Session 4 (Week 7&8): eLearning Practices in Higher Education

Microteaching was introduced into teacher education during the 1960s at Stanford University, with the aim of helping preservice teachers develop teaching skills in a safe environment (Grossman, 2009). Micro learning is adjustable and advantageous because it is recyclable. Micro learning can be agreed as a process of subsequent ‘short’ learning activities (i.e. learning through interaction with micro-content objects in small time-frames). Mostly, it means teaching a small group of peers for a relatively short period of 5 to 15 minutes and then giving and taking feedback on the performances. Micro learning in this context means the microteaching experience as a learning experience and an effective method of learning for students. We can learn a lot from the experience related to this field, but it would be a big mistake to reduce the question of micro learning to the questions of formal education, teacher training or pedagogical discourse horizons (Paduri et al., 2017).

The influence of Information and Communication Technology (ICT) is becoming increasingly effective in teaching and learning at all the levels of education. Micro learning is enjoying a rapid growth and importance among the changing management and learning professionals. Learning is a comprehension of how the human mind is wired to adapting as opposed to an approach or a framework. It is one of the best and most regular methodologies for the 21^st century learners. Smaller scale learning is also fascinating because of its method for instructing and taking in the substance in a little, particular burst.

                                                          

Difference between Microteaching and Traditional Teaching

The traditional teaching emphasizes on the transmission of factual knowledge and hence, the teachers are the main source of information. The teaching objectives have now shifted to the student centered, measurable, achievable, relevant, and timely concept (Paduri et al., 2017). Microteaching allows learning each skill to the maximum extent as there is a chance of listening, observing, and practicing. Microteaching along with technology (i.e. video, pictures, schematic diagram etc.) would develop a systematic and accurate method of giving feedback to the teacher trainee.

                                     Functions of a student in Micro Teaching (Paduri et al., 2017)

Integration of Microteaching in Science (my) Subject

Micro teaching is a widely accepted technique adopted and approved by various institutions. It is an advanced form of learning however; it does have its own limitation. When it comes to teaching a diverse level of students at once, it becomes a hassle. During the training, the strength of the students is limited however when the strength of students is increased it seems like a problem. This program manages to keep the teachers away from real classroom problems. As a result, trainees struggle in maintaining classroom behaviour. Moreover, the artificial situation does not help in preparing teachers for the real-time situation.

For example, my course BI408 Advanced Environmental Microbiology is a postgraduate course offered face-to-face mode at Laucala campus. This is a technical course, gaining real-time skills on environmental microbiology through project based, research data analysis, presentation and report writing and encouraging research paper drafting. The assessment of this course will totally be internal which includes one Internal written examination 30%, In-class Participation (10%), News and Views (5%) and 55% (15% - Research Proposal & Literature Review; 30% - Final Project Report and 10% - Oral Presentation) project work (research proposal, literature review, execution of advanced microbiology based projects of about 9 weeks’ work, presentation and report submission). This course cannot be offered in ‘online mode’, it may be offered in ‘Blended mode’. A total of 55% assessments of this course involves in real-time situation (hands-on-skills based) which can’t be simulated with artificial situation.Please see above my Micro LED Video.

E-Assessment

E-assessment has enhanced the measurement of learner outcomes and made it possible for them to obtain immediate and direct feedback (Gilbert et al., 2011). It is essential to create a system to assess students, which take into account the educational goals and help students to develop their skills which will be a useful for the society for long-term (Ridgway et al., 2004). E-assessment can have different forms such as, automatic administrative procedures, digitizing paper-based systems and online testing that includes multiple choice tests and assessment of problem solving skills (Ridgway et al. 2004).

Assessment of student learning is an essential part of instruction. Learning science is something students do, not something that is done to them (National Research Council, 1996). Students should develop an understanding of what science is, what science is not, what science can and cannot do, and how science contributes to culture. Therefore, the assessment has to be properly constructed. E-assessment is a rapidly emerging and valuable tool in Higher Education for many reasons. It has enormous prospective benefits for students in terms of learning and retention of material as well as increasing their engagement with their chosen topic. E-assessment offers many advantages over traditional pen and paper exams (Teame, 2020). However, applying E-assessment in science and technology has challenges and advantages as well (Shute et al. 2016). Therefore, I would like to do research on “E-Assessment: Challenges and Effective Practices in Science Education” for my ED403 case study. In which I believe I can summarize the advantages of digital age assessment in science and their disadvantages. Here I would also share my experience in E-assessment of my science courses have been teaching at USP. According to University of Monash, Australia E-assessment benefits students in many ways such as word processing functions, enabling authentic assessment, preference for tech over paper, supports emerging tech and innovation for assessment, LMS for formative and summative and engaging and creative questions. It is also advantageous to instructors in many aspects like a wider array of engaging question types that reflect real world scenarios (i.e. multimedia), innovative functionality (i.e. accessing authorised internet sites, free hand drawing), knowledge management - Item bank, eliminates illegible responses, auto marking and soon after the exam has finished - no need to wait for paper batching and enhanced insights.

Reference

Gilbert L., Whitelock D. and Gale V. (2011). Synthesis report on assessment and feedback with technology enhancement, Southampton.  

Grossman, P. (2009). Studying teacher education, the report of the AERA panel on research and teacher education: Research on pedagogical approaches in teacher education. Mahwah, NJ: Lawrence Erlbaum Associates.

http://www.teame.ie/benefits-of-e-assessment/ retrieved on 30 April 2020.

Hug, T. (2005). Micro learning and narration: exploring possibilities of utilization of narrations and storytelling for the design of “micro units” and didactical micro-learning arrangements. Proceedings of Media in Transition.

National Research Council. (1996). National Science Education Standards. Washington, DC: The National Academies Press. https://doi.org/10.17226/4962.

Paduri, V., Suresh, N. and Hashiyana, V. (2017). Micro learning and microteaching strategy pragmatic to tertiary institutions using smart devices. Proceedings International Conference on Researches in Science and Technology, pp 46-53.

Ridgway J., McCusker S. and Pead D. (2004). Literature review of e-assessment, Bristol.

Shutea ,V.J., Leighton, J.P., Jang, E.E. and Chu M.W. (2016). Advances in the Science of Assessment. Educational Assessment 21: 34-59.