Towards a framework for the integration of information security into undergraduate computing curricula
- Authors: Gomana, Lindokuhle Gcina , Thomson, Kerry-Lynn
- Date: 2017
- Subjects: Information technology -- Study and teaching , Computer security -- Study and teaching Educational technology Computer networks -- Security measures
- Language: English
- Type: Thesis , Masters , MTech
- Identifier: http://hdl.handle.net/10948/13691 , vital:27296
- Description: Information is an important and valuable asset, in both our everyday lives and in various organisations. Information is subject to numerous threats, these can originate internally or externally to the organisation and could be accidental, intentional or caused by natural disasters. As an important organisational asset, information should be appropriately protected from threats and threat agents regardless of their origin. Organisational employees are, however, often cited as the “weakest link” in the attempt to protect organisational information systems and related information assets. Additionally to this, employees are one of the biggest and closest threat-agents to an organisation’s information systems and its security. Upon graduating, computing (Computer Science, Information Systems and Information Technology) graduates typically become organisational employees. Within organisations, computing graduates often take on roles and responsibilities that involve designing, developing, implementing, upgrading and maintaining the information systems that store, process and transmit organisational information assets. It is, therefore, important that these computing graduates possess the necessary information security skills, knowledge and understanding that could enable them to perform their roles and responsibilities in a secure manner. These information security skills, knowledge and understanding can be acquired through information security education obtained through a qualification that is offered at a higher education institution. At many higher education institutions where information security is taught, it is taught as a single, isolated module at the fourth year level of study. The problem with this is that some computing students do not advance to this level and many of those that do, do not elect information security as a module. This means that these students may graduate and be employed by organisations lacking the necessary information security skills, knowledge and understanding to perform their roles and responsibilities securely. Consequently, this could increase the number of employees who are the “weakest link” in securing organisational information systems and related information assets. The ACM, as a key role player that provides educational guidelines for the development of computing curricula, recommends that information security should be pervasively integrated into computing curricula. However, these guidelines and recommendations do not provide sufficient guidance on “how” computing educators can pervasively integrate information security into their modules. Therefore, the problem identified by this research is that “currently, no generally used framework exists to aid the pervasive integration of information security into undergraduate computing curricula”. The primary research objective of this study, therefore, is to develop a framework to aid the pervasive integration of information security into undergraduate computing curricula. In order to meet this objective, secondary objectives were met, namely: To develop an understanding of the importance of information security; to determine the importance of information security education as it relates to undergraduate computing curricula; and to determine computing educators’ perspectives on information security education in a South African context. Various research methods were used to achieve this study’s research objectives. These research methods included a literature review which was used to define and provide an in-depth discussion relating to the domain in which this study is contained, namely: information security and information security education. Furthermore, a survey which took the form of semi-structured interviews supported by a questionnaire, was used to elicit computing educators’ perspectives on information security education in a South African context. Argumentation was used to argue towards the proposed framework to aid the pervasive integration of information security into undergraduate computing curricula. In addition, modelling techniques were used to model the proposed framework and scenarios were used to demonstrate how a computing department could implement the proposed framework. Finally, elite interviews supported by a questionnaire were conducted to validate the proposed framework. It is envisaged that the proposed framework could assist computing departments and undergraduate computing educators in the integration of information security into their curricula. Furthermore, the pervasive integration of information security into undergraduate computing curricula could ensure that computing graduates exit higher education institutions possessing the necessary information security skills, knowledge and understanding to enable them to perform their roles and responsibilities securely. It is hoped that this could enable computing graduates to become a stronger link in securing organisational information systems and related assets.
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- Date Issued: 2017
AC3P: an architecture using cloud computing for the provision of mathematical powerpoint content to feature phones
- Authors: Joubert, Jean-Pierre
- Date: 2012
- Subjects: Cloud computing , Mobile computing , Mathematics -- Study and teaching.
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:10474 , http://hdl.handle.net/10948/d1011088 , Cloud computing , Mobile computing , Mathematics -- Study and teaching.
- Description: The Govan Mbeki Mathematics Development Unit (GMMDU) provides additional mathematics content to learners via mathematics workshops and DVDs. Mathematics is presented in PPT format. The prominence of feature phone usage has been confirmed amongst learners in socio-economic disadvantaged schools, specifically those learners participating in the GMMDU mathematics workshops. Feature phones typically contain limited device resources such as memory, battery power, and network resources. Distributed computing provides the potential to facilitate a new class of mobile applications with the provision of off-device resources. The objective of this research was the design of an architecture using Cloud Computing for the provision of mathematics in the form of PPT slides to feature phones. The capabilities of typical feature phones were reviewed as well as various distributed computing architectures that demonstrate potential benefit to the mobile environment. An Architecture using Cloud Computing for Content Provision (AC3P) was subsequently designed and applied as a proof of concept to facilitate the provision of mathematics in the form of PPT slides to feature phones. The application of AC3P was evaluated for efficiency and effectiveness. It was demonstrated that the application of AC3P provided efficient and effective provision of PPT to feature phones. The successful application of AC3P provided evidence that Cloud Computing may be used to facilitate the provision of mathematics content to feature phones. It is evident that AC3P may be applied in domains other than the provision of mathematics.
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- Date Issued: 2012
The specification and design of a prototype 2-D MPEG-4 authoring tool
- Authors: Viljoen, Deon Walter
- Date: 2003
- Subjects: MPEG (Video coding standard) , Digital video -- Standards , Multimedia systems
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:11092 , http://hdl.handle.net/10948/d1015741 , MPEG (Video coding standard) , Digital video -- Standards , Multimedia systems
- Description: The purpose of this project was the specification, design and implementation of a prototype 2-D MPEG-4 authoring tool. A literature study was conducted of the MPEG-4 standard and multimedia authoring tools to determine the specification and design of a prototype 2- D MPEG-4 authoring tool. The specification and design was used as a basis for the implementation of a prototype 2-D MPEG-4 authoring tool that complies with the Complete 2-D Scene Graph Profile. The need for research into MPEG-4 authoring tools arose from the reported lack of knowledge of the MPEG-4 standard and the limited implementations of MPEG-4 authoring tools available to content authors. In order for MPEG-4 to reach its full potential, it will require authoring tools and content players that satisfy the needs of its users. The theoretical component of this dissertation included a literature study of the MPEG-4 standard and an investigation of relevant multimedia authoring systems. MPEG-4 was introduced as a standard that allows for the creation and streaming of interactive multimedia content at variable bit rates over high and low bandwidth connections. The requirements for the prototype 2-D MPEG-4 authoring system were documented and a prototype system satisfying the requirements was designed, implemented and evaluated. The evaluation of the prototype system showed that the system successfully satisfied all its requirements and that it provides the user with an easy to use and intuitive authoring tool. MPEG-4 has the potential to satisfy the increasing demand for innovative multimedia content on low bandwidth networks, including the Internet and mobile networks, as well as the need expressed by users to interact with multimedia content. This dissertation makes an important contribution to the understanding of the MPEG-4 standard, its functionality and the design of a 2-D MPEG-4 Authoring tool. Keywords: MPEG-4; MPEG-4 authoring; Binary Format for Scenes.
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- Date Issued: 2003