=Paper= {{Paper |id=Vol-2387/20190334 |storemode=property |title=Development of Professional Competencies of Information Technology University Teachers: Motivation and Content |pdfUrl=https://ceur-ws.org/Vol-2387/20190334.pdf |volume=Vol-2387 |authors=Nataliia Morze,Olena Glazunova |dblpUrl=https://dblp.org/rec/conf/icteri/MorzeG19 }} ==Development of Professional Competencies of Information Technology University Teachers: Motivation and Content== https://ceur-ws.org/Vol-2387/20190334.pdf
     Development of Professional Competencies of
Information Technology University Teachers: Motivation
                    and Content

Nataliia Morze (orcid.org/0000-0003-3477-9254)1, Olena Glazunova (orcid.org/0000-
                                0002-0136-4936 )2
           1
             Boris Grinchenko Kyiv University, Kyiv, Ukraine, n.morze@kubg.edu.ua
     2
         National University of Life and Environmental Sciences of Ukraine, Kyiv, Ukraine
                                o-glazunova@nubip.edu.ua



         Abstract. The article sets out to analyze the professional competencies on the
         standard European e-Competence Framework. The survey of information tech-
         nology teachers of Ukrainian universities concerning the necessity of forming
         and development of European e-Competence Framework competencies allowed
         defining the priority areas for training and forming the content component of a
         model of professional competencies development of information technology uni-
         versity teachers. The proposed model distinguishes stages, factors, and resources
         for training teachers. Teachers’ attitude to motivation, time and money allocation
         for professional development was researched. The content component of the de-
         velopment of professional competences of teachers of information technologies
         is offered. Recommendations for training and advanced training of teachers of
         information technologies, assessment of the level of development of professional
         competence, was proposed.

         Keywords: European e-Competence Framework, Professional Competencies of
         Information Technology University Teachers, Development of Professional
         Competencies.


1        Introduction

The issue of transformation of education according to key challenges is being actively
studied and discussed. Microsoft Corporation suggested a framework of higher educa-
tion transformation comprising the following range of transformation processes: man-
aging the life cycle of a student from admission to employment and maintaining contact
after finishing the IT-oriented study; teaching, learning, and research based on the sys-
tems of educational content management, new teaching technologies, hybrid cloud-ori-
ented educational environment and services for scientific research and communication;
combined campus that unites automatized management of administrative activity, the
access policies on resources and services, educational laboratories, network communi-
cations and their management, automation of engineering systems etc [1,2].
   The world is becoming increasingly technological. All the spheres of human activity
are automatized, modern technologies are widely used even in professional activities
pertaining to liberal arts. Ubiquitous technologization sets new challenges for higher
education, being connected with such global issues as financing and state policy in the
field of education, as well as with technological issues, namely use of
ByoD/ByoIT/Cloud&Hibrid IТ [3]. The approach to work in classroom using personal
devices and IT requires a properly organized structure at the university, both network
and server ones, while use of cloud and hybrid IT technologies – organization of access
and administration of these technologies according to the concept of smart university
[4].
   The current state of the world IT industry, development of smart education technol-
ogies, and constant change of employers’ requirements to training of IT specialists at
universities force all the participant of educational process to search new models of
development of professional competencies of university teachers who provide training
of future IT specialists. In higher education, new technologies, based on principles of
open education, are also used for organization of academic activities, in particular, for
organization of educational process. Teachers should not only master the technologies
of e-Educational content, but also the methodology of their use in teaching disciplines
according to the technology of blended, adaptive, and project-based learning [5,6]. The
constant change of the curriculum of computer science in secondary school, which is
becoming more oriented at STEM Education, results in brand new competence in IT of
the students entering the higher educational establishments. Data show that the set of
core cognitive knowledge, skills, and abilities that are associated with a STEM educa-
tion are in demand in nearly all job sectors [7,8]. It should also be considered in teaching
professionally-oriented disciplines of IT majors. Undergraduate students should obtain
basic knowledge in IT, which will be necessary during studying specialized profession-
ally-oriented disciplines in the last years of education to the extent meeting the current
requirements of employers. Thus, cooperation with IT business is a real objective for
an IT teacher, and its achievement will solve a range of issues connected with the qual-
ity of practical training of students. An IT teacher should clearly understand what pro-
fessional competencies are to be formed by a future IT specialist, as well as realize the
importance of forming soft skills, self-education, research, and other competencies cru-
cial for successful career in IT field.
   Problem statement: to study the components of professional competence of IT
teachers and develop a model of professional competencies development (lifelong
learning) of IT teachers at higher educational establishments.


2      Analysis of Publications

Research by Ukrainian and foreign scientists indicate the significant attention to the
issues of development of methods, forms, and means for forming and developing pro-
fessional competencies of university teachers.
   Сomputer science is an educational field that will continue to need qualified teachers
and professors to accommodate increased student populations and interest across the
nation. Government initiatives, changing school policies, financial incentives to major
in computer science, and an increased need to hire more computer science professionals
(including educators) adds to the appeal of pursuing a teaching career in computer sci-
ence [9].
    Namely, Ji Hyun Yu, Yi Luo, Yan Sun, Johannes Strobel [10] studied a model of
competencies for teachers of engineering disciplines, in which they distinguished 7
components: Engineering Concept Knowledge, Engineering Skills, Knowledge about
Engineering Disciplines, Engineering Pedagogical Content Knowledge, Attitudes to-
ward Engineering, Attitudes toward Teaching Engineering, Integration of Engineering
with Other Subjects.
    Such a model partially considers modern approaches to competencies of a university
teacher in terms of their digital competence. The six areas of European Framework for
the Digital Competence of Educators focus on different aspects of educators’ profes-
sional activities [11]: Area 1: Professional engagement using digital technologies for
communication, collaboration and professional development. Area 2: Digital resources
sourcing, creating and sharing digital resources. Area 3: Teaching and learning manag-
ing and orchestrating the use of digital technologies in teaching and learning. Area 4:
Assessment using digital technologies and strategies to enhance assessment. Area 5:
Empowering learners using digital technologies to enhance inclusion, personalization
and learners’ active engagement. Area 6: Facilitating learners’ digital competence ena-
bling learners to creatively and responsibly use digital technologies for information,
communication, content creation, wellbeing and problem-solving. The analysis of the
level of digital competences of students and teachers of Ukraine according to DigComp
2.1 methodology is given in [12]. It is determined that the level is sufficient, but there
is a difference between teachers and students, which is the basis for organizing cooper-
ation within the educational process.
    In our opinion, ISTE Standards for Computer Science Educators [13], comprising 4
components: Knowledge of content, Effective teaching and learning strategies, Effec-
tive professional knowledge and skills, Effective learning environments, describes the
elements of the Computer Science Educators competency in the most accurate manner,
in the light of the issue considered. The model of competencies of a teacher includes
pedagogical competencies that consist in mastering modern technologies of teaching,
methods, and tools for development of educational content, analysis and assessment of
e-Educational resources, conducting scientific research and processing their results us-
ing modern tools and services, including cloud ones. Both professional and pedagogical
competencies of a teacher include the set of digital competencies and specific subject
competencies.
    Professional competences in information technology deal with the design, creation,
management and maintenance of the varied components of the system, including soft-
ware, hardware, networks, systems integration and multimedia. Broadly, information
technology can be divided into four central pathways: network systems, information
support and services, programming and software development, and Web and digital
communication [14, 15].
  Two chapters of ISTE Standards For Computer Science Educators, namely
Knowledge of content and Effective professional knowledge and skills, correlate with
European e-Competence Framework [16].


3      Discussion

Analyzing the competencies described in European e-Competence Framework, we
should pay attention to purely professional competencies presented in 5 sets: planning,
development, performance and support, implementation, management. The survey
among IT teachers of departments of Information Technology (National University of
Life and Environmental Sciences of Ukraine, Borys Grinchenko Kyiv University, Na-
tional Pedagogical Dragomanov University, Sumy State University, 126 respondents)
allows building a general vision concerning the content of the necessary competencies
of IT teachers in professional engagement. Namely, while assessing the necessary com-
petencies of the chapter “Planning”, teachers noted a significant need for development
of the following skills: A.5. Architecture Design, A.6. Application Design, A.7. Tech-
nology Trend Monitoring, A.9. Innovating, which gained more than 60% of scores 3-5
on the scale from 1 to 5. In contrary, skills of A.1. IS and Business Strategy Alignment,
A.2. Service Level Management, A.3. Business Plan Development, A.4. Product/Ser-
vice Planning, A.8. Sustainable Development got from 40% to 50% of high scores (Fig-
ure1).

                                        A.1. IS and Business
                                        Strategy Alignment
                                          100,0
                                                               A.2. Service Level
                      A.9. Innovating      80,0
                                                                 Management
                                           60,0
                                           40,0
               A.8. Sustainable                                       A.3. Business Plan
                                           20,0
                Development                                             Development
                                              0,0


            A.7. Technology Trend                                  A.4. Product/Service
                  Monitoring                                             Planning

                           A.6. Application             A.5. Architecture
                                Design                       Design




Fig. 1. The quantity of high scores concerning the necessity of forming competencies of
IT university teachers indicated in Chapter “Planning” of European e-Competence Framework
(own resource).

On average, all groups of competencies of the set B. Build have more that 70% of high
scores (Figure 2).
                                      B.1. Application
                                       Development
                                      100,0
                                       80,0
                  B.6. Systems         60,0                   B.2. Component
                  Engineering          40,0                     Integration
                                       20,0
                                        0,0

                   B.5.
              Documentation                                   B.3. Testing
                Production


                                       B.4. Solution
                                       Deployment

Fig. 2. The quantity of high scores concerning the necessity of forming competencies of IT uni-
versity teachers indicated in the chapter “Build” of European e-Competence Framework (own
resource).

Figures 3-5 show the scores of the rest of groups of competencies. Analyzing the results
of the survey, it should be mentioned that IT teachers recognize the need for develop-
ment of professional technical competencies and to less extent – for development of
digital market competencies, as well as competencies in sales technologies and business
management.
                                       C.1. User Support
                                         70,0
                                         60,0
                                         50,0
                                         40,0
                                         30,0
                                         20,0
                                         10,0
            C.4. Problem
                                          0,0                          C.2. Change Support
            Management




                                      C.3. Service Delivery

Fig. 3. The quantity of high scores concerning the necessity of forming competencies of IT uni-
versity teachers indicated in Сhapter “Run” of European e-Competence Framework (own re-
source).
                                          D.1. Information
                                          Security Strategy…
                                          100,0                  D.2. ICT Quality
                   D 12 Digital Marketing 90,0
                                           80,0              Strategy Development
                                           70,0
                     D.11. Needs           60,0                      D.3. Education and
                    Identification         50,0                       Training Provision
                                           40,0
                                           30,0
                                           20,0
         D.10. Information and             10,0
                                            0,0                         D.4. Purchasing
              Knowledge…


                   D.9. Personnel                                         D.5. Sales Proposal
                   Development                                              Development
                           D.8. Contract                   D.6. Channel
                           Management                      Management
                                       D.7. Sales Management




Fig. 4. The quantity of high scores concerning the necessity of forming competencies of
IT university teachers indicated in Сhapter “Enable” of European e-Competence Framework
(own resource).



                                                E 1. Forecast
                                                Development
                                                70,0
                                                60,0                    E.2. Project and
                    E.9. IS Governance
                                                50,0                 Portfolio Management
                                                40,0
                                                30,0
             E.8. Information                   20,0
                                                10,0                        E.3. Risk Management
          Security Management
                                                 0,0


             E.7. Business Change                                         E.4. Relationship
                 Management                                                 Management

                             E.6. ICT Quality                    E.5. Process
                              Management                        Improvement




Fig. 5. The quantity of high scores concerning the necessity of forming competencies of
IT university teachers indicated in Сhapter “Manage” of European e-Competence Framework
(own resource).
4         Results of the Research

While conducting a survey among respondents – members of teaching staff of
IT departments, we have identified a need for constant improvement of own level of
professional competence to ensure a successful career. All the respondents noted that
lifelong learning to a large extent provides training for the role of teacher they are cur-
rently performing (Figure 6).

                                                       Not important
                      Not very important
                                                            0%
                              4%




                                                                         Very important
               Important                                                       54%
                 42%




    Fig. 6. Need for lifelong learning (advanced training) for further successful teaching activity

Assessing the necessity of training, IT teachers recognize very significant and substan-
tially significant difference between professional activity they are conducting now and
that necessary to be conducted in 10 years (Figure 7).
                                  not very
                                 significant
                                     4%




                                                                       very significant
                                                                             46%
               substantially
                significant
                   50%




Fig. 7. Assessment of difference in the professional work of the IT teacher now and in 10 years
Considering this issue, a model of professional competencies development is proposed,
whose aim is to improve the level of professional competencies of IT university teach-
ers. The model is presented in Figure 8.




     Fig. 8. A model of professional competencies development of IT university teachers

The conceptual unit of the model includes the Computer Science Educators standards,
the standards for training of IT specialists (field standards, curricula), requirements of
employers, and the principles of educational activity. The content of professional com-
petencies of IT university teachers is devised on the basis of the conceptual unit data.
Considering the analysis of the standards and models of competencies Computer Sci-
ence Educators, the results of the survey presented in figures 1-5, we propose to take 2
following standards as a basis: e-cF (Professional knowledge and skills: Plan, Build,
Run, Enable, Manage) + ISTE (Effective teaching and learning strategies, Effective
learning environments).
   The model distinguishes 4 stages: 1) Defining the need for training; 2) Selection of
courses for training; 3) Training (studying); 4) Assessment of the level of professional
competence.


4.1    The Need for Training: Factors and the Results of Self-Assessment of the
       Level of Professional Competencies
The first stage of the model is defining the need for training. The main factors influenc-
ing the awareness of the need for development in professional activity include self-
motivation, requests of students, requirements of employers, emergence of new infor-
mational technologies, new teaching technologies, and standards of competencies for
Computer Science Educators. Our research proves that the most significant factors mo-
tivating IT teachers to training are emergence of new technologies – 42 % and require-
ments of IT companies to training of IT specialists – 25 %.

          Emergence of new
               teaching                                        Requests of
           technologies and                                     students
               methods                                             4%
                 12%

         Self-motivation
               17%                                                   Energence of new
                                                                        information
                                                                    technologies which
      Requirements of IT
                                                                     are the subject of
        companies to
                                                                       teaching your
        training of IT
                                                                         disciplines
          specialists
                                                                            42%
             25%



           Fig. 9. Factors of motivation to professional competencies development

One of the efficient tools in defining the need for training is self-motivation (17%, ac-
cording to the results of our research), which is based on the desire of a teacher to
comply with the level of professional competence that would satisfy the students, first
of all. Addressing the standards and self-assessment of compliance with the competen-
cies specified therein are one of the methods of defining the need for self-development.
The proposed questionnaire comprising the levels of mastering particular competencies
due to the European e-Competence Framework can serve as the example of such self-
assessment. Every IT teacher will be able to assess their level (do not possess, aware,
sufficient, advanced, professional) according to a set of professional competencies, pro-
posed by the European competence framework e-CF. In particular, Figure 10 shows the
results of such a survey according to the set “B. Build”.
                                            B.Build

          B.6. Systems Engineering

 B.5. Documentation Production

          B.4. Solution Deployment

                       B.3. Testing

       B.2. Component Integration

      B.1. Application Development

                                      0%      20%          40%       60%        80%         100%

              Do not possess      Aware       Sufficient     Advanced        Professional


Fig. 10. The results of self-assessment of IT teachers according to indicators of the set “B. Build”
of e-CF


4.2      Selection of Courses for Training: Resources and Willingness of Teachers
         to Allocate Time and Costs for Studying
Computer science teachers are always keep their eyes on the latest advances, the newest
tools and breakthroughs [17].
   After defining the need for training, the second stage of the model of professional
competencies development consists in selection of courses for training.
   Institutes of postgraduate education, educational and training centers offer a signifi-
cant number of training courses. For the purpose of training in modern IT, there exist a
great variety of MOOCs and webinars that allow attending a training course in any
topic or aspect of academic discipline, passing tests, completing tasks. Such MOOCs
and webinars should be selected according to the following criteria:

─ Authorship of a course (a technology company, famous specialists);
─ Compliance of representation of materials of the course with a teaching style to pro-
  vide more efficient perception of the materials;
─ Possibility to cooperate while completing the tasks of a course;
─ Possibility to ask questions and get the answers;
─ Control of academic achievements at the end of the year;
─ Obtaining a course completion certificate.

Namely, the MOOCs Coursera, EdX and others in the IT field contain a large number
of resources for professional self-education and training. One example of a certification
course for a computer science teacher is a course “Foundations of Computer Science for
Teachers” hosted on a platform EdX [18] is shown on fig.11.
                  Fig. 11. The subjects of the MOOCs Coursera and EdX

Another example is the training courses, which teach how to teach computer science.
Typically, these courses consist of two parts - computer science and didactics. For ex-
ample, the course “Teaching Subject Computer Science” [19] contains the following
content: Computer Science (ways of thinking and working specific to computer science,
learn to judge the effects of technology and reflect on social aspects of computer sci-
ence, learn about fundamental aspects of computer science e.g. mathematics, logic, the-
oretical computer science, hardware and computer networks; acquire sound knowledge
of the software development process e.g. how to select a suitable programming envi-
ronment, algorithms and data structures) and Didactics (how to plan, teach, reflect on
and evaluate computer science lessons; how to prepare computer science topics in an
age-appropriate and motivating manner; how to understand, analyse and support sub-
ject-specific learning processes, how to connect computer science with pupils’ every-
day experiences; work with new technologies, as well as media-related and pedagogical
concepts which you apply in lessons).
   Needless to say, not all the courses and trainings are free. The results of the survey
show that not all the teachers are willing to allocate time for their development or pay
from salary for their development. 20% of teachers do not consider it necessary to in-
vest their own money into their development. About a half of respondents are willing
to allocate only 1-2 hours per week for their training (Figure 12).
        Specify the percent of your salary you        How many hours per week would you
         are willing to invest in your training        like to study (train) outside of the
                   60%                                           working hours?
          25%
                    5%                 0%
      20% 5%                                       more
                                       20%
       5%                                         than 7-
                                                   15%
  15%
  10%
                                                                                          1-2
                                                  5-6                                     45%
                                                  20%


                                            5%
      10%                                  30%          3-4
      25%                                               20%

Fig. 12. Willingness of teachers to allocate time and costs for professional competencies devel-
opment

For development of practical skills of teachers, it is necessary to constantly cooperate
with IT companies and participate in development of IT solutions of various level of
difficulty. Internships and involvement in project solutions at IT companies are one of
the most efficient mechanisms of consistent improvement of professional competence
in practical dimension. Cooperation with IT companies can be provided by means of:

─ Involvement of students and teachers in implementation of the projects ordered by
  IT companies. Hence, a teacher is managing a project and improving the level of
  practical skills of IT specialist;
─ Involvement of companies in teaching academic disciplines and practices. A teacher
  receives recommendations, practical cases, and assistance in their resolving;
─ Part of academic classes is transferred to a company and conducted under supervi-
  sion of a company’s tutor. Together with students, a teacher acts as an executive,
  improving the level of practical skills.

Attending conferences, workshops, and seminars where teachers are able to obtain new
knowledge and skills, is another efficient mechanism for their self-development.
   Every member of teaching staff of university should not only conduct educational
activities, but also carry out research, scientific projects, and publish the results of re-
search. Scientific achievements form a basis for their educational activities, since they
are of significant theoretic value and, thus, should be accessible for students.


4.3      Studying and Assessing the Level of Professional Competencies
         Development

The third stage is a direct training of teachers, which results in obtaining certificates,
diplomas, etc.
   The fourth stage consists in assessment of the level of professional competencies
and, if necessary, returning to the first stage. Assessment of the level can be conducted
by a teacher themselves, their students and colleagues, as well the supervisors. This
model of assessment is widely used in business, known as “360-degree feedback”. It is
necessary to properly develop behavioral indicators that will characterize the level of
professional competence, or use the ones offered in e-CF.


5      Conclusions

The proposed model, based on the analysis of modern standards of professional com-
petencies of IT teachers, consists in a range of consecutive stages: defining the need for
training, selection of courses for training, completing the courses, assessment of level
of professional competence. The need for training is formed due to the following fac-
tors: emergence of new information technologies, new teaching technologies, require-
ments of IT companies to qualification of graduates majoring in IT, requests of stu-
dents, and self-motivation. To define the need for professional competencies develop-
ment, the existing standards (e-CF, ISTE) should be used, in accordance with the de-
vised indicators for each set of competencies. The same indicators are to be used for
assessment of professional competencies of teachers. Postgraduate courses can be used
to substitute the advanced training courses. Additionally, it’s possible to use training
programs for teaching staffs of departments, which are based on MOOCs and form the
necessary competencies.


References
 1. Microsoft Education Transformation Framework for Higher Education. https://www.mi-
    crosoft.com/en-us/education/higher-education/education-transformation-framework/de-
    fault.aspx
 2. Daniel Newman: Top 6 Digital Transformation Trends In Education (2017),
    https://www.forbes.com/sites/danielnewman/2017/07/18/top-6-digital-transformation-
    trends-in-education/#21eaa7c32a9a
 3. Davis Tom: The BYOD evolution: Three common approaches (2016), https://www.enter-
    prise-cio.com
 4. Morze Nataliia V., Smyrnova-Trybulska Eugenia, Glazunova Olena: Design of a University
    Learning Environment for SMART Education. In: Smart Technology Applications in Busi-
    ness Environments (2017), DOI: 10.4018/978-1-5225-2492-2.ch011
 5. Lee Stott: Cloud Computing a blended learning approach to education (2018),
    https://blogs.msdn.microsoft.com/uk_faculty_connection/2018/05/04/cloud-computing-a-
    blended-learning-approach-to-education
 6. Morze, N.V., Glazunova, O.G.: Design of electronic learning courses for IT students
    considering the dominant learning style. In Communications in Computer and Information
    Science Communications in Computer and Information Science book series, volume 469,
    (2014), https://link.springer.com/chapter/10.1007/978-3-319-13206-8_13
 7. Carnevale, A., Smith, N., & Melton, M.: STEM. Washington, DC: Georgetown University
    Center on Education and the Workforce (2011), http://cew.georgetown.edu/stem
 8. Rothwell, J.: The hidden STEM economy. Washington, DC: Brookings, (2013),
    https://www.brookings.edu/research/the-hidden-stem-economy
 9. How to become a computer science teacher, (2014)
10. Ji Hyun Yu, Yi Luo, Yan Sun, Johannes Strobel A.: Conceptual K-6 Teacher Competency
    Model for Teaching Engineering. In: International Conference on Teaching and Learning in
    Higher Education (ICTLHE 2012) in conjunction with RCEE & RHED Procedia - Social
    and Behavioral Sciences, 56, p.p.243 – 252, (2012). doi: 10.1016/j.sbspro.2012.09.651
11. European framework for the digital competence of educators, (2017), https://publica-
    tions.europa.eu/en/publication-detail/-/publication/fcc33b68-d581-11e7-a5b9-
    01aa75ed71a1/language-en
12. Kuzminska O., Mazorchuk M., Morze N., Pavlenko V., Prokhorov A.: Digital Competency
    of the Students and Teachers in Ukraine: Measurement, Analysis, Development Prospects.
    In: ICT in Education, Research and Industrial Applications, vol. 2104, p. 366-379, (2018),
    http://ceur-ws.org/Vol-2104/paper_169.pdf
13. ISTE for Computer Science Educators, https://www.iste.org/standards/for-computer-sci-
    ence-educators
14. Understanding information technology. A guide to IT career opportunities, (2015),
    https://www.computerscienceonline.org/information-technology/
15. Brandwagt John: What it skills do you need for a successful career in the industry? (2017),
    https://www.inteqna.com/blog/what-it-skills-do-you-need-for-a-successful-career-in-the-
    industry
16. European-e-Competence-Framework,                      http://ecompetences.eu/wp-content/up-
    loads/2014/02/European-e-Competence-Framework-3.0_CEN_CWA_16234-1_2014.pdf
17. Computer Science Teacher Certification, Teaching Certification, http://www.teaching-cer-
    tification.com/computer-science-teacher-certification.html
18. Owen John B.: Foundations of Computer Science for Teachers, The University of Texas,
    https://www.edx.org/course/foundations-computer-science-teachers-utaustinx-ut-wtcs-15-
    01x-0
19. Teacher Training Programme - Teaching Subject Computer Science, TU Graz University of
    Technology, https://www.tugraz.at/en/studying-and-teaching/degree-and-certificate-pro-
    grammes/teacher-training-programme/teacher-training-programme-teaching-subject-com-
    puter-science/2018