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Citation: Research in Learning Technology 2023, 31: 2821 - http://dx.doi.org/10.25304/rlt.v31.2821

Research in Learning Technology  
Vol. 30, 2022

ORIGINAL RESEARCH ARTICLE

Emergency remote CAD teaching using licensed software in apparel 
during the COVID-19 pandemic: a collaborative learning approach

Ranapanada Kelum Jayamali De Silvaa* and Anuradha Peramunugamageb

aDepartment of Textile and Apparel Engineering, University of Moratuwa, Moratuwa, 

Sri Lanka; bDepartment of Electrical and Computer Engineering, The Open University 

of Sri Lanka, Nugegoda, Sri Lanka

(Received: 9 June 2022; Revised: 12 November 2022; Accepted: 18 November 2022; 

Published: 9 February 2023)

Computer-Aided Design (CAD) training has become essential in apparel educa-
tion as it is widely applied in design and development activities in the industry. This 
study presents how physical CAD teaching converted to remote delivery during the 
emergency COVID-19 pandemic using online technologies. This study evaluated 
five distinct methods adopted in this period: online Zoom sessions, pre-recorded 
practical demonstrations, guided hand-outs, online collaborative learning meth-
ods and forum discussions using Moodle. TeamViewer application was utilised 
for real-time remote access and support during teaching. This study instrumented 
two online questionnaires intended to assess the effectiveness of  online hands-on 
sessions and collaborative learning in a remote online environment. This study 
was conducted with 58 participants at a recognised Sri Lankan state university. 
More importantly, the results confirmed the feasibility of  collaborative engage-
ment within the online learning environment. This study discovered students’ pref-
erences for synchronous teaching and learning approaches. Also, it revealed the 
limitations of  remote CAD teaching using online technologies. Finally, this study 
underlined the success of  the collaborative learning approach and students’ per-
spectives on flipped classroom model for apparel CAD training.

Keywords: apparel industry; CAD teaching; COVID-19; emergency remote teach-
ing; online collaborative learning

Introduction

The COVID-19 pandemic hampered most educational programs, especially prac-
tical courses (Hoofman and Secord 2021). Educators and learners swiftly adapted 
their work to online educational platforms in this emergency. Although the apparel 
industry uses Computer-Aided Design (CAD) technologies in product development 
activities, the industry had to entirely depend on the virtual sampling process to 
receive customer feedback during the COVID-19 pandemic. In addition, virtual 
sampling can effectively employ in emerging mass-personalised apparel businesses 

mailto:jayamalide@uom.lk
http://www.alt.ac.uk/
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(Uduwela, De Silva, and Rupasinghe 2020). Therefore, skilled CAD professionals 
are highly demanded in the apparel business.

Researchers in the field of  education tested various instructional strategies for 
teaching CAD (Covill, Katz, and Morris 2008; Dosen et  al. 2012; Kanetaki et  al. 
2020, 2021; Lee 2021; Vargas et  al. 2019). For example, project-based learning was 
tested by Sola-Guirado, Guerrero-Vacas and Rodríguez-Alabanda (2022) in a dis-
tance mode for engineering students. Students in mechanical engineering were taught 
CAD using both MS Teams and Moodle, whilst Pieta (2009) used blended instruction 
in CAD for secondary education. Lee (2021) stated the feasibility of  creating an effi-
cient e-learning environment for fashion CAD education, where students could learn 
concepts and achieve academic competence without face-to-face instructions. This 
paper compares different Teaching, Learning & Assessment (TLA) methods in emer-
gency remote teaching and suggests the most appropriate delivery of  practical-based 
courses, where hands-on experience is needed.

Typically, students do not have opportunities to attend collaborative learning 
activities in online classes (Scott et al. 2018). Therefore, this paper highlights the appli-
cation of  collaborative learning in the online distance learning environment. Overall, 
this study evaluates the effectiveness of  remote and online TLA for a licensed apparel 
CAD and shows the limitations of  these methods in developing countries. Follow-
ing techniques were started to instruct the students during the pandemic across the 
world: learning management systems (LMS), video conferencing software, broadcast 
technologies (TV and radio programmes), YouTube videos, virtual classrooms/labs 
and simulators (Bates 2015; Hayashi et al. 2020; Kanetaki et al. 2020, 2021; Keengwe 
2008; Khalil et al. 2020).

All educational institutes in Sri Lanka were closed due to the COVID-19 pan-
demic in March 2020. Even though academic institutions switched to online delivery, 
it was not easy to conduct practical sessions (Bhutta et al. 2020; Hayashi et al. 2020; 
Khalil et al. 2020). Practical sessions are essential in apparel engineering education; 
therefore, alternative methods to conduct practical sessions were demanded. The 
lack of  digital infrastructure in the country has made the transition to online remote 
learning mode difficult during the pandemic. However, Moodle LMS and Zoom 
were the tools our institution used; therefore, this study also used the same tools.

The research objectives of  this study were as follows: (1) to evaluate the effective-
ness of  Moodle LMS, (2) to analyse the most effective learning approach of  apparel 
CAD perceived by the students, (3) to measure the effectiveness of  the online assess-
ment strategy, (4) to identify limitations of  online CAD learning and (5) to review 
online collaborative learning (OCL) using Moodle wiki tool, in emergency remote 
CAD teaching during COVID-19 pandemic.

Distance learning and teaching
Distance learning is also known as e-learning or online learning. There is a physical 
separation between teachers and students during instruction, and various technolo-
gies facilitate teacher–student communication (Bates 2015). Synchronous and asyn-
chronous are the two modes used in distance learning design. Different technologies 
such as teleconferencing, interactive webinars, chat-based online discussions and 
phone calls are used in the synchronous approach. Asynchronous refers to online 
courses with weekly deadlines (Bates 2015). Students can access course content out-
side scheduled meetings or classes and participate in online discussions, quizzes or 

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video comments. Online forums, wikis, audio and video recordings are common tools 
used in asynchronous distance learning (Littlefield 2020). Including both asynchro-
nous and synchronous online teaching provides more equitable opportunities for 
those who cannot access face-to-face instruction (Peimani and Kamalipour 2021). 
In asynchronous mode, the student is self-directed and can access the materials 
when needed. LMS provides complete flexibility for asynchronous communication 
and self-directed learning opportunities (Deepak 2017; Ferreira De Farias,  Spanhol, 
and Vieira De Souza 2016; Garcia-Robles et al. 2009; Shylesh 2017). However, the 
main drawback of  e-learning is that it provides only theoretical and restricts the 
application of  practical skills (Maatuk et al. 2021). Currently, academic institutions 
are blending and adapting their teaching methods (Affairs 2020; World Bank 2020), 
such as intelligent tutoring systems, artificial intelligence, pre-determined learning 
outcomes, problem-based learning and instructional design approaches to achieve 
learning objectives irrespective of  environmental conditions.

The ability of  students to connect socially with one another and their choice of  
communication methods is critical to the effectiveness of  online course delivery. There-
fore, the learning environment must foster a feeling of  belongingness; consequently, 
students may develop the necessary skills for constructive interaction with each other 
(Bender and Vredevoogd 2006). Institutions will increasingly rely on dynamic video 
rather than talking heads for demonstrations, simulations and animations, amongst 
other purposes. Simon Fraser University has defined experiential learning as the stra-
tegic and active engagement of  students to learn by doing and reflecting on those 
activities, which empowers them to apply their theoretical knowledge to practical 
endeavours in a multitude of  settings inside and outside the classroom (Beairsto, 
Neufeld, and Chinnery 2017). 

The collaborative learning environment and Moodle LMS
OCL is an educational paradigm that promotes and facilitates student collabora-
tion. LMSs have been widely utilised at all levels of  education for decades, and 
Moodle is one of  the most used Open-Source platforms internationally (Kerimba-
yev et  al. 2017). Moodle’s group activities and forums have facilitated collabora-
tion and communication between students and instructors in an online or hybrid 
learning environment. Moodle wikis enables students to explore topics and create 
content collaboratively, and it is an excellent collaborative writing and learning tool, 
which facilitates creating, editing and commenting on assigned tasks (Bold 2006; 
Greenhow, Robelia, and Hughes 2009; Lund and Smrdal 2006). Likewise, Moodle 
features allow course designers to embed and promote interactions between instruc-
tors and students.

According to Costa, Alvelos and Teixeira (2012), Moodle is primarily used to 
store materials and information, therefore no generalised evidence of  a change in 
pedagogical practice. It also discovered that Moodle’s collaborative tools were rarely 
used due to a lack of  awareness. Especially, Forum or wiki activity enables students to 
contribute according to their convenience and their own pace. During a live session, 
students can use Moodle’s Chat feature. Furthermore, the students can use Moodle’s 
workshop activity to collect, review and peer-assessment of  learning tasks. Students 
grade their peers’ positions using a multi-criteria form (Jabbar and Hasmy 2020; Kasi-
matis et al. 2010). Therefore, this study includes the application of  OCL in this emer-
gency remote learning environment.

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Background of this study

This study used 58 third-year students in a Textile and Apparel degree program at a 
Sri Lankan University. This student group learned manual pattern making during 
their first year at the university.

The students joined from all nine provinces of  the country, and the average atten-
dance for the online classes was 98%. All the sessions were conducted remotely and 
online during this COVID-19 pandemic. TeamViewer software was utilised for real-
time remote access to the licensed CAD software, and the Zoom platform was used to 
host the online sessions where all the students connect with the teacher. Also, Moodle 
LMS created the learning environment for entire communication.

Four practical assignments were completed individually during the semester, and 
the duration of  each assignment was 1 hour. Practical assignments of  this apparel 
CAD course were mainly designed to (1) create patterns to the given garment spec-
ification using the licensed CAD software, (2) validate the garment measurements 
using the pattern measurements, (3) modify the pattern drafts and develop patterns to 
achieve required styling, (4) perform marker making and marker planning to calculate 
the fabric consumption and (5) to generate the required number of  markers to process 
the production order.

Course activities have been redesigned during the pandemic to achieve the above 
learning objectives. A collaborative group assignment was conducted using Moodle 
wiki to explore current trends and future developments in apparel CAD applica-
tions. Since it was the students’ first online collaborative effort, the course coordina-
tor trained and motivated students. Groups of  five students were formed, and they 
contributed to the wiki assignment over 6 weeks. Table 1 shows how this apparel 
CAD course was delivered remotely before the COVID-19 pandemic and during this 
emergency.

Table 1. The apparel CAD delivery before COVID-19 and during the COVID-19.

TLA
The delivery methods before 
COVID-19

The delivery methods during 
COVID-19

Teaching, assess-
ment and feedback

Face-to-face instructions using 
PowerPoint presentations, software 
demonstrations using a multimedia 
projector and seminars conducted 
by solution providers in Sri Lanka.

Online delivery using Zoom, 
access to licensed CAD software 
using TeamViewer and forum dis-
cussion published in Moodle.

Learn and practice Face-to-face using the lecturer’s 
instructions. Peer-assisted learn-
ing during open access practical 
sessions.

Forum discussions in Moodle, 
pre-recorded video demonstrations 
of the CAD software, video files/
URL published in Moodle and 
remote access to CAD software for 
open access. Peer-assisted learning 
groups using Zoom breakout rooms.

Practical 
assessments

In-class practical test. Printed 
practical sheets are provided. CAD 
files are submitted to a network 
location.

In-class test online using licensed 
CAD software. Practical sheets are 
uploaded to Moodle, and assign-
ments are submitted to Moodle.

Group assessment In-person group discussions and 
face-to-face slide presentations

Collaborative group assignment 
using Moodle wiki.

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Methodology

There were two questionnaire instruments utilised to address all objectives of  the study. 
The first questionnaire instrument consisted of  quantitative and qualitative elements, 
posted as a Google form at the end of  the semester. Quantitative questions used a 5-point 
Likert scale. This course was delivered for 14 weeks, from September to December 2021. 
The Open University of  Sri Lanka granted ethics approval for the study and obtained 
informed consent from the participants. The first questionnaire contains 22 questions 
covering all research objectives. Questions 1–5 (Q1-Q5) were designed to obtain prelim-
inary information from the participants, including gender, province, device availability 
and internet connectivity. Q6 had nine sub-questions that examined the effectiveness 
of  Moodle LMS in emergency remote teaching. Q7-Q11 analysed the most effective 
learning approach perceived by students. Table 2 lists the five tested methods. Q12-Q18 
measured the effectiveness of  the online assessment strategy. Q19-Q22 discovered the 
limitations and overall feedback on this emergency remote CAD teaching.

The second questionnaire was instrumented to review online collaborative teaching 
and learning based on the given wiki assignment. Four questions were asked to deter-
mine five themes. These were coded as QW1 – wiki motivation, QW2 – wiki engagement, 
QW3 – wiki interest, QW4 – wiki discouragement and QW5 – wiki peer intervention.

Table 2. Five key approaches used during the distance learning period.

Approach (sync/
async)

Description of  the 
approach

Objectives of  each 
approach

Teaching aids

1
Synchronous

Real-time teacher and 
student communica-
tion using Zoom.

To deliver lessons 
using real-time stu-
dent connectivity.

Zoom central live session, 
PowerPoint presentations 
and YouTube videos.

2
Synchronous and 
asynchronous

Pre-recorded video 
demonstrations for 
practical sessions.

To deliver instruc-
tions and practical 
demonstrations for 
scheduled practicals.

Moodle learning man-
agement system and 
video-recorded practical 
demonstrations.
Gerber AccuMark soft-
ware and TeamViewer. 

3
Asynchronous

Printed handouts to 
guide the practical 
session.

To available only a 
written guide to deliv-
ering instructions to 
conduct the practical.

Moodle, written instruc-
tions to self-study the 
software.
Gerber AccuMark soft-
ware and TeamViewer.

4
Synchronous

Group activity 
– implement stu-
dent-teacher to avail-
able mutual support 
learning support 
system.

To implement peer- 
assisted learning to 
support average and 
slow learners.

Moodle and Zoom break-
out rooms.
Gerber AccuMark soft-
ware, TeamViewer and 
practical assignment sheet.

5
Asynchronous

Use forum discussions 
in Moodle.

To obtain students’ 
feedback on how 
assessments supported 
learning of  the practi-
cal component of  this 
module.

Moodle – Forum.

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Data analysis and key findings

The responses were imported to a spreadsheet and analysed according to the research 
objectives. Out of  all 58 participants, 24 were male and 34 were female. A significant 
proportion of  students (57%) have been connected to this course from western and 
southern provinces; comparatively, those provinces consist of  an urban population 
with a proper internet connection. The balance of  43% of  students is connected from 
seven provinces in the country; however, each province represents less than 10% of  
students. All 58 students used laptops to connect to the remote access CAD session 
using TeamViewer. Students connected to a Zoom meeting during the remote CAD 
session using the same laptop or smartphone. Out of  all 58 students, 14 connected to 
Zoom using a separate smartphone, and the rest used the same laptops. Forty-seven 
households had Wi-Fi connections, and 33 had Mobile 4G connections. Q5 measured 
the overall course content and organisation in general. 93% of  students were trans-
parent with the course objectives. 96% of  the students mentioned that the learning 
materials, including lesson plans and course notes, were relevant and valuable. 76% of  
the students believed the course was well organised and had timely access to materials 
and notification of  changes.

Objective 1 – Evaluate the effectiveness of  Moodle in emergency remote teaching
According to the mean values in Table 3, Moodle was recognised as an effective LMS 
with enormous benefits in sharing study materials, communicating with the students, 
submitting assignments and connecting with peers. However, some limitations were 
experienced in using Moodle, which is discussed under objective 5.

Objective 2 – Analyse the most effective learning approach perceived by the students
Q7 gathered responses related to different learning approaches, as discussed in Table 2 
and illustrated in Figure 1. Most students preferred approaches 1 and 2, emphasising 
synchronous teaching. In the second approach, students tend to watch pre-recorded 

Table 3. Feedback on Moodle LMS.

Feedback on LMS-Moodle Mean SDev Variance

All online study materials were helpful 4.23 1.03 1.06

I can access learning activities at any time convenient to me 3.92 0.89 0.79

I faced difficulties working with Moodle 3.17 1.28 1.63

Online submissions were better than printed submissions 4.07 0.95 0.91

I found the various functions in Moodle were well-integrated 4.07 0.95 0.91

Moodle enabled me to get to know my peers 3.78 0.99 0.99
Moodle enabled me to participate in course discussions 
comfortably 3.95 0.98 0.96
I could explore new knowledge in this course due to Moodle 
activities 4.20 0.92 0.84
Forum discussion helped to collaborate with peers and share 
knowledge through Moodle 4.13 1.00 1.00

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video sessions before the scheduled class; then at the scheduled class time, students 
tend to practice what they have seen in the video in class with support from peers and 
lecturers. Study results confirmed that the students were interested in such flipped 
classroom model. As per Q8, 90% of  the students agreed that the online teaching 
materials adequately support practical sessions. With regard to Q9, half  of  the stu-
dents decided that the online teacher interactions were sufficient to learn and practice 
CAD, and only 2% disagreed. According to Q10, only 5% of  students found it easy to 
follow this CAD practical work; however, 16% found it extremely difficult to follow 
it using remote access online learning platforms. Moreover, 22% of  students found it 
easy to follow this CAD practical work, whilst 38% found it challenging. The study’s 
ultimate purpose is to examine the causes of  such challenges.

As per the results of  Q11, the students confirmed the benefits of  the pre-recorded 
video tutorials uploaded to Moodle or shared as a YouTube link. Furthermore, two 
students suggested including pattern-making lessons in the same video content. As stu-
dents highlighted, their lack of  pattern-making knowledge hindered them from acquir-
ing CAD skills. Moreover, few students requested printed material as a learning resource.

Objective 3 – Measure the effectiveness of  the online assessment strategy
This study could use the practical assessment sheets that were used before the pan-
demic as the same workload could cover even within this emergency setting. However, 
the physical group project was replaced with the group wiki activity. According to 
Q12, 98% of  students affirmed that continuous assessments (CA) aligned well with 
the intended learning outcomes (ILOs). According to Q13, 89% of  students said they 
had been informed about the assessments at the beginning of  the semester. Out of  
the 89% of  students, 55% strongly agreed with their understanding of  the assessment 
plan. According to the results of  Q14, 42% of  students were not satisfied with the 
allocated time for each in-class online practical assignment. Only 10% of  students 

Figure 1. Responses for different learning approaches in online remote learning.

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strongly agreed with the given time for each assignment. Students received feedback 
at the end of  each practical assignment, and prevalent mistakes were explained during 
the online demonstrations. As such, Q15 affirmed that 86% of  the students mentioned 
that such assessment feedback was helpful.

According to Q16, 87.7% of  students stated that in-class practical assignments 
helped improve their apparel CAD knowledge and skills in this learning environ-
ment. Q17 confirmed that 19.3% of  students strongly agreed with how they have been 
assessed on practical CAD skills; furthermore, 56.1% of  students somewhat decided 
on the same. Moreover, no one strongly disagreed with the evaluation methods.

Under Q18, qualitative feedback was obtained to analyse how online continuous 
practical assessments supported completing set ILOs of  the course during this emer-
gency remote teaching. Sub-themes motivated to compare practical online delivery to 
physical practical sessions and suggest additional resources should be in-built on par 
with this online practice. Five of  58 students reasoned that their lack of  pattern-mak-
ing knowledge led to the slow adaptation to this computerised product development 
system. A statement quoted as ‘It is great if  lecturer can provide additional pattern 
making tutorials within the current course’.

Underlining one of  the main themes, students demanded more ‘open access’ lab 
hours to perform well in their practical assignments when learning new software. 23 
of  58 students explained how additional practice led to higher scores for CA. They 
showed the limitations of  using licensed software in this course as it restricts their prac-
tice time. This response will explore alternative solutions to offer a similar learning 
opportunity. Students’ comments inferred that the students’ duration for continuous 
practical assignments was insufficient. Therefore, students’ submissions were further 
examined as most of  the previous practical submissions were not completed; however, 
this timing issue improved towards the end of  the semester. Therefore, four students 
commented on disregarding scores relevant to early assignments and provided some 
model tests before in-class practical assignments. Conversely, five students stated that 
current continuous assignments are more outcome-based; it acts as a positive drive to 
learn the subject and acquire practical skills efficiently.

On par with the collaborative learning approach, 7 of  58 students declare their 
enthusiasm for group projects. They highlighted the effectiveness of  the peer-assisted 
learning session using Zoom breakout sessions. Two sessions were organised for group 
activities, systematically implementing ‘peer-assisted learning’ and ‘student-teacher’ 
immediately before the final practical assignment. A student quoted as ‘properly 
structured, group projects can reinforce various skills while learning the subject’.

There was an indication from the core themes to establish practical course delivery 
in a hybrid model in the future. One student expressed the benefits of  online practical 
assignments: ‘Everyone can work independently without distractions. We could refer to 
our study materials and do the practical and the assignments without a hassle’. Through 
further analysis to evaluate the effectiveness of  feedback, it is evident that continuous 
constructive feedback sessions predominately supported students’ learning, which they 
should conduct before attempting the next assignment. Overall, assessments success-
fully guided students’ CAD skill development and improved their confidence.

Objective 4 – Identify limitations of  online CAD learning during the pandemic
The results of  Q19-Q22 analysed obstacles encountered during the emergency remote 
CAD teaching using online technologies (see Figure 2).

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As depicted in Figure 2, the most glaring challenges were the poor quality of  inter-
net services and the student’s inability to complete the practical session on time power 
failures. Low performance of  some of  their devices, lack of  pattern-making knowl-
edge and absence of  open access sessions for additional practice were also identified 
as obstacles. In addition, they encountered numerous disturbances when connecting 
from their respective locations. Most students desired open lab access to practice this 
licensed CAD software. Importantly, they could obtain peer assistance effectively 
compared to this emergence of  remote training.

Objective 5 – Review online collaborative learning using Moodle
As mentioned earlier, the second questionnaire was instrumented to address this 
objective. The percentage was computed using the weighted average of  the mean 
and the 5-point Likert scale. 48 students completed the second survey. As shown in 
Table 4, learners strongly agreed, and the mean response exceeded three.

Figure 2. Obstacles faced during an in-class online session.

Table 4. Encouragement to work using wiki.

QW 1 – wiki participation % Mean SDev Variance

Wiki motivated me to participate actively and interact 
with colleagues

85 4.25 0.636 0.396

I could access content and resources through the wiki 85 4.25 0.636 0.396

Peer interactions are promoted through the wiki 82 4.08 0.895 0.785

Wiki creates opportunities to generate, present and dis-
seminate knowledge

83 4.17 0.724 0.514

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As shown in Table 4 and Figure 2, more than 82% of  the students in the online 
survey agreed that the online environment and wiki encouraged them to participate 
actively and communicate with colleagues; get access to material and resources; foster 
peer relationships; and to offer chances for knowledge generation, presentation and 
dissemination.

As illustrated in the Figure 3 box plot, the mean pleasure score for collaborative 
wiki projects is more than 4, and the mean rating for all demotivating questions is less 
than 4. Students share their knowledge in real time with peers during the task because 
they may assume that receiving feedback on their understanding and engagement 
would enhance their knowledge and participation. The data analysis reveals that all 
mean values are more significant than 3.00, and standard deviations range from 0.78 
to 1.145. Students found online collaboration more efficient than face-to-face collab-
oration; they learned more from their peers through online activities than through 
face-to-face collaboration. They were confident in providing and receiving feedback 
from/to other students via Moodle wikis.

Additionally, students were asked to evaluate their frequency of  access to wiki 
activity on a scale of  1 to 5. Students engage in collaborative activities five to 10 times 
each week, as depicted in Table 6. As a result, the mean is 2.73. Additionally, students 
posted on their sites more than five times each week and commented on peer pages. 
Furthermore, 53% of  students check their peers’ work more than five times per week, 
which indicates that teachers should monitor students’ involvement with learning 
materials and activities that assist them in meeting course goals.

Discussion

The key findings reflect students’ interest in a synchronous learning environment sim-
ilar to face-to-face teaching because students are familiar with conventional learn-
ing aspects from their primary and secondary education. This is similar to the key 

Table 5. Interest and discouragement in working with the wiki.

QW 2 – Motivation and enjoyment % Mean SDev Variance

I find each task in the online learning activities is easy 
to complete

78 3.90 0.778 0.593

I have received helpful feedback/comments on my contri-
bution to the online learning activities from tutors

82 4.08 0.679 0.451

I have received helpful feedback/comments on my contri-
bution to the online learning activities from other students

82 4.08 0.539 0.285

I enjoy using the wiki learning activity 79 3.96 0.849 0.707

QW3 – Demotivation      
I only use online learning activities because it is compul-
sory for the module

62 3.08 1.164 1.326

I feel reluctant to use the wiki activity 60 3.02 1.194 1.395

I do not like the fact that other people can see my work 
before it is finished

54 2.69 1.151 1.298

I still have concerns over possible vandalism and plagia-
rism of  my work on the wiki

65 3.25 1.101 1.188

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findings of  the study by Kanetaki et  al. (2021), which is a mixed approach of  MS 
Teams (synchronous learning) and Moodle delightful for students. However, students 
seek modern, effective educational methods to fulfil their course requirements in an 
online environment. Besides live Zoom instructions, students strongly encouraged 
video-recorded practical demonstrations to be available before the practical sessions. 
Additionally, the authors’ previous study discovered that video-recorded lectures 
encouraged participants to access the Moodle environment and catch up on missed 
lessons (Peramunugamage, Usoof, and Dias 2019; Peramunugamage et al. 2020). As 
per the results, students highlighted that lack of  previous pattern-making knowl-
edge was an obstacle to succeeding in CAD. Students expected different materials to 
refresh their pattern-making knowledge, which should have been included in the new 
learning system. As such, this study strongly recommends flipped classroom model to 
include in designing online teaching in the future.

Moodle immensely supported students to succeed in this emergency remote teach-
ing with its elements such as assignment submissions, class links, announcements, 
chat, H5P plugin for interactive content, forum, wiki, URL, video and lesson notes, as 
reported in other studies (Jabbar and Hasmy 2020; Kanetaki et al. 2021; Khalil et al. 
2020; Liyanagunawardena and Williams 2021). In this study, we found that students 
desired the collaborative learning techniques they had encountered in a traditional 
learning environment. Students are motivated to complete course assessments by their 

Figure 3. Factors affected by working with the wiki.

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teachers and peers. Therefore, the Wiki activity provided an opportunity to explore 
the subject’s contemporary developments engagingly than other Moodle elements.

The teacher created adequate content for students using Moodle to make work-
ing in the remote context easier. The results revealed that the online course materials 
were sufficient to support students in achieving the course ILOs. The results revealed 
the necessity of  open access and self-directed studies to build confidence in using 
the system. Moreover, as shown in Figure 3, formative assessments with constructive 
feedback helped improve their scores for the final practical assignment.

Finally, the most critical issue was a lack of  equal access to digital infrastruc-
ture across the country, which hampered online education in developing countries, as 
emphasised in UNESCO and the ADB reports during the pandemic (Hayashi et al. 
2020; World Bank 2020). Many students said internet connectivity and internet speed 
issues; similar reflections can be seen in the study conducted by Hayashi et al. (2020) 
for the broader Sri Lankan audience. The internet issues interrupted students during 
the CAD activities in our study; our students were given extra time or another appoint-
ment to complete and submit their work. This highlights the need for  educators to be 
flexible and has procedures to deal with digital infrastructure issues in their courses.

Conclusion and future recommendations

In times of  global crisis, social priorities are dynamically reordered worldwide to 
meet varying demands. During this COVID-19 emergency, remote teaching with 
novel educational styles has been implemented globally temporarily and persistently 
( Benabdallah and Bourgault 2021; Khalil et  al. 2020; Liyanagunawardena and 
 Williams 2021; Snoussi et al. 2020).

Therefore, this study was an excellent example of  teaching and learning practical 
courses online using Moodle LMS. Since this study showed various Moodle applica-
tions to enhance remote learning, lack of  knowledge in Moodle applications could 
not provide the expected results. Out of  all the applied approaches, students’ high-
est preference was synchronous teaching methods and flipped classroom model. This 
study highlights the importance of  embedding flipped classroom concepts in our 
courses, where students can view the pre-recorded demonstration before synchronous 
practical sessions. Moreover, this study showed how ‘peer-assisted learning’ and ‘stu-
dent-teacher’ could apply in the online learning environment and consequently how 
they helped to improve students’ grades.

All practical assessments were carried out online using remote access to the 
licensed software, and students received formative and summative feedback where 
necessary. Also, wiki exercise and collaborative feedback mechanisms proved the 

Table 6. Wiki participation during a week.

QW2 – wiki engagement % Mean SDev Variance

How often do you access the wiki activity during the week? 55 2.73 0.765 0.572
How often do you write on your pages during a week? 48 2.42 0.846 0.701
How often do you write comments on colleagues’ pages 
during a week?

43 2.19 0.724 0.514

On average, how frequently do you check the work of  col-
leagues on Moodle

53 2.65 0.838 0.687

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success of  OCL. Through examination of  sub-themes, it was found that the insuf-
ficient digital landscape hinders online delivery in developing countries. This study 
demonstrated the success of  OCL, an educational paradigm that promotes and facil-
itates student collaboration.

This effort can assist course developers in developing a comprehensive learning 
solution for preparing apparel CAD or similar software that integrates with other 
subject-specific inputs. Most importantly, this flipped classroom and collaborative 
practice approach can be utilised to train a wider audience with proper learning mate-
rials, especially pre-recorded videos.

Effective e-learning platforms can overcome constraints. As Cabero-Almenara, 
Arancibia and Del Prete (2019) suggested, if  the teacher is motivated and commit-
ted to designing and restructuring the course effectively even when the environment 
changes abruptly, such good designs can overcome constraints. As a whole, this 
whole project develops students’ independent learning skills, which will aid them in 
their future studies. As a result, this implementation was an excellent example of  a 
well-organised venture that resulted in real change through the effective integration 
of  online tools.

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