E-LEARNING APPLIED FOR TRAINING ON SAFETY AND

HYGIENE IN ELECTRONICS ENGINEERS DEGREE

Maria-Dolores Redel-Macias, Pilar Martinez-Jimenez

High Politechnic School, Cordoba University, Campus Rabanales, Cordoba, Spain

Antonio-Jose Cubero-Atienza

High Politechnic School, Cordoba University, Campus Rabanales, Cordoba, Spain

Keywords: e-Learning, Asynchronous discussion forum, Periodical online quizzes, Virtual laboratory.

Abstract: The use in the university of new teaching resources by e-learning, is becoming in a common practice,

encouraging student participation, and improving academic achievement in learning the subject. An

experience in the Safety and Hygiene course of Electronic Engineering degree, at the University of Cordoba

–Spain-, has been developed by using different techniques like discussion forums, online quizzes, and a

novel and powerful tool: a set of virtual laboratories about noise and vibrations at labour environment which

are based on internet. These virtual laboratories promote the learning by different viewpoints like theoretical

training, legal knowledge, learning videos, self-training exercises and simulation of use and working of real

equipment for field measurement. These virtual laboratories had been evaluated by students who use them,

being the results which are reflected in this work, highly satisfactory.

1 INTRODUCTION

Last years, the increasing of e-learning resources in

Higher Education, in Spain and others countries in

the world is a reality. Students are very integrated

with these technologies because they obtain a

feedback on their work nearly in real time.

E-learning is not a “gift-wrapping” of materials

of the traditional on-line courses (Fischer, 2003).

The participation in e-learning of the students does

not only depend on personal factors or on

preferences, but also on the nature of the technology

employed and on the pedagogy followed. An

effective learning environment should be very well

organized and it should be made quite clear what is

expected of students (Swan, et al., 2000). The main

challenge should be, in addition to the organization

of the course, the teacher’s participation and the

student-to-student and student-to-teacher

interactions in the activities proposed. The teacher’s

role is fundamental since he/she has to propose

issues of interest, trigger participation in the course,

and make an effort to understand any difficulties the

students may have. Therefore, teachers should not

limit themselves to being a mere means of

transmission but should acquire a more complex

protagonism (De Laat et al., 2003).

Fowell, Southgate & Bligh (1999) suggest that

students are best served by the provision of a diverse

range of assessment methods as individual methods

may disadvantage some students. They also suggest

that from the teacher perspective, using a selection

of methods allows performance from different

sources to be related. Seale, Chapman & Davey

(2000), who investigated which types of assessment

students found most motivating for their learning,

found that having a range of assessment

opportunities was most motivating. They also found

that the relevance and content of the assessment

appeared to influence student motivation as well as

the enthusiasm of the teachers. Feedback on

performance, especially that of a formative nature,

has been shown to be a valuable tool in the learning

process enabling students to assess their own

progress and understanding and remedy any

weakness exposed by the assessment (Zakrzewski &

Bull, 1999). However, for this feedback to be

258

Redel-Macias M., Martinez-Jimenez P. and Cubero Atienza A..

E-LEARNING APPLIED FOR TRAINING ON SAFETY AND HYGIENE IN ELECTRONICS ENGINEERS DEGREE.

DOI: 10.5220/0003337802580263

In Proceedings of the 3rd International Conference on Computer Supported Education (CSEDU-2011), pages 258-263

ISBN: 978-989-8425-49-2

 2011 SCITEPRESS (Science and Technology Publications, Lda.)

effective it needs to be provided early in the learning

process and have some degree of prescription about

how to improve performance (Wiliam & Black,

1996). Fowell, et al. (1999) argue that the

presentation of results also require the provision of

effective feedback to students, in both summative

and formative assessment tasks, enabling students to

identify their strengths and weaknesses in order to

improve future performance.

The basic objective of this work was to

encourage the acquisition of skills by the students

and to improve the global teaching-learning process

in Engineering studies. For this purpose, a

modification of the teaching methodologies used in

the subject of Safety and Hygiene at Work was

approached, starting from the traditional teaching

based on teachers’ classes and examinations, and

arriving at another kind which combined several

techniques, such as asynchronous discussion forums,

online quizzes and group tutoring, among others.

2 METHODOLOGY

With the European Credit Transfer System (ECTS)

the workload of an average student during an

academic year of 60 credits should be comprised

between 1500 and 1800 hours, so that it is vital to

establish a teaching methodology aimed at

integrating the acquisition of knowledge and skills

by the students by distributing their workload

coherently with the objectives and assignation of

credits.

The Safety and Hygiene course at work has a

total of 4.5 ECTs assigned to it, so that it is

necessary to draw up a students’ work programme

with a total between 112 and 135 hours of work. The

main themes dealt with in this subject are:

1. Evolution of Safety and Hygiene at Work.

2. Health. Professional risks.

3. Legal aspects on Safety and Hygiene.

4. Concept of work accidents. Factors.

5. Techniques of analysis in safety.

6. Operative techniques in safety.

7. Personal protective equipment (PPE).

8. Industrial Hygiene.

9. Theoretical Hygiene.

10. Physical environmental agents: Noise and

vibrations.

11. Physical environmental agents:

Environment Thermal.

12. Protection against electric shocks.

13. Design of place for video display terminal

users.

The general structure of the course is shown in

Figure 1.

As a teaching support tool it included the use of

the Moodle e-learning platform, concretely with the

employment of asynchronous discussion forums,

periodical online quizzes and a Virtual Laboratory in

Noise and Vibrations.

2.1 Asynchronous Discussion Forums

The asynchronous discussion forum is a

communication tool extensively employed in on-line

courses to improve the interaction with students and

obtain a fast feedback of their knowledge, doubts

and opinions. Gibbs, Simpson, and Bernas (2008)

cite the benefits in learning from the asynchronous

discussion forums since the students control the

communication and access to information by means

of this tool.

Figure 1: General structure of the course.

In this subject, the forum has been configured as

an obligatory discipline for all the members of the

group and with an automatic monitoring of the

answers and questions posed by e-mail to all the

group members. In addition, their participation is

gratified with 10% on the final mark, taking into

account the quality of the contributions of each of

the participants. The objective sought with the use of

the forum is to maintain the constant attention of the

group on the topics proposed, to encourage the

investigatory spirit of the students in the supplying

of solutions to the problems posed, and, therefore, to

evolve an improvement of the group’s knowledge,

Theory classes: 21h.

Practice classes: 11h.

Expositions and seminars.

Specialized tutorials (with physical presence or

virtual):

1. Collective: 4h.

2. Individual: 2h.

Directed academic activities:

1. With a teacher: 9h.

2. Without a teacher: 9h.

Other personal autonomous work:

1. Study hours: 32h.

2. Preparation of personal work: 9h.

3. Participation in the forum: 4h.

4. Preparation of group tutorials: 3h.

Examinations:

1. Written exam: 2h.

2. Oral exams.

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directing from a distance the questions-replies put

forward. In spite of the well known advantages of

the forum, some authors like Hew and Cheung

(2003), through two cases studied examining

facilitators’ habits of mind in a synchronous online

discussion concluded that over 30% of the students

presented an “awareness of own thinking” and were

“open minded”. In this sense, the teacher’s role in

the forum is fundamental. In the forum of the Safety

and Hygiene at Work course the performance of the

teacher with respect to the contributions of the

students to the forum is twofold: when the students

pose their doubts on the subject in question the

teacher does not interrupt and waits for other

students to answer the question, so that, if the

answer is correct, he/she does not have to intervene

or only does so to praise them or complete their

contribution in this course. On the other hand, if the

forum activity flags the teacher proposes some new

debate issues related to the theme of the subject.

Finally, the themes discussed in the forum are

pooled through practice sessions in which students

prepare an oral exposition in groups of 4 or 5 and

debate with the rest of the group on the opinions

expressed in the forum.

2.2 Periodical Online Quizzes

To maximize the students’ achievement, the teachers

need to receive effective feedback from them by

means of different tools (Dobson, 2008; Seale,

2000). Using online quizzes in the e-learning

platform it is aimed to motivate the periodical study

of the students at the rate programmed in the subject

and to analyze the strong and weak points of the

subject. Each quiz is open for 4 days and the time

estimated for its completion varies between 30-45

minutes depending on the theme in question. The

questions come with multiple or paired answers and

the order both of the questions and the answers is in

a random form. As the structure of the course is

divided into differential blocks, at the end of each

theme the student has to do the corresponding quiz.

A second action stage consists of analyzing the

results of the quizzes, observing the questions with

most wrong answers, the most correctly answered

ones, the percentage of participation, etc. For this

purpose, tutorial sessions with the complete group

are organized in which these concepts are debated,

reinforcing and ensuring those in which the worst

results have been obtained.

2.3 Virtual Laboratory

An important part of the software

applicationscurrently being developed are oriented

towards teaching and the transmission of knowledge.

This type of application seeks to stimulate the end

user with educational technology and to facilitate the

acceleration of learning thanks to the application’s

interactivity.

One important factor in the increase in the use of

new technologies as a teaching tool is the expansion

of the software through Internet. Internet is the

means which brings these complementary teaching

tools nearer to any user so that they can benefit from

them at any moment (Jimenez, 2009).

The main objective that it is aimed to fulfil is the

development of a software application which makes

up for the absence of information experienced by

students of technical studies when acquiring

theoretical knowledge and carrying out practical

classes in laboratories, specifically in the classes

corresponding to experimentation with the

instruments for the measurement of vibrations and

noise.

The secondary objectives are:

• To develop an application containing

information referring to the instrumentation

and measurement methods.

• The application has direct access to the

regulation in force on the protection of the

health and safety of workers against risks

related to exposure to machine vibrations.

• To include extensive information on the

possible effects on workers brought on by

vibrations and noise.

• The software has a complete training

tutorial for expert technicians.

• To permit the user to become familiarized

with some of the measurement instruments

by means of the simulation of their

functioning in different work places.

• To permit the updating of the information it

contains through a resource manager with a

database which contributes dynamism to

the application itself.

• The virtual laboratory has a general

interface for the presentation of different

applications related to Work-related Risk

Prevention.

• The web page works in a “multiplatform”

environment. The application can be used

in any computer regardless of its operative

system.

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• It is intuitive and easy to use as it is aimed

at people who do not necessarily have any

extensive knowledge of the subject.

2.3.1 Description of the Software

In the portal developed it is aimed to concentrate in

one single software all the aspects necessary for a

specialist in the prevention of work-related risks:

noise and vibrations (Figure 2).

Figure 2: First frame of the virtual laboratories on

work-related noise and vibration portal.

With it, the drawbacks which real laboratory

learning entails disappear:

• The high cost of instruments for measuring

noise.

• The need for a teacher to supervise the

operations carried out in each machine.

• The need to fit out a laboratory in order to

carry out these practical classes.

• The need to adopt a timetable to set up the

practical classes.

The aspects included are as follows:

• A tutorial to guide the technician, supplying

him/her with information on different

physics fields dealing with noise and

vibrations, the instrumentation to be used in

measuring them, the regulations in force,

updated, to be applied during that

measuring process together with the

different configuration parameters to be

used in controlling noise, and a series of

tutorial videos which facilitate the

understanding of the handling of the

devices related to this theme.

• Gallery in which there is a useful educational

illustrated reference with information on all

the machines and instruments employed.

• Virtual Laboratory or Simulation of a

dosimeter, a sonometer, a calibrator with its

respective measurement and calibration

processes, and vibrometers.

• Analyses of results, interpretation of images,

carrying out calculations, resolution of

cases, etc.

• Flexible interface for access to information

available.

• Opportunity for the learner to repeat the

practical activities as many times as he/she

considers it necessary until the didactic

results wished are achieved.

• The learning timetable is established by the

users themselves in accordance with their

needs.

• Possibility of use of software at all times.

2.3.1.1 Tutorial Module

In this module all the norms and legal ordinances

related to the prevention of work-related risks, the

technical documentation of the measurement teams,

etc., can be found. Also, due to the fact that in work-

related risk prevention the legal regulations are of

vital importance, the user disposes of a tutorial with

the legislation in force in order to find out the

regulations concerning vibrations and noise at work.

The information given is classified in accordance

with the existing norms, including laws, royal

decrees and directives.

The information given in the tutorial is structured

in the following way:

• Physical properties of vibrations and noise:

in this section an extended definition of

vibrations and noise is made.

• Parameters which define the vibrations and

noise at work: In this section each of the

parameters intervening is defined.

• Spectrum analysis of vibrations: In this

section some physical aspects of the

vibrations phenomenon are described in

relation to their study in the frequency

domain.

• Vibration and noise measurement

techniques: In this section, the diverse

practices employed in measuring are

described, depending on the situation, the

objective, the place and conditions of the

environment in which these measurements

are made.

• Effects or pathologies of vibrations and

noise on people: In this section, a detailed

description is given of the effects that the

work-related risks being studied can cause.

• Control systems: In this section, the

methods for improving the vibrations and

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noise or for restricting them to tolerable

levels are described.

o Control systems in the source

o Vibration uncoupling systems

o Control systems by Individual

Protection Equipments (EPI).

o Organization controls.

• Vibrations and noise in industry: In this

section the risks that it is possible to

localize in industry are detailed.

2.3.1.2 Help Module and Consult

Video-Tutorial

The Help module consists of a series of documents

in an HTML format, which explain the functioning

of each of the sections making up the program.

Some videos are used for providing

complementary information on certain aspects

included in other modules of the application (Figure

3).

Figure 3: Video-tutorials.

2.3.1.3 Simulation Laboratory Module

The user can access to a laboratory in which he/she

is shown a series of simulations in order to prepare

him/her in the measurement of vibrations and noise

and the interpretation of his/her results. As an

example, some of the simulations available are:

• Calibration process: Simulation of the

calibration process of a vibrometer

controlling a possible incorrect calibration.

• Vibrometer: Simulation corresponding to

the handling of this measurement device.

• Simulation in work places.

3 RESULTS AND DISCUSSION

Using the first two activities described in 2.2 and 2.3

sections, forum and periodical quizzes, it has been

possible to check the progress of the group with

respect to the subject by means of its marks and

participation in the forum. Some of the most

interesting themes proposed in the forum were the

debate on the difference between risk and hazard,

with a participation of 21%, and the question asking

what type of risk a burn was, with a participation of

35.7%. With regard to the quizzes, 66.7% of the

students who completed 90% of the quizzes placed

online during the academic year passed the theory

exam. Conversely, those students who only did 33%

of the quizzes did not pass the final exam.

For the evaluation of the Virtual Laboratory a

survey with 26 questions divided into the following

categories was made (see Figure 4):

1. Help.

2. Easy to use.

3. Encourages motivation.

4. Multisensorial.

5. Promotes learning.

6. Adequate theory content.

7. Assessment of the interface environment.

These questions were scored on a scale of 0-5, and,

in addition, the students were asked about the

advantages and drawbacks of the use of the Virtual

Laboratory by means of a free-answer question,

expressing their opinions and feelings about it. Over

50% of the students commented on their usefulness

and great similarity with real laboratories as one of

the main advantages. However, nearly 30% pointed

out that the principal drawback was the bad quality

of the videos and the excessive documentation in the

tutorials.

The evaluation in future courses, whereas the

improvements that will be introduce from gain

experience, allowing access to a reliable diagnosis in

relation to the advantages and disadvantages of this

kind of training tools.

Figure 4: Results of questions 1-7 on the VLs.

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4 CONCLUSIONS

By putting into practice this e-learning course

combining the teaching strategies mentioned, such

as the asynchronous discussion forum, online

quizzes and group tutoring, we have succeeded in

increasing the degree of skill acquisition by the

students, at the same time as controlling the effort

necessary for this depending on the evolution of the

course programmed.

The teaching strategy most valued by students

was the Virtual Laboratory, both for its theory

content and its great similarity to the real laboratory.

Second, it was demonstrated that the online quizzes

controlled the periodical efforts of the students, and

their results can be seen quantitatively in the number

of passes obtained in the final examination. Finally,

the forum has been extremely useful for the

resolution of questions dealt with in the class, with

feedback being obtained from students participating

in it of the issues triggering their interest most. The

success of this type of learning undoubtedly depends

on the students, and, basically, on the role assumed

by the teacher who has to be involved in the use of

the VL, in the analysis of the results of the online

quizzes, and in the participation in the forum.

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