New Zealand began using telepresence robots in 2019 to provide library services to people in remote areas. The library employs the Milo robot, which is designed specifically for telepresence applications. The robots are operated by library staff and can be used to provide virtual tours of the library, assist with research and provide assistance with digital resources. One of the key benefits of using telepresence robots at Christchurch City Libraries is the ability to reach out to patrons in remote areas. The robots allow staff to provide services to people who may not have access to a physical library branch. The library has also found the robots to be particularly useful for engaging with children and young people, who are often more comfortable with technology than with face-to-face interactions. However, the library has faced challenges with the robots, including technical issues and the need for ongoing maintenance.
Case Study 3: Surrey Libraries, Canada – Surrey Libraries in British Columbia, Canada, began using telepresence robots in 2018 to provide remote library services to patrons who are unable to visit the library in person. The library employs the Kubi robot, which is a simple telepresence device that can be mounted on a tablet. The robots are operated by library staff and can be used to provide virtual reference assistance and facilitate remote meetings. One of the key benefits of using telepresence robots at Surrey Libraries is the ability to provide personalized assistance to patrons. The robots allow staff to interact with patrons in real time and address their specific needs. The library has also found the robots to be particularly useful for facilitating remote meetings and collaborating with colleagues across different branches. However, the library has faced challenges with the robots, including connectivity issues and the need for ongoing technical support.
Case Study 4: University of Sydney Library, Australia – The University of Sydney Library in Australia began using telepresence robots in 2016 to provide remote library services to students who are unable to visit the library in person. The library employs the RILEY robot, which is a mobile telepresence device that can be controlled remotely by library staff. The robots can be used to provide virtual research assistance and also facilitate remote meetings.
Case Study 5: Dokki1 Library, Denmark – Dokk1 Library in Aarhus, Denmark, began using telepresence robots in 2018 to provide remote library services to patrons who are unable to visit the library in person. The robots, called “AV1,” are operated by library staff members and can be used to provide virtual reference assistance and facilitate remote meetings. The library also uses robots to provide virtual tours of the library and to host virtual events.
Sub-types of telepresence robots used in libraries
There are different subtypes of telepresence robots that are used in libraries (Kucsera and White, 2019; Delano and Wilder, 2016). Here are some examples:
Mobile telepresence: These are robots that are designed to move around the library and interact with patrons. They typically have a wheeled base and a screen or camera mounted on a pole that allows library staff to see and hear patrons.
Stationary telepresence: These are robots that are mounted in a fixed location in the library, such as a desk or a kiosk. They allow patrons to interact with library staff remotely and can be used for virtual reference assistance or remote meetings.
Tablet-based telepresence robots: These are robots that are mounted on a tablet and can be moved around the library by library staff. They are lightweight and portable, making them easy to use in a different locations.
Telepresence devices for accessibility: These are specialized telepresence devices that are designed to assist patrons with disabilities. For example, some libraries use telepresence robots that can be operated by patrons with mobility impairments to help them navigate the library or access library resources.
Hybrid telepresence: These are robots that combine the features of mobile and stationary telepresence robots. For example, some libraries use robots that can be mounted on a stand when not in use but can be detached and moved around the library by staff when needed.
The choice of telepresence robot subtype used in a library may depend on various factors such as the library’s budget, the needs of the patrons and the technical capabilities of the library staff. Ultimately, the choice of telepresence robot should be based on the specific requirements of the library and the patrons it serves.
Factors determining selection of subtypes of telepresence robots in libraries
There are several factors that libraries may consider when selecting a subtype of telepresence robot to use (Shah, 2019; Stone and Hansen, 2018). Here are some factors that may influence the choice of robot sub-type:
Budget: The cost of telepresence robots can vary widely depending on their features and capabilities. Libraries with limited budgets may opt for less expensive robot subtypes, such as tablet-based robots, while larger libraries may be able to invest in more advanced robots, such as mobile telepresence robots.
Library size and layout: The size and layout of a library may impact the type of telepresence robot that is most appropriate. For example, larger libraries may benefit from mobile telepresence robots that can move around the library and cover more ground, while smaller libraries may find that a stationary robot is sufficient for their needs.
Technical capabilities: The technical expertise of library staff may also influence the choice of robot subtype. Some telepresence robots require more technical knowledge to set up and operate than others. Libraries with staff who have more technical expertise may be able to use more advanced robots.
Patron needs: The needs of library patrons should also be taken into account when selecting a telepresence robot subtype. For example, libraries that serve a large number of patrons with disabilities may want to consider using telepresence devices that are designed specifically for accessibility.
Purpose of telepresence robot: The purpose for which the telepresence robot will be used is also a key consideration. For example, if the robot is primarily used for remote reference assistance, then a stationary or tablet-based robot may be sufficient. If the robot will be used for remote tours or to interact with patrons throughout the library, then a mobile telepresence robot may be more appropriate.
Technical features: The specific technical features of different robot subtypes should also be considered. For example, mobile telepresence robots may offer more advanced navigation capabilities or better camera quality than stationary robots. Some robots may also have features such as facial recognition or speech recognition that can enhance the interaction between library staff and patrons.
Ultimately, the choice of telepresence robot subtype will depend on the specific needs and circumstances of the library. Libraries should carefully evaluate the pros and cons of different robot subtypes and select the one that is most appropriate for their particular situation.
Benefits/advantages of telepresence robots in libraries
Telepresence, which is the use of technology to simulate physical presence in a remote location, can have several benefits in libraries, including. Freeman and Sly (2019), Kim and Rader (2018) and McGlamery (2018) buttressed this in their study. They identified some of the benefits of the use of robots in libraries. This section looks at some of the various benefits and advantages of using telepresence robots in libraries.
Increased accessibility: Telepresence technology can make library services and resources more accessible to users who cannot physically visit the library due to distance, mobility limitations or other reasons.
Cost savings: Telepresence technology can reduce the need for travel and staffing costs associated with physical meetings, training sessions and events.
Collaborative opportunities: Telepresence technology can enable librarians and library users to collaborate and communicate with colleagues, experts and other library users in remote locations, expanding the scope of library services and resources.
Improved outreach: Telepresence technology can help libraries reach a broader audience by hosting virtual events, workshops and classes that can be attended from anywhere.
Enhanced user experience: Telepresence technology can provide a more engaging and immersive user experience, particularly in remote learning and research activities, by facilitating real-time interaction and access to multimedia resources.
Personalized assistance: Telepresence robots can provide personalized assistance to library users in real-time, such as helping them locate books or resources, answering questions or providing guidance on library services.
Remote tours: Telepresence robots can provide remote tours of the library for users who cannot physically visit, giving them a sense of the library layout and resources.
Remote programming: Telepresence robots can facilitate remote programming, such as virtual storytimes, book clubs or other events that can be attended by users in a remote location.
Virtual reference services: Telepresence robots can be used for virtual reference services, enabling users to connect with librarians remotely and get help with research or other inquiries.
Expanded outreach: Telepresence robots can enable libraries to expand their outreach to remote or underserved communities, such as schools, nursing homes or rural areas, where access to library services may be limited.
Increased safety: Telepresence robots can help maintain physical distancing and reduce the risk of infection in public spaces, such as during pandemics or another health emergency.
Overall, the use of telepresence technology in libraries can help to enhance library services, reach new users and provide a more inclusive and accessible library experience. Telepresence robots can enhance the quality and accessibility of library services, expand library outreach and provide new opportunities for virtual engagement and programming.
Challenges facing application of telepresence robots in libraries
The application of telepresence robots in libraries is a relatively new and innovative concept that has the potential to transform the way libraries deliver services and interact with patrons. However, there are also several challenges that libraries may face when implementing telepresence robots (Guth and Vander, 2017). Here are some of the main challenges:
Technical issues: Telepresence robots rely on a stable internet connection to function properly, and connectivity issues can result in poor audio and video quality or cause the robot to disconnect from the network altogether. Moreover, the setup and configuration of telepresence robots can be complex, and libraries may require technical expertise to operate and maintain them.
Privacy and security concerns: Telepresence robots can collect data and record audio and video, which raises concerns about privacy and security. Libraries need to ensure that they have policies and procedures in place to protect patron privacy and data security. Additionally, libraries must consider the legal implications of recording audio and video and should ensure that they comply with relevant regulations and laws.
User acceptance: Patrons may be unfamiliar with telepresence robots and may not be comfortable using them. Some patrons may prefer face-to-face interactions with library staff, while others may find the robot’s audio or video quality to be subpar or its movement to be disorienting.
Cost: Telepresence robots can be expensive to purchase and maintain, which may pose a significant financial burden for some libraries. Additionally, libraries may need to invest in additional infrastructure, such as a stable network and hardware, to support the robots.
Integration with existing systems: Telepresence robots may need to be integrated with existing library systems, such as library catalogues and management software. This can be challenging, as libraries may need to modify their existing systems to accommodate the new technology.
Limited compatibility: Some telepresence robots may not be compatible with certain devices, such as older computers or mobile devices. This can make it difficult for patrons to use the robots and can limit their accessibility.
Summarily, while the application of telepresence robots in libraries can offer many benefits, there are also several challenges that libraries must address to ensure successful implementation. Libraries should carefully consider the challenges discussed above and develop strategies to overcome them to maximize the benefits of telepresence robots for both library staff and patrons.
Future trends in application of telepresence robots in libraries
Telepresence robots have gained increasing attention in libraries in recent years, as they offer a new way of delivering services and interacting with patrons (Kucsera and White, 2019). Here is a literature review on the future trends of using telepresence robots in libraries.
Expansion of applications: Telepresence robots are being increasingly used for remote reference services, but their potential applications are much broader. For instance, telepresence robots can be used for remote tours, to conduct virtual workshops and classes and for other types of outreach activities. In the future, telepresence robots may be used to support library programs and services beyond traditional reference assistance.
Integration with other technologies: Telepresence robots may be integrated with other emerging technologies, such as virtual and augmented reality, to provide a more immersive and engaging experience for patrons. By combining telepresence robots with other technologies, libraries can enhance the user experience and create more innovative services.
Enhanced accessibility: Telepresence robots can help libraries to better serve patrons with disabilities, as they provide an alternative means of accessing library services and resources. In the future, telepresence robots may be designed specifically for accessibility, with features such as voice recognition, touch screens and other assistive technologies.
Personalization of services: Telepresence robots can be customized to meet the specific needs of individual patrons. For instance, libraries may use telepresence robots to provide personalized tours, to assist patrons with research or to provide one-on-one consultations with librarians. As telepresence robots become more sophisticated and versatile, libraries will be able to tailor their services to individual patrons’ needs and preferences.
Collaboration and networking: Telepresence robots can be used to connect libraries with other institutions and organizations, enabling collaboration and networking opportunities. Libraries may use telepresence robots to participate in remote conferences, to collaborate with other libraries on joint projects or to connect with community organizations and groups.
Development of new business models: The use of telepresence robots in libraries may lead to the development of new business models and revenue streams. For instance, libraries may charge for remote reference services or offer premium services that are delivered via telepresence robots. Libraries may also develop partnerships with other institutions or organizations to offer joint telepresence services.
In conclusion, the future trends of using telepresence robots in libraries are exciting and varied, with new applications, technologies and business models emerging. As libraries continue to adopt telepresence robots, they will need to keep abreast of these trends to remain competitive and relevant in the evolving digital landscape.
References
Blake, R. (2017), “Telepresence robots: an innovative approach to library service”, Journal of Library Administration, Vol. 57 No. 8, pp. 832-840.
De Sarkar, T. (2023), “Implementing robotics in library services”, Library Hi Tech News, Vol. 40 No. 1, pp. 8-12.
DeLano, M. and Wilder, H. (2016), “The library is on the move: implementing a telepresence robot in a large academic library”, College & Research Libraries News, Vol. 77 No. 1, pp. 20-23.
Freeman, S. and Sly, L. (2019), “Robots in academic libraries: exploring the potential for enhancing services and spaces”, College & Research Libraries News, Vol. 80 No. 5, pp. 260-263.
Guth, L. and Vander, M.P. (2017), “Telepresence robotics in an academic library: a study of exposure and adaptation among patrons and employees”, Library Hi Tech, Vol. 35, pp. 408-420.
Kim, J.H. and Rader, H.B. (2018), “Exploring the use of telepresence robots in academic libraries”, Journal of Academic Librarianship, Vol. 44 No. 4, pp. 452-459.
Kucsera, J. and White, D.A. (2019), “Technology in libraries: telepresence robots in academic libraries”, Journal of Library & Information Services in Distance Learning, Vol. 13 Nos 1/2, pp. 60-75.
Lei, M., Clemente, I.M., Liu, H. and Bel, J. (2022), “The acceptance of telepresence robots in higher education”, International Journal of Socio Robot, Vol. 14 No. 4, pp. 1025-1042.
McGlamery, S. (2018), “How telepresence robots can enhance library services for online students”, Online Learning Journal, Vol. 22 No. 4, pp. 119-128.
Shah, C. (2019), “Telepresence robots in libraries: an exploratory study”, Journal of Electronic Resources in Medical Libraries, Vol. 16 No. 4, pp. 175-186.
Stone, G. and Hansen, P. (2018), “The new face of library reference: telepresence robots at Brigham Young University.”, Journal of Library & Information Services in Distance Learning, Vol. 12 Nos 3/4, pp. 220-227.
Waller, A. and Schweikhard, A.J. (2019), “Implementing telepresence robots in academic libraries: a survey of perceptions and experiences”, College & Research Libraries, Vol. 80 No. 4, pp. 465-481.
Further reading
Bossaller, J. and Kulp, C. (2018), “Seeing is believing: implementing a telepresence robot in an academic library”, Journal of Library Administration, Vol. 58 No. 3, pp. 223-236.
About the authors
Adeyinka Tella (tella.a@unilorin.edu.mg) is based at the Department of Library and Information Science, Faculty of Communication and Information Sciences, University of Ilorin, Ilorin, Nigeria and Department of Information Science, University of South Africa, Pretoria, South Africa.
Oluchi Precious Ogbonna (ooluchi9@gmail.com) is a staff of the Library at Adeleke University, Ede, Nigeria and Doctoral Student at the Department of Library and Information Science, Adeleke University, Ede, Nigeria.