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A Cloud-Based Blended Learning Lab for PLC Education Read chapter Read first chapter

2019 | OriginalPaper | Chapter

Using Learning Theory for Assessing Effectiveness of Laboratory Education Delivered via a Web-Based Platform

Authors : Shyam Diwakar, Rakhi Radhamani, Nijin Nizar, Dhanush Kumar, Bipin Nair, Krishnashree Achuthan

Published in: Smart Industry & Smart Education

Publisher: Springer International Publishing

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Abstract

Learning styles are defined as a characteristic feature that determines cognitive and psychosocial behavior of learners, perceiving of knowledge, interaction and processing of information in different learning environments. Applying learning style theories in pedagogic concept has brought multiple dimensions in categorizing learning strategies, although such studies on laboratory skill education are limited. Kolb’s Experiential Learning Model, has been widely accepted as an efficient pedagogical model of learning. In this paper, we explore the pedagogical basis for designing life sciences laboratory education and applying Kolb’s learning style inventory for classifying learners into different categories. In the context of bioscience laboratory education, most students learners were reflective observers or assimilators (60%) or divergers (20%) and hence seemed most apt for virtual laboratory based education due to acclivity to standard demonstrations and lectures. Only 20% were convergers or accommodators. Unlike in some engineering students, this classification suggests bioscience laboratory education may be complemented using web-based tools and will need better assessments and virtualization methods.

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previous chapter Poster: SIMNET: Simulation-Based Exercises for Computer Network Curriculum Through Gamification and Augmented Reality
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Literature
1.
Miller, P.: Learning styles: the multimedia of the mind. Research report. Learn. Styles Multimed. Mind. Res. Rep. 11 (2001)
2.
Cassidy, S.: Learning styles: an overview of theories, models, and measures. Educ. Psychol. 24, 419–444 (2004)CrossRef
3.
Miettinen, R.: The concept of experiential learning and John Dewey’s theory of reflective thought and action. Int. J. Lifelong Educ. 19, 54–72 (2000)CrossRef
4.
Kolb, D.A.: Experiential Learning: Experience as the Source of Learning and Development. Prentice-Hall, Englewood Cliffs, NJ (1984)
5.
Abdulwahed, M., Nagy, Z.K.: Towards constructivist laboratory education: case study for process control laboratory. In: 2008 38th Annual Frontiers in Education Conference, pp. S1B–9–S1B–14 (2008)
6.
Baker, M., Robinson, S., Kolb, D.: Aligning Kolb’s experiential learning theory with a comprehensive agricultural education model. J. Agric. Educ. 53, 1–16 (2012)CrossRef
7.
Kolb, A.Y., Kolb, D.A.: Experiential learning theory: a dynamic, holistic approach to management learning, education and development. Presented at the SAGE handbook of management learning, education and development (2009)
8.
Abdulwahed, M., Nagy, Z.K.: Applying Kolb’s experiential learning cycle for laboratory education. J. Eng. Educ. 98, 283–294 (2009)CrossRef
9.
Gooden, D.J., Preziosi, R.C., Barnes, F.B.: An examination of Kolb’s learning style inventory. Am. J. Bus. Educ. 2, 57–62 (2009)
10.
Lesmes-Anel, J., Robinson, G., Moody, S.: Learning preferences and learning styles: a study of Wessex general practice registrars. Br. J. Gen. Pract. 51, 559–564 (2001)
11.
Peyman, H., Sadeghifar, J., Khajavikhan, J., Yasemi, M., Rasool, M., Yaghoubi, M.Y., Mohammad Hassan Nahal, M., Karim, H.: Using VARK approach for assessing preferred learning styles of first year medical sciences students: a survey from Iran. J. Clin. Diagnostic Res. 8, 1–4 (2014)CrossRef
12.
Seidel, L.E., England, E.M.: Gregorc’s cognitive styles: preferences for instructional and assessment techniques in college students. Annu. Conv. Am. Psychol. Soc. 1997 (1997)
13.
Uzun, A., Goktalay, S.B., Öncü, S., Şentürk, A.: Analyzing learning styles of students to improve educational practices for computer literacy course. Procedia Soc. Behav. Sci. 46, 4125–4129 (2012)CrossRef
14.
Nedungadi, P., Haridas, M., Raman, R.: Blending concept maps with online labs (OLabs): case study with biological science. In: ACM International Conference Proceeding Series, 10–13 August, pp. 186–190 (2015)
15.
Achuthan, K., Francis, P., Diwakar, S.: Augmented reflective learning and knowledge retention perceived among students in classrooms involving virtual laboratories. Educ. Inf. Technol. 22(6), 2825–2855 (2017)CrossRef
16.
El-Sabagh, H.: The impact of a web-based virtual lab on the development of students’ conceptual understanding and science process skills (2011)
17.
Narciss, S., Proske, A., Koerndle, H.: Promoting self-regulated learning in web-based learning environments. Comput. Human Behav. 23, 1126–1144 (2007)CrossRef
18.
Mitra, S., Dangwal, R.: Limits to self-organising systems of learning—the Kalikuppam experiment. Br. J. Educ. Technol. 41, 672–688 (2010)CrossRef
19.
Konak, A., Clark, T.K., Nasereddin, M.: Using Kolb’s experiential learning cycle to improve student learning in virtual computer laboratories. Comput. Educ. 72, 11–22 (2014)CrossRef
20.
Diwakar, S., Radhamani, R., Sujatha, G., Sasidharakurup, H., Shekhar, A., Achuthan, K., Nedungadi, P., Raman, R., Nair, B.: Usage and diffusion of biotechnology virtual labs for enhancing university education in India’s urban and rural areas. In: E-Learning as a Socio-Cultural System: A Multidimensional Analysis, pp. 63–83 (2014)
21.
Radhamani, R., Sasidharakurup, H., Kumar, D., Nizar, N., Nair, B., Achuthan, K., Diwakar, S.: Explicit interactions by users form a critical element in virtual labs aiding enhanced education—a case study from biotechnology virtual labs. In: 2014 IEEE Sixth International Conference on Technology for Education, pp. 110–115. IEEE (2014)
22.
Diwakar, S., Radhamani, R., Sasidharakurup, H., Kumar, D., Nizar, N., Achuthan, K., Nair, B.: Assessing students and teachers experience on simulation and remote biotechnology virtual labs: a case study with a light microscopy experiment. In: Vincenti, G., Bucciero, A., Vaz de Carvalho, C. (eds.) 2nd International Conference on e-Learning e-Education and Online Training (eLEOT 2015), pp. 44–51. Springer International Publishing, Novedrate, Italy (2016)
23.
Sharlanova, V.: Experiential learning. Trakia J. Sci. 2, 36–39 (2004)
24.
Lin, S.-C., Lin, Y.-Y., Lin, J.-Y., Cheng, C.-J.: A study of Kolb learning style on experiential learning. In: Third International Conference on Education Technology and Training, Wuhan, China, pp. 299–302 (2012)
25.
Raman, R., Nedungadi, P., Achuthan, K., Diwakar, S.: Integrating collaboration and accessibility for deploying virtual labs using VLCAP. Int. Trans. J. Eng. Manag. Appl. Sci. Technol. 2, 547–560 (2011)
Metadata
Title
Using Learning Theory for Assessing Effectiveness of Laboratory Education Delivered via a Web-Based Platform
Authors
Shyam Diwakar
Rakhi Radhamani
Nijin Nizar
Dhanush Kumar
Bipin Nair
Krishnashree Achuthan
Copyright Year
2019
Book
Smart Industry & Smart Education

Print ISBN: 978-3-319-95677-0

Electronic ISBN: 978-3-319-95678-7

Copyright Year: 2019

DOI
https://doi.org/10.1007/978-3-319-95678-7_70

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