Int. J. of Computers, Communications & Control, ISSN 1841-9836, E-ISSN 1841-9844
Vol. III (2008), No. 2, pp. 196-203

Virtual Training Centre for Computer Numerical Control

M. Sahin, S. Yaldiz, F. Unsacar, B. Yaldiz, N. Bilalis, E. Maravelakis, A. Antoniadis

Abstract:
It is a fact that virtual training has been a scope of interest for vocational training
for a very long time. However, it needs more time to be more common in all spe-
cific training fields. Focusing on Computer Numerical Control (CNC) Training, new
developments in the CNC machinery produce a continuous demand on enhancing
the programming and technical capabilities of the involved personnel. Training on
CNC should follow similar developments and in particular in their programming ca-
pabilities, automation they offer and their technical capabilities. Based on these main
objectives a Virtual Training Center (VTC) for CNC has been developed and it is pre-
sented in this paper. The VTC is the main result of a multilateral Leonardo Da Vinci
project witch aims to promote and reinforce Vocational Training in CNC Machines.
Keywords: Virtual training center, CNC, VET.

1 Introduction

In most Member States the past two decades there has been a growing awareness of the importance
of quality in vocational education and training (VET). The changing demands of the knowledge-based
society and the overall trend to increase the efficiency and effectiveness of VET systems, constitute major
driving forces behind these developments. Major European funding frameworks and programmes, such
as Leonardo Da Vinci (LdV) have contributed to improving education and VET systems by raising the
level of the services they offer.

One of the objectives of the innovative VET systems is the transparency and distribution of informa-
tion. This function concerns the potential and actual use of information. There may be different systems
and structures of information distribution among the various actors, and in the public and there are pre-
conditions for creating transparency in the VET system. To improve quality there must be systems for
distributing information and certain mechanisms to ensure the circulated information can be used by the
various actors in the policy process. The more widespread the distribution, the better the potential use
of the data will be - and as a reversal effect, better quality data can be expected, as the actors are able
to check the information against their experience and will provide feedback to the systems for gathering
data.

One of the concrete future strategic objectives of education and training systems in the EU (Council
of the European Union, 2001) is the improvement of the quality and the effectiveness of education and
training systems in the EU. This includes improving education and training for teachers and trainers,
developing skills for the knowledge society, ensuring access to ICT for everyone, increasing recruitment
to scientific and technical studies, and making the best use of resources. The second strategic objective
is facilitating the access of all to education and training systems. This objective includes open learning
environment, making learning more attractive, and supporting active citizenship, equal opportunities and
social cohesion. This paper describes the main results of a LdV project that addresses the strategic
objectives mentioned above.

2 From the Blackboard to the Virtual Training Centre

During the 60’s and 70’s, teaching and learning tools were nothing but a piece of chalk and a black-
board eraser, teachers and students who met each other face to face inside the classroom during class.

Copyright © 2006-2008 by CCC Publications



Virtual Training Centre for Computer Numerical Control 197

In the 80’s, videotape programs were used as teaching aids. In the 90’s, one-way teaching by computer
arrived. And finally today’s advanced computer and information network technology has introduced
radical innovative breakthroughs in our teaching and learning methods as well as in the learning envi-
ronment. Students can listen to their teacher or trainers in distant classrooms through PC’s and get a
simultaneous view of their teachers and texts as well. They can ask questions and record the "class"
for repeated viewing. Training organizations can conduct professional training directly via the computer
network. These learning environments are not so different from a teacher-guided class with discussions
and tests as well.

In the report "Studies in the context of the E-learning Initiative: Virtual Models of European Univer-
sities" [1] a key concern was how virtual mobility is being supported in European universities through
ICT integration and e-learning. The study found that the majority of universities face major challenges
in promoting ICT integration. ICT strategy is very important and those universities that have an ICT
strategy are significantly ahead in integration of ICT in administration and organisation and networking.
Integration of ICT and e-learning is politically important in the EU in terms of internationalisation and
globalisation of education, student demand and interest in increasing the quality of education through
ICT [2], [3], [4]. At the national level, integration of ICT should become a key priority with national
and regional institutions making a commitment to ITC and the development of networks. There must be
increased national flexibility with a commitment to support common standards of quality and assessment
and to develop national and international metadata standards.

In the last 3 decades, a large number of vocational training centres and technical universities are
giving priority to CNC Training. New developments on CNC machines are providing a continuous
need for updated CNC training curriculum. Training on CNC should follow similar developments and
in particular in their programming capabilities, automation they offer and their technical capabilities.
In addition, CNC programming is becoming more and more automated through the use of CAD/CAM
systems. This requires from the programmers to acquire CAD operation capabilities, on top of their
CNC operation and programming knowledge. The major objective in the field of CNC training is to
improve the qualifications and competences of the trainees, which is directly related to a well-designed
and effective curriculum to be carried out on CNCs. The facilities for CNC training vary a lot and this
has had direct impact on the experience that the trainee is acquiring during his/her apprentice. This paper
presents the development and promotion of a Virtual Training Centre (VTC), an internet based e-learning
facility, specifically based on Computer Numerical Control (CNC) training. This centre includes a virtual
space (a CNC training portal) on the Internet which allows the constant sharing of e-learning based CNC
teaching material, which is created so as to foster the further development of e-learning based CNC
educational contents. This virtual training centre aims at setting the standard CNC virtual learning in
vocational training systems [5].



198 M. Sahin, S. Yaldiz, F. Unsacar, B. Yaldiz, N. Bilalis, E. Maravelakis, A. Antoniadis

3 Developing a common CNC Curriculum

During the first stages of the project, the equipment, methods, curriculum and techniques currently
used for CNC training by the organisations in the partner countries were observed, collected and evalu-
ated [6], [7]. The selected materials were used to create a new and common curriculum. Five important
factors that contribute to learning were taken into account in order to prepare the CNC curriculum:

• Motivation

• Aptitude

• Presentation

• Repetition

• Practice with reinforcement

The approach for developing the appropriate training material was based on the following key concepts:

• Motivation

• Know your machine (from a programmer’s viewpoint)

• Prepare to write programs

• Understand the motion types

• Know the compensation types

• Format your programs in a safe, convenient, and efficient manner

• Know the special features of programming

• Know your machine (from an operator’s viewpoint)

• Understand the three modes of operation

• Know the procedures related to operation

• You must be able to verify programs safely

This approach combined with the important learning factors finally led to a CNC training curriculum
including 28 sessions:

1. Machine configuration

2. Speeds and feeds

3. Visualizing program execution

4. Understanding program zero

5. Measuring program zero

6. Assigning program zero

7. Flow of program processing

8. Introduction to programming words



Virtual Training Centre for Computer Numerical Control 199

9. Preparation for programming

10. Types of motion

11. Introduction to compensation

12. Dimensional (wear) tool offsets

13. Geometry offsets

14. Tool nose radius compensation

15. Program formatting

16. The four kinds of program format

17. Simple canned cycles

18. Rough turning and boring multiple repetitive cycle

19. More multiple repetitive cycles

20. Threading multiple repetitive cycle

21. Subprogramming techniques

22. Control model differences

23. Other special features of programming

24. Control model differences

25. Machine panel functions

26. Three modes of operation

27. The key operation procedures

28. Verifying new programs safely

4 The structure of the Virtual Training Centre

To develop the virtual training centre, firstly, a communication website was developed in order to
manage the activities and tasks to be carried out by the partners. Then, an interactive teaching program
was developed and put into a website to form a virtual training centre (figure 1).

The common curriculum developed for this purpose was the base of this training centre. The site,
along with the interactive teaching program, was divided into four main areas, "News", "Exchange of
views", "Projects and Networks", and "Information Resources". With these, users would be able to access
a newsletter, a bulletin board, online surveys and survey reports, information on VET networks, an elec-
tronic library with references, a bookshop with downloadable publications and a number of databases.



200 M. Sahin, S. Yaldiz, F. Unsacar, B. Yaldiz, N. Bilalis, E. Maravelakis, A. Antoniadis

Figure 1: The interface of the interactive CNC training centre (http://www.vtcforcnc.com)

Figure 2: Example of 3- phase animated CNC training material



Virtual Training Centre for Computer Numerical Control 201

In the main core of the CNC training material, simulations and practical exercises are included into
the interactive training centre (figure 2).

The feedback of the implementation of the VTC in training centres has been recorded and evaluated
in order to produce the final version. The evaluation procedure included content (topics, language used,
modules), methods (progress, different levels of difficulty, and range of resources, situations and practi-
cal cases) and technology (ease of installation, interactive nature and use without a tutor).

The main aim of the VTC for CNC aims is to be an interactive platform, a meeting point for policy-
makers, social-partners, practitioners, researchers and all those with an interest in CNC field of vocational
education and training. Experts in the field are able to share and exchange knowledge and experience
with associates within and outside the European Union. This will foster the long-term viability of the
Centre.

5 Aims and Target Groups of the VTC

The VTC aims to improve the skills and competences of people to promote and reinforce the contri-
bution of vocational training to the process of innovation, with a view to improving competitiveness and
entrepreneurship, also in view of new employment possibilities.

The specific aims of VTC can be defined as follows:

• Training the trainers, trainees, technicians and apprentices and all enthusiastic about CNC.

• Preparing technicians as intermediates having common measurable qualities the industry is seek-
ing.

• Helping to form a labour force that can use current knowledge and technology, and thus, in search
for life-long learning.

• Supporting the sectoral communication through the national centres in partners.

• Setting up a website to publish the data collected.

• Adapting the collected materials to enhance the new curriculum satisfying the requirements in a
modern sense.

• Helping to improve and upgrade competences and skills of the involving institutions’ didactic staff
and exchange experiences over the virtual training centre.

• Enabling the participants to extend the common educational qualifications of CNC technologies,
the accreditation of the skills and knowledge of CNC technologies acquired within the network
created between participating institutions and organizations.

• Increase the quality of employment through qualified workers.

• Helping to increase active use of technology acquired and thus to increase the standards.

• Contributing to individuals by behaving through life long learning.

• Having a labour power in accordance with common design and production standards.

• Contributing to labour market by using the common technology and equipment effectively.



202 M. Sahin, S. Yaldiz, F. Unsacar, B. Yaldiz, N. Bilalis, E. Maravelakis, A. Antoniadis

• Helping to enhance available potential of human sources.

Target groups include trainers, trainees, technicians, apprentices and all enthusiasts about CNC. The
final and potential users of the project’s results are the training organisations, the SMEs dealing with
metal products by CNC usage, and the universities, colleges, vocational schools, training centres.

6 Conclusions

The integration of ITC in this virtual learning environment for CNC, the development of the VTC
and the common training curriculum are focused on the EU goals of of internationalisation and globali-
sation of education, student demand and interest in increasing the quality of education through ICT. At
the national level, integration of ICT should become a key priority with national and regional institutions
making a commitment to ITC and the development of networks. There must be increased national flexi-
bility with a commitment to support common standards of quality and assessment and to develop national
and international metadata standards. This centre addresses the priorities expressed here. Furthermore,
this Virtual Training Centre addresses the strategic objectives mentioned above: improving the quality
and effectiveness of education and training systems in the EU by developing skills for the knowledge
society, ensuring access to ICT for everyone, increasing recruitment to scientific and technical studies,
and making the best use of resources. Facilitating the access of all to education and training systems by
providing open learning environment, making learning more attractive, and supporting active citizenship,
equal opportunities and social cohesion is the other strategic objective that can be achieved through this
virtual training centre. The experiences and knowledge gained during the implementation of this Centre
can be used in developing and improving other training programmes in particular in the area of new
information technology applications in related sectors.

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Virtual Training Centre for Computer Numerical Control 203

Mehmet Sahin, Suleyman Yaldiz, Faruk Unsacar, Burak Yaldiz
Technical Science College Selcuk University

42031 Konya, Turkey
E-mail: mesahin,syaldiz,funsacar@selcuk.edu.tr

Nikolaos Bilalis
Department of Production Engineering & Management

Technical University of Crete
73100, Chania, Greece

E-mail: bilalis@dpem.tuc.gr

Emmanuel Maravelakis, Aristomenis Antoniadis
Department of Natural Resources & Environment

Design & Manufacturing Laboratory
Technological Educational Institute of Crete

73133 Chania, Greece
E-mail: marvel,antoniadis@chania.teicrete.gr

Received: December 20, 2007