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García-Murillo, G.; Novoa-Hernández, P.; Serrano Rodríguez, R. Technological Acceptance of Moodle by Higher Education Faculty. Encyclopedia. Available online: https://encyclopedia.pub/entry/44880 (accessed on 16 November 2024).
García-Murillo G, Novoa-Hernández P, Serrano Rodríguez R. Technological Acceptance of Moodle by Higher Education Faculty. Encyclopedia. Available at: https://encyclopedia.pub/entry/44880. Accessed November 16, 2024.
García-Murillo, Gabriel, Pavel Novoa-Hernández, Rocío Serrano Rodríguez. "Technological Acceptance of Moodle by Higher Education Faculty" Encyclopedia, https://encyclopedia.pub/entry/44880 (accessed November 16, 2024).
García-Murillo, G., Novoa-Hernández, P., & Serrano Rodríguez, R. (2023, May 26). Technological Acceptance of Moodle by Higher Education Faculty. In Encyclopedia. https://encyclopedia.pub/entry/44880
García-Murillo, Gabriel, et al. "Technological Acceptance of Moodle by Higher Education Faculty." Encyclopedia. Web. 26 May, 2023.
Technological Acceptance of Moodle by Higher Education Faculty
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Moodle is an open-source learning management system that is widely used today, especially in higher education settings. Although its technological acceptance by undergraduate students has been extensively studied in the past, very little is known about its acceptance by university professors.

Moodle learning management systems higher education academic staff

1. Introduction

The impact of information and communication technologies (ICT) on society at the present time is undeniable [1]. In education, ICT has contributed to the exploration of new ways of teaching and learning, which have proven particularly effective in an increasingly connected and globalized world [2][3]. Most of these approaches, such as learning management systems (LMS), are based on software tools that enhance and manage learning [4].
As in other software families, LMSs offer both paid and free alternatives. Blackboard (www.blackboard.com) and Desire2Learn (www.d2l.com) are popular examples of the first group, while Moodle (www.moodle.org) and Claroline (www.claroline.net) are considerably popular examples of the second. Moodle, originally created in 2001 and currently on version 3.11, has not only significantly fulfilled its initial purpose (i.e., to enable the efficient management of online learning) but has also created an online collaboration community that allows the concept of LMS to evolve, while taking into account the most consumed learning approaches and technologies in society [5].
Distributed under the GNU General Public License (as published by the Free Software Foundation) [6], Moodle is undoubtedly one of the most widely used LMSs today [7]. According to the statistics reported by stats.moodle.org, more than 200 million users from 244 countries use Moodle. Much of this popularity is owing to the fact that it is open-source, and can therefore be adapted to the most diverse of scenarios [8].
Although LMSs, particularly Moodle, have been extensively studied in the field of technological acceptance [9][10][11], several issues remain, such as technological acceptance by university teachers. According to García-Murillo et al. [12], despite a considerable number of publications pertaining to university students, including preservice teachers, faculty members remain understudied. This perception is consistent with [13], who found that the more actively educators use Moodle, the more actively students tend to use it too. More active use by students effectively translates into meaningful learning [14].

2. Technological Acceptance of Moodle by Higher Education Faculty

The acceptance of information systems has been extensively studied in the past under technology acceptance models [15]. Several approaches have been employed, beginning with the seminal work of Davis [16] with the very popular technology acceptance model (TAM), which is based on the theory of planned behavior (TPB) by Ajzen [17]. Consequently, the actual system use (ASU) is conceived here as a behavior, while the perceived ease of use (PEU), perceived usefulness (PU), and attitude toward use (ATU) are the determinants of such a behavior [16]. More specifically, this model states that the user’s attitude toward the system is crucial in determining whether or not the user will actually employ the system. PU is conceived as the degree to which an individual believes that using that technological system will improve his or her performance, while PEU is defined as the degree to which the individual believes that using that particular technological system does not require extra effort or skills. TAM assumes that both beliefs are directly influenced by the design characteristics of the system and external variables. In further refinements of TAM, the behavioral intention (BI) to use was considered a determining factor of ASU and, at the same time, a dependent factor of ATU [18]. Later, in [19], it was found that both PU and PEU have direct effects on BI, and it was therefore not necessary to rely on ATU. TAM2 Venkatesh and Davis [20] and TAM3 [21] are two other important extensions of the original TAM. They involve external variables that aim to explain the user’s PU and PEU. Such variables were grouped into the following four categories [21]: individual differences, system characteristics, social influence, and facilitating conditions.
Regardless of the significant impact of TAM—the theory of technological acceptance—some authors proposed other alternatives. Perhaps the most popular is the unified theory of acceptance and use of technology (UTAUT), proposed by Venkatesh et al. [22]. Following a different approach than TAM2 and TAM3, UTAUT replaces PU and PEU with four determinants: performance expectancy (PE), effort expectancy (EE), social influence (SI), and facility conditions (FC). Thus, these new determinants are expected to explain BI, which, in turn, should determine the use behavior (UB). UTAUT also hypothesizes that most of these relationships are moderated by the users’ age (AGE), gender (GDR), experience (EXP), and voluntariness of use (VOL). UTAUT was updated by Venkatesh et al. [23] to the proposed model known as UTAUT2. The authors added the three following new determinants for BI: hedonic motivation (HM), price value (PV), and habit (HT). It should be noted that in UTAUT2, the variable VOL was excluded as a moderator of the relationships predicting BI, while AGE, GDR, and EXP were maintained as moderating variables (including the variables formed from the second- and third-order interactions between them). More details on the specific definition of each construct included in UTAUT and UTAUT2.
As recently shown by Murillo et al. [10], García-Murillo et al. [12], Moodle acceptance has been the focus of several studies over the past 15 years. Most of these studies were oriented to characterize the technological acceptance of university students from Europe or Asia and to employ TAM as the base model. In the specific case of academic staff, the few available experiences reported good levels of acceptance of Moodle in general [11][24].
For instance, Costa et al. [25] reported that 96 professors of the University of Aveiro in Portugal accepted Moodle despite not being familiar with the MOOC concept [26]. This study also found only a few significant differences among the respondents’ gender, knowledge area, and age. Social influence (SI) was found to be a determinant of PU but not of PEU. Moreover, the authors confirmed the significant effects of PU and PEU on ATU. Taking into account the gender of the respondents, the fitted model shows that PEU had no significant effects on PU in the case of male participants, while it did in the case of females. Similarly, for respondents related to social science and humanities, PEU was a significant determinant of PU, while for the rest of the knowledge areas, it was not.
In the same line, but relying on a modified UTAUT model, Islam [27] explored the determinants of the professors’ continuing intention of using Moodle. He found that it is explained by PU and access (A), while PU is predicted by PEU and compatibility (C). Overall, 70% of the continuance intention is explained by the six variables considered. The study was based on 175 college professors from a Finnish university.
The perceptions of the professors toward Moodle were evaluated by Baytiyeh [28] using the UTAUT model. To this end, data coming from 189 respondents at a Lebanese university were analyzed following exploratory factor analysis [29] and a multiple regression approach [30]. The first analysis enabled the identification of the following five factors: community influence (CI), satisfaction (S), service quality (SQ), learnability (L), and technical quality (TQ). The second one showed that these five factors significantly influence system use (SU), which was assumed to be the core variable related to the technological acceptance of Moodle.
Motivated to explore whether students’ perceptions of learning technologies are different from those of professors, North-Samardzic and Jiang [31] relied on the UTAUT model. Overall, some similarities and differences were identified. In the case of professors, it was found that EE was the most important factor to explain BI. However, FC did not influence UB, while Age had a direct effect on UB as a moderator. Due to the lower number of accepted hypotheses, the authors suggested that UTAUT, at least in its original form, may not be the right model to study technology acceptance in higher education settings. This study based its findings on a sample size of 89 professors at an Australian university.
Another interesting study was conducted by Zwain [32], in which UTAUT2 was expanded by considering two new predictors. The first, technological innovativeness (TI), aims to measure the degree of readiness in using a new technology [33], while the second, information quality (IQ), is devoted to capturing the perceived quality of the information provided by the system [34]. Another important modification made to the original model was the employment of learning value (LV) as a more realistic alternative to price value [35]. The rationale behind this modification stems from the fact that Moodle is an open-source software, and hence, the final users are not expected to perceive any economic benefits from it. Since these final users come from educational settings, Ain et al. [35] suggested replacing PV with LV. A structural equation modeling (SEM) approach was adopted in the study using 228 responses from professors at the University of Kufa, Iraq. As a result, the author found that SI, FC, HM, HT, TI, and IQ significantly determine Moodle’s acceptance in terms of BI and UB. More recently, Karkar et al. [36] adopted a data mining approach to highlight the major challenges while adopting Moodle in the same university. The authors found from 242 professors that they find social media platforms easier to use than Moodle.
The attitudes of 199 B-school professors from India were analyzed by Kushwaha et al. [37] using TAM as the underlying theory. Here, both PEU and PU were identified as significant predictors of ATU, while certain demographic features, such as home city, gender, and age, were highlighted as significant moderators of some of these relationships.
Regardless of the progress made by the studies discussed above, it is clear that much more work remains to be carried out to understand how academic staff accept Moodle. As a general pattern, it can be observed that the reported experiences are scarce and heterogeneous in both results and models tested. Moreover, they are generally based on a few single-institution respondents and are carried out in specific regions (e.g., Asia or Europe). Another characteristic of these studies is that the predominant base model has been UTAUT (including its most recent extension, UTAUT2).

References

  1. Fernández-Portillo, A.; Almodóvar-González, M.; Hernández-Mogollón, R. Impact of ICT development on economic growth. A study of OECD European union countries. Technol. Soc. 2020, 63, 101420.
  2. Buzzard, C.; Crittenden, V.L.; Crittenden, W.F.; McCarty, P. The use of digital technologies in the classroom: A teaching and learning perspective. J. Mark. Educ. 2011, 33, 131–139.
  3. Martin, F.G. Education will massive open online courses change how we teach. Commun. ACM 2012, 55, 26–28.
  4. Coates, H.; James, R.; Baldwin, G. A critical examination of the effects of learning management systems on university teaching and learning. Tert. Educ. Manag. 2005, 11, 19–36.
  5. Khan, R.A.; Qudrat-Ullah, H. Learning Management Systems. In Adoption of LMS in Higher Educational Institutions of the Middle East; Springer International Publishing: Cham, Switzerland, 2020; pp. 13–17.
  6. Ballhausen, M. Free and open source software licenses explained. Computer 2019, 52, 82–86.
  7. Hill, P. Academic LMS Market Share: A View across Four Global Regions. 2017. Available online: https://eliterate.us/academic-lms-market-share-view-across-four-global-regions/ (accessed on 10 July 2022).
  8. Vagale, V.; Niedrite, L.; Ignatjeva, S. Implementation of personalized adaptive e-learning system. Balt. J. Mod. Comput. 2020, 8, 293–310.
  9. Escobar-Rodriguez, T.; Monge-Lozano, P. The acceptance of Moodle technology by business administration students. Comput. Educ. 2012, 58, 1085–1093.
  10. Murillo, G.G.; Novoa-Hernández, P.; Rodríguez, R.S. Technology Acceptance Model and Moodle: A systematic mapping study. Inf. Dev. 2020, 37, 617–632.
  11. Garcia-Murillo, G.; Novoa-Hernandez, P.; Rodriguez, R.S. Technological Satisfaction about Moodle in Higher Education—A Meta-Analysis. Rev. Iberoam. De Tecnol. Del Aprendiz. 2020, 15, 281–290.
  12. García-Murillo, G.; Novoa-Hernández, P.; Serrano Rodriǵuez, R. Technological acceptance of Moodle through latent variable modeling—A systematic mapping study. Interact. Learn. Environ. 2023, 31, 1764–1780.
  13. Wang, Y.H.; Tseng, Y.H.; Chang, C.C. Comparison of students’ perception of Moodle in a Taiwan university against students in a Portuguese university. In Advances in Web-Based Learning – ICWL 2013; Wang, J.F., Lau, R., Eds.; Lecture Notes in Computer Science; Springer: Berlin/Heidelberg, Germany, 2013; Volume 8167, pp. 71–78.
  14. Gunawan, G.; Harjono, A.; Suranti, N.M.; Herayanti, L.; Imran, I. The impact of learning management system implementation on students’ understanding of mechanics concepts. J. Phys. Conf. Ser. 2021, 1747.
  15. Marangunić, N.; Granić, A. Technology acceptance model: A literature review from 1986 to 2013. Univers. Access Inf. Soc. 2015, 14, 81–95.
  16. Davis, F.D. A Technology Acceptance Model for Empirically Testing New End-User Information Systems: Theory and Results. Ph.D. Thesis, Massachusetts Institute of Technology, Cambridge, MA, USA, 1986.
  17. Ajzen, I. From Intentions to Actions: A Theory of Planned Behavior. In Action Control; Springer: Berlin/Heidelberg, Germany, 1985; pp. 11–39.
  18. Davis, F.D.; Bagozzi, R.P.; Warshaw, P.R. User Acceptance Of Computer Technology: A Comparison of Two Theoretical Models. Manag. Sci. 1989, 35, 982–1003.
  19. Venkatesh, V.; Davis, F.D. A Model of the Antecedents of Perceived Ease of Use: Development and Test. Decis. Sci. 1996, 27, 451–481.
  20. Venkatesh, V.; Davis, F.D. Theoretical extension of the Technology Acceptance Model: Four longitudinal field studies. Manag. Sci. 2000, 46, 186–204.
  21. Venkatesh, V.; Bala, H. Technology acceptance model 3 and a research agenda on interventions. Decis. Sci. 2008, 39, 273–315.
  22. Venkatesh, V.; Morris, M.G.; Davis, G.B.; Davis, F.D. User acceptance of information technology: Toward a unified view. MIS Q Manag. Inf. Syst. 2003, 27, 425–478.
  23. Venkatesh, V.; Thong, J.Y.; Xu, X. Consumer acceptance and use of information technology: Extending the unified theory of acceptance and use of technology. MIS Q Manag. Inf. Syst. 2012, 36, 157–178.
  24. García Murillo, G.R.; Novoa-Hernández, P.; Rodríguez, R.S.R.S. Usability in moodle: A meta-analysis from experiences reported in WOS and scopus. RISTI-Rev. Iber. De Sist. E Tecnol. De Inf. 2019, 2019, 108–121.
  25. Costa, C.; Alvelos, H.; Teixeira, L. Investigating the use and acceptance of technologies by professors in a higher education institution. Int. J. Online Pedagog. Course Des. 2019, 9, 1–20.
  26. Sinclair, J.; Boyatt, R.; Rocks, C.; Joy, M. Massive open online courses: A review of usage and evaluation. Int. J. Learn. Technol. 2015, 10, 71–93.
  27. Islam, A.N. Understanding the Continued Usage Intention of Educators toward an e-Learning System. Int. J. E-Adopt. 2011, 3, 54–69.
  28. Baytiyeh, H. Perceptions of Professors and Students towards Moodle. In Exploring the New Era of Technology-Infused Education; IGI Global: Hershey, PA, USA, 2017; pp. 206–229.
  29. Finch, W. Exploratory Factor Analysis; Quantitative Applications in the Social Sciences; SAGE Publications: Washington, DC, USA, 2019; p. 144.
  30. Keith, T.Z. Multiple Regression and Beyond: An Introduction to Multiple Regression and Structural Equation Modeling, 3rd ed.; Routledge: New York, NY, USA, 2019.
  31. North-Samardzic, A.; Jiang, B. Acceptance and use of Moodle by students and academics. In Proceedings of the 2015 Americas Conference on Information Systems, AMCIS 2015, Fajardo, PR, USA, 13–15 August 2015.
  32. Zwain, A.A.A. Technological innovativeness and information quality as neoteric predictors of users’ acceptance of learning management system: An expansion of UTAUT2. Interact. Technol. Smart Educ. 2019, 16, 239–254.
  33. Ngafeeson, M.N.; Sun, J. The effects of technology innovativeness and system exposure on student acceptance of e-textbooks. J. Inf. Technol. Educ. 2015, 14, 55–71.
  34. Roca, J.C.; Chiu, C.M.; Martínez, F.J. Understanding e-learning continuance intention: An extension of the Technology Acceptance Model. Int. J. Hum. Comput. Stud. 2006, 64, 683–696.
  35. Ain, N.U.; Kaur, K.; Waheed, M. The influence of learning value on learning management system use: An extension of UTAUT2. Inf. Dev. 2015, 32, 1306–1321.
  36. Karkar, A.J.; Fatlawi, H.K.; Al-Jobouri, A.A. Highlighting e-learning adoption challenges using data analysis techniques: University of Kufa as a case study. Electron. J. E-Learn. 2020, 18, 136–149.
  37. Kushwaha, P.S.; Mahajan, R.; Attri, R.; Misra, R. Study of attitude of B-school faculty for learning management system implementation an indian case study. Int. J. Distance Educ. Technol. 2020, 18, 52–72.
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