An investigation into internetworking education

Computer network technology and the Internet grew rapidly in recent years. Their growth created a large demand from industry for the development of IT and internetworking professionals. These professionals need to be equipped with both technical hands-on skills and non-technical or soft skills. In order to supply new professionals to the industry, educational institutions need to address these skills training in their curricula. Technical hands-on skills in internetworking education can be emphasised through the practical use of equipment in classrooms. The provision of the networking equipment to the internetworking students is a challenge. Particularly, university students in developing countries may find that this equipment is ineffectively provided by their teaching institutions, because of the expense. Modern online learning tools, such as remote access laboratories, may be used to address this need. However, the provision of such tools will also need to concentrate upon the pedagogical values. In addition, traditional remote access laboratories provide only text-based access, which was originally designed for highly professional use. Novice students may struggle with learning in these virtual environments, especially when the physical equipment is not available locally. Furthermore, non-technical skills or soft skills are social skills that should not be neglected in graduates’ future workplaces. A traditional model of developing soft skills that was used in face-to-face classroom may not be as effective when applied in an online classroom. Research on students’ opinions about their soft skills development during attending internetworking courses is needed to be conducted. In order to address both research needs, this study was focused on two research aspects related to online learning in internetworking education. The first focus was on research into providing a suitable technical learning environment to distance internetworking students. The second focus was on the students’ opinions about their non-technical skills development. To provide a close equivalent of a face-to-face internetworking learning environment to remote students in Thailand, a transformation of a local internetworking laboratory was conducted. A new multimedia online learning environment integrated pedagogically-rich tools such as state model diagrams (SMDs), a real-time video streaming of equipment and a voice communication tool. Mixed research data were gathered from remote online and local student participants. The remote online participants were invited to use the new learning environment developed in this study. Qualitative research data were collected from twelve remote online students after their trial usage. Concurrently, another set of research data were collected from local students asking their opinion about the development of soft skills in the internetworking course. There were sixty six participants in this second set of research data. Although the research data was limited, restricting the researcher’s ability to generalise, it can be concluded that the provision of multimedia tools in an online internetworking learning environment was beneficial to distant students. The superiority of the traditional physical internetworking laboratory cannot be overlooked; however, the remote laboratory could be used as a supplementary self-practice tool. A concrete learning element such as a real-time video stream and diagrams simplified students learning processes in the virtual environment. Faster communication with the remote instructors and the equipment are also critical factors for a remote access network to be successful. However, unlike the face-to-face laboratory, the future challenge of the online laboratory will creating materials which will encourage students to build soft skills in their laboratory sessions

An investigation into the use of B-Nodes and state models for computer network technology and education

This thesis consists of a series of internationally published, peer reviewed, conference research papers and one journal paper. The papers evaluate and further develop two modelling methods for use in Information Technology (IT) design and for the educational and training needs of students within the area of computer and network technology. The IT age requires technical talent to fill positions such as network managers, web administrators, e-commerce consultants and network security experts as IT is changing rapidly, and this is placing considerable demands on higher educational institutions, both within Australia and internationally, to respond to these changes

Constructing the Learning Environment in Classroom Convivial Computer Tools for Higher Education

New education technologies are coming on stream, enabling connectivity among teachers, facilitators and students. Students have to learn how to access Managed Learning Environments each time they move to different course websites. These barriers can hinder the real understanding of the subject matter for a course. This research calls for a rethink of pedagogical process towards blending together commonly used emerging social software and legacy educational tools rather than developing new tools for the classroom. Indeed, a learning tool should fit well to the learning model and philosophy of that course. Three case studies were conducted through different courses in the Digital Media master program and Informatik program at the University of Bremen, Germany. Students worked in small groups to design digital media and learning portal that should make learning more interesting and meaningful for them. At the end, this research proposes the concept of Constructing the Learning Environment in classroom and Convivial Computer Tools for higher education, where students and teachers, via dialogues in the class, can negotiate to deploy a set of selected tools and functions to match their learning needs. It is also to show that a tool with too many functions can cause confusion, rather than enhance effectiveness. To empower collaborative, interactive and personal learning, this work proposes the blended learning and classroom procedures for a convivial selection of educational tools. At the end, our innovative attempt is to bring constructionist learning into the higher education context

A basic web-based distance education model

Thesis (Master)--Izmir Institute of Technology, Computer Engineering, Izmir, 2005Includes bibliographical references (leaves: 147)Text in English; Abstract: Turkish and Englishxv, 201 leavesDuring the recent years, the rapid growth of the Web and multimedia technologies urged a shift of Computer-Based Educational Technology towards the Web. In the leading universities of the developed countries, studies on Web-Based Education have started and in an increasing manner are going strong. In the last few years, the leading universities of Turkey are also greatly interested in Web-Based Education and have started their re-structuring accordingly.The goal of this study is to design a basic model to be utilized by a university aiming to offer web-based distance education. In achieving this; by the use of system approach, a model comprising of three subsystems, namely system analysis, system design and evaluation&control, working in coordination with each other, has been tried to be proposed. There may be only one missing point of this study, that is; since preparing a lesson or program according to this model was not foreseen in this thesis, the effectiveness evaluations suggested in the evaluation&control subsystem could not be realized. It is recommended to realize such an evaluation in a further study to make it possible to reveal the effectiveness of web-based education by preparing a lesson or program according to this model.On the other hand, a survey has been conducted in Turkey in some of the universities either offering web-based education or are interested in studies in this field.The aim of this survey is to analyze from system design point of view the studies carried out in our universities on this matter and to get a picture of the existing situation.The directed questions aiming this were prepared by taking into consideration of the three stages of system design subsystem, i.e. administrative design, educational design, and technological design. It is intended for the result of this survey to shed light to the new-coming institutions in this field. As a matter of fact, each stage of this subsystem is a survey item itself and should be researched one by one in other studies.Furthermore, for individuals interested in distance education and web-based distance education and for people newly involved in this matter, this thesis is intended to be a reference material and to serve this purpose the sections are prepared containing the basic information accordingly. Nevertheless, since most of the information regarding system design are prepared without taking into consideration the disabled people, the relevant information are not complete. In another study, the offering of the web-based education to the disabled people, especially for deaf, hard of hearing or speech impaired, and blind students, has to be investigated.Finally, in this thesis the proposed model for the Web-Based Distance Education, as being a basic and conceptual model, has a flexible structure; i.e., suitable for all the institutions and establishments intending to offer the web-based education.What is important here, is to exploit the potential sources within the institution that will display the required systematic approach

An Empirical Study on Web Usability

This project aims to better utilize the World Wide Web as a sociotechnical capital by improving web usability and user experience. Grounded in human-computer interaction literature, four hypotheses were formed and tested via two task-oriented studies: an online survey and an eye tracking study. Subjective assessments and objective measurements were taken. The results provided insight on designing websites that facilitate a more effective and pleasant user experience. Implications for improving the World Wide Web as social capital are discussed

Developing a Methodology for Creating Flexible Instructional Information Technology Laboratories

Many schools - particularly the more dynamic segments of high schools and community colleges - have begun to undertake instruction in the areas of PC repair, networking (vendor-neutral and specific alike), operating systems, wireless technologies, and so forth. For some schools, however, this leap forward has come only with a later realization that there are tremendous startup costs and ongoing expenses associated with such endeavors, especially considering that many of these instructional elements have historically called for independent instructional facilities. From this perspective, institutions may find they have to cut their programmatic vision short in the face of harsher budgetary realities of supporting so many laboratories, or abandon their efforts altogether. In this paper, it is suggested that this scenario does not have to become a reality. Instead, it is proposed that affordable, functional, and practical multipurpose Information Technology (IT) classrooms can be developed when a combination of good initial design and planning, affordable technologies, and mature business models are practiced. With the application of certain methodologies, a system can be created for any institution wishing to develop facilities and the means to support and mature them over time. Often faced with budgetary constraints, space limitations, or uncertain financial support mechanisms, it is becoming important that higher education institutions engaging in the instruction of advanced computing and networking develop a process and methodology for establishing and maintaining computing laboratories that can service a variety of diverse and complex instructional needs