Data quality issues in electronic health records for large-scale databases
- Authors: Saiod, Abdul Kader
- Date: 2019
- Subjects: Electronic Health Records , Electronic Health Records--organization & administration Database management
- Language: English
- Type: Thesis , Doctoral , DPhil
- Identifier: http://hdl.handle.net/10948/44940 , vital:38190
- Description: Data Quality (DQ) in Electronic Health Records (EHRs) is one of the core functions that play a decisive role to improve the healthcare service quality. The DQ issues in EHRs are a noticeable trend to improve the introduction of an adaptive framework for interoperability and standards in Large-Scale Databases (LSDB) management systems. Therefore, large data communications are challenging in the traditional approaches to satisfy the needs of the consumers, as data is often not capture directly into the Database Management Systems (DBMS) in a seasonably enough fashion to enable their subsequent uses. In addition, large data plays a vital role in containing plenty of treasures for all the fields in the DBMS. EHRs technology provides portfolio management systems that allow HealthCare Organisations (HCOs) to deliver a higher quality of care to their patients than that which is possible with paper-based records. EHRs are in high demand for HCOs to run their daily services as increasing numbers of huge datasets occur every day. Efficient EHR systems reduce the data redundancy as well as the system application failure and increase the possibility to draw all necessary reports. However, one of the main challenges in developing efficient EHR systems is the inherent difficulty to coherently manage data from diverse heterogeneous sources. It is practically challenging to integrate diverse data into a global schema, which satisfies the need of users. The efficient management of HER systems using an existing DBMS present challenges because of incompatibility and sometimes inconsistency of data structures. As a result, no common methodological approach is currently in existence to effectively solve every data integration problem. The challenges of the DQ issue raised the need to find an efficient way to integrate large EHRs from diverse heterogeneous sources. To handle and align a large dataset efficiently, the hybrid algorithm method with the logical combination of Fuzzy-Ontology along with a large-scale EHRs analysis platform has shown the results in term of improved accuracy. This study investigated and addressed the raised DQ issues to interventions to overcome these barriers and challenges, including the provision of EHRs as they pertain to DQ and has combined features to search, extract, filter, clean and integrate data to ensure that users can coherently create new consistent data sets. The study researched the design of a hybrid method based on Fuzzy-Ontology with performed mathematical simulations based on the Markov Chain Probability Model. The similarity measurement based on dynamic Hungarian algorithm was followed by the Design Science Research (DSR) methodology, which will increase the quality of service over HCOs in adaptive frameworks.
- Full Text:
- Date Issued: 2019
- Authors: Saiod, Abdul Kader
- Date: 2019
- Subjects: Electronic Health Records , Electronic Health Records--organization & administration Database management
- Language: English
- Type: Thesis , Doctoral , DPhil
- Identifier: http://hdl.handle.net/10948/44940 , vital:38190
- Description: Data Quality (DQ) in Electronic Health Records (EHRs) is one of the core functions that play a decisive role to improve the healthcare service quality. The DQ issues in EHRs are a noticeable trend to improve the introduction of an adaptive framework for interoperability and standards in Large-Scale Databases (LSDB) management systems. Therefore, large data communications are challenging in the traditional approaches to satisfy the needs of the consumers, as data is often not capture directly into the Database Management Systems (DBMS) in a seasonably enough fashion to enable their subsequent uses. In addition, large data plays a vital role in containing plenty of treasures for all the fields in the DBMS. EHRs technology provides portfolio management systems that allow HealthCare Organisations (HCOs) to deliver a higher quality of care to their patients than that which is possible with paper-based records. EHRs are in high demand for HCOs to run their daily services as increasing numbers of huge datasets occur every day. Efficient EHR systems reduce the data redundancy as well as the system application failure and increase the possibility to draw all necessary reports. However, one of the main challenges in developing efficient EHR systems is the inherent difficulty to coherently manage data from diverse heterogeneous sources. It is practically challenging to integrate diverse data into a global schema, which satisfies the need of users. The efficient management of HER systems using an existing DBMS present challenges because of incompatibility and sometimes inconsistency of data structures. As a result, no common methodological approach is currently in existence to effectively solve every data integration problem. The challenges of the DQ issue raised the need to find an efficient way to integrate large EHRs from diverse heterogeneous sources. To handle and align a large dataset efficiently, the hybrid algorithm method with the logical combination of Fuzzy-Ontology along with a large-scale EHRs analysis platform has shown the results in term of improved accuracy. This study investigated and addressed the raised DQ issues to interventions to overcome these barriers and challenges, including the provision of EHRs as they pertain to DQ and has combined features to search, extract, filter, clean and integrate data to ensure that users can coherently create new consistent data sets. The study researched the design of a hybrid method based on Fuzzy-Ontology with performed mathematical simulations based on the Markov Chain Probability Model. The similarity measurement based on dynamic Hungarian algorithm was followed by the Design Science Research (DSR) methodology, which will increase the quality of service over HCOs in adaptive frameworks.
- Full Text:
- Date Issued: 2019
Factors impacting the design of a mobile application for soil management: a case study of the Eastern Cape crops
- Authors: Botha, Stephan
- Date: 2019
- Subjects: Mobile applications -- South Africa -- Eastern Cape , Information technology -- South Africa -- Eastern Cape Soil management -- South Africa -- Eastern Cape
- Language: English
- Type: Thesis , Masters , MTech
- Identifier: http://hdl.handle.net/10948/44907 , vital:38187
- Description: Some of the biggest challenges the global community has to face are the ever-dwindling levels of freshwater resources, the drastic impact of the greenhouse gases on the global climate and the loss of non-renewable fertile soil. South African agriculture contributes a total of 12.7% to the overall South African GDP (gross domestic product). Only a small portion of the South African soil is considered as being able to grow healthy and nutritious crops. The world of information communication technology (ICT) is extremely vast and growing daily with newly created tools, to accommodate the needs of a specific sector, such as agriculture. As the ICT-based agricultural solutions increase and improve, the uptake of these solutions within the South African agricultural sector becomes even smaller. The reasons for the low uptake of mobile soil management solutions for crop-growing farmers are unknown, due to limited research conducted. The identified problem was a lack of understanding of the way mobile technologies can be designed to adequately support farmers to correctly manage their soil to produce the best possible crops. The primary objective of this research study was to identify factors, which may have a significant impact on the design of a mobile soil management application for crop farmers in the Eastern Cape (South Africa). The secondary objectives were as follows: (i) to determine what soil management is and which aspects are required to implement soil management effectively; (ii) to identify possible mobile technologies suitable to act as an effective support structure for a mobile soil management application; and (iii) to identify which user experience guidelines are key for the development of an effective mobile soil management solution and to compile a user experience guideline for an effective mobile soil management solution. Achieving these objectives, resulted in a better understanding of the identified problem. The problem was addressed by conducting a thorough literature review and a case study to better grasp the different aspects of the identified problem. Quantitative data was collected by conducting a user interface evaluation. Qualitative data were also gathered by means of a field test using the mobile soil management application. The field test was done in conjunction with a heuristic evaluation, completed by the participants. Data triangulation was used to compare the results of the gathered data. The results from the data triangulation were used to confirm the factors, which made the most significant impact on the success of the soil management application. These confirmed design factors were used to produce a list of guidelines to improve the design of future mobile ICT soil management applications.
- Full Text:
- Date Issued: 2019
- Authors: Botha, Stephan
- Date: 2019
- Subjects: Mobile applications -- South Africa -- Eastern Cape , Information technology -- South Africa -- Eastern Cape Soil management -- South Africa -- Eastern Cape
- Language: English
- Type: Thesis , Masters , MTech
- Identifier: http://hdl.handle.net/10948/44907 , vital:38187
- Description: Some of the biggest challenges the global community has to face are the ever-dwindling levels of freshwater resources, the drastic impact of the greenhouse gases on the global climate and the loss of non-renewable fertile soil. South African agriculture contributes a total of 12.7% to the overall South African GDP (gross domestic product). Only a small portion of the South African soil is considered as being able to grow healthy and nutritious crops. The world of information communication technology (ICT) is extremely vast and growing daily with newly created tools, to accommodate the needs of a specific sector, such as agriculture. As the ICT-based agricultural solutions increase and improve, the uptake of these solutions within the South African agricultural sector becomes even smaller. The reasons for the low uptake of mobile soil management solutions for crop-growing farmers are unknown, due to limited research conducted. The identified problem was a lack of understanding of the way mobile technologies can be designed to adequately support farmers to correctly manage their soil to produce the best possible crops. The primary objective of this research study was to identify factors, which may have a significant impact on the design of a mobile soil management application for crop farmers in the Eastern Cape (South Africa). The secondary objectives were as follows: (i) to determine what soil management is and which aspects are required to implement soil management effectively; (ii) to identify possible mobile technologies suitable to act as an effective support structure for a mobile soil management application; and (iii) to identify which user experience guidelines are key for the development of an effective mobile soil management solution and to compile a user experience guideline for an effective mobile soil management solution. Achieving these objectives, resulted in a better understanding of the identified problem. The problem was addressed by conducting a thorough literature review and a case study to better grasp the different aspects of the identified problem. Quantitative data was collected by conducting a user interface evaluation. Qualitative data were also gathered by means of a field test using the mobile soil management application. The field test was done in conjunction with a heuristic evaluation, completed by the participants. Data triangulation was used to compare the results of the gathered data. The results from the data triangulation were used to confirm the factors, which made the most significant impact on the success of the soil management application. These confirmed design factors were used to produce a list of guidelines to improve the design of future mobile ICT soil management applications.
- Full Text:
- Date Issued: 2019
Innovation: its impact on the success of construction micro, small, and medium enterprises in northern Nigeria
- Authors: Tsado, Abel John
- Date: 2019
- Subjects: Construction industry -- Nigeria , Business enterprises -- Nigeria Success in business -- Nigeria Economics—Environmental aspects
- Language: English
- Type: Thesis , Doctoral , DPhil
- Identifier: http://hdl.handle.net/10948/44951 , vital:38191
- Description: There is growing recognition of the important role Construction Micro, Small and Medium Enterprises (CMSMEs) play in economic development. In 2013, Nigeria had about 36,994,578 Micro, Small, and Medium Enterprises (MSMEs) and 731,303 CMSMEs, about 1.99% of the total number of MSMEs in the country. However, 50% of CMSMEs in Nigeria close down within their first five years of existence. Consequently, only about 10% of CMSMEs in Nigeria survive, thrive, and grow to maturity. Enterprises failing within so short a time, portend a huge problem surrounding CMSME innovation and success. While literature seems to indicate innovation as the likely way out of CMSMEs failure, few researchers have considered the connection between CMSMEs innovation and their success. Hence, this research aimed to explore the effect of innovation(s) and innovation systems on the success of the Northern Nigerian CMSMEs. The research objectives were: to identify the types of innovation that are predominant in/peculiar to the Northern Nigerian CMSMEs; to determine how the types of innovation impact the success of the Northern Nigerian CMSMEs; to establish what the innovation systems that manage the innovation of the Northern Nigerian CMSMEs are; and, to determine how the innovation systems, promote innovation among the Northern Nigerian CMSMEs. Qualitative research method was utilised; consisting of 17 recorded interviews within Northern Nigerian which is the study area. The interview also employed structured interview guide, comprising structured open-ended questions to ensure consistency and rigour in the data collection process. The research adopted two stage non-probabilistic sampling, comprising judgmental and snowballing sampling for stage one and two respectively. In stage one, participants were drawn judgmentally based on their innovation and in stage two, the sample size was expanded, using a snowballing sampling technique where the participants in stage one suggested other participants who had also been innovative. Data collected were transcribed and open coded, while the codes for innovation types, and innovation impact on CMSME success were developed with the aid of a deductive code earlier developed from literature. The code occurrences were determined and categorised, and themes were developed. These themes were then subjected to interpretation and analysis. The research findings indicate that the predominant type of innovations within the CMSMEs in the northern part of Nigeria are product innovation, management innovation and service innovation. In addition, there are, technological application innovations, logistics innovations and labour innovations. These innovations impact on the profit, capital, customers, workers and the products of the CMSMEs studied. The innovations are responsible for the CMSMEs success periods, reasons for success and their salient points of success. Therefore, the research concludes that innovation impacts on the studied CMSMEs success. Consequently, the research achieved its aim. The study also discovered an absence of systems that support the innovation of CMSMEs in the northern part of Nigeria. Through this research, an innovation system framework has been developed and it is recommended that it be implemented because of the observed lack of innovation systems in Nigeria.
- Full Text:
- Date Issued: 2019
- Authors: Tsado, Abel John
- Date: 2019
- Subjects: Construction industry -- Nigeria , Business enterprises -- Nigeria Success in business -- Nigeria Economics—Environmental aspects
- Language: English
- Type: Thesis , Doctoral , DPhil
- Identifier: http://hdl.handle.net/10948/44951 , vital:38191
- Description: There is growing recognition of the important role Construction Micro, Small and Medium Enterprises (CMSMEs) play in economic development. In 2013, Nigeria had about 36,994,578 Micro, Small, and Medium Enterprises (MSMEs) and 731,303 CMSMEs, about 1.99% of the total number of MSMEs in the country. However, 50% of CMSMEs in Nigeria close down within their first five years of existence. Consequently, only about 10% of CMSMEs in Nigeria survive, thrive, and grow to maturity. Enterprises failing within so short a time, portend a huge problem surrounding CMSME innovation and success. While literature seems to indicate innovation as the likely way out of CMSMEs failure, few researchers have considered the connection between CMSMEs innovation and their success. Hence, this research aimed to explore the effect of innovation(s) and innovation systems on the success of the Northern Nigerian CMSMEs. The research objectives were: to identify the types of innovation that are predominant in/peculiar to the Northern Nigerian CMSMEs; to determine how the types of innovation impact the success of the Northern Nigerian CMSMEs; to establish what the innovation systems that manage the innovation of the Northern Nigerian CMSMEs are; and, to determine how the innovation systems, promote innovation among the Northern Nigerian CMSMEs. Qualitative research method was utilised; consisting of 17 recorded interviews within Northern Nigerian which is the study area. The interview also employed structured interview guide, comprising structured open-ended questions to ensure consistency and rigour in the data collection process. The research adopted two stage non-probabilistic sampling, comprising judgmental and snowballing sampling for stage one and two respectively. In stage one, participants were drawn judgmentally based on their innovation and in stage two, the sample size was expanded, using a snowballing sampling technique where the participants in stage one suggested other participants who had also been innovative. Data collected were transcribed and open coded, while the codes for innovation types, and innovation impact on CMSME success were developed with the aid of a deductive code earlier developed from literature. The code occurrences were determined and categorised, and themes were developed. These themes were then subjected to interpretation and analysis. The research findings indicate that the predominant type of innovations within the CMSMEs in the northern part of Nigeria are product innovation, management innovation and service innovation. In addition, there are, technological application innovations, logistics innovations and labour innovations. These innovations impact on the profit, capital, customers, workers and the products of the CMSMEs studied. The innovations are responsible for the CMSMEs success periods, reasons for success and their salient points of success. Therefore, the research concludes that innovation impacts on the studied CMSMEs success. Consequently, the research achieved its aim. The study also discovered an absence of systems that support the innovation of CMSMEs in the northern part of Nigeria. Through this research, an innovation system framework has been developed and it is recommended that it be implemented because of the observed lack of innovation systems in Nigeria.
- Full Text:
- Date Issued: 2019
The challenges of professional women in a male-dominated South African construction industry
- Authors: Tyindyana, Xolile
- Date: 2019
- Subjects: Construction industry -- South Africa , Construction industry -- South Africa -- Management Women industrialists -- South Africa
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/44962 , vital:38192
- Description: The opinions that South African construction industry is the most untransformed sector, highly gender active and men have difficulty in accepting women in the construction industry, hindered the development of the South African economy. The improved number of professional women entering the statuses of this male dominance is noticeable, but the percentage of men still speak volume. Hence, there are imbalances that are correspondent to discrimination trials. This study explore challenges faced by professional women in the construction industry of South Africa, in the Eastern Cape. The study embraced exploratory research design in order to formulate preliminary investigations based on relatively unknown areas of professional women in construction industry. Therefore, this qualitative method incorporated interpretivism as its research philosophy, with the motive that this paradigm succeeds individual ontology that does not perceive as objective and independent. The purposeful sampling technique deployed in identifying the research participants, coupled by ten (10) women rendering professional services in the construction industry. Data collected was analysed thematically, which gave rise to presented themes, deliberated and construed in headings framed from research objectives. The study revealed that professional women still trapped between resisting, accommodating masculine politics and femininity distinctions regardless of evolutions. Most participants attested to the gender imbalances that propagates marginalisation, which is in line with the revelations. The study also suggest that men reject professionalism identity in the context of women. Other key challenges were not limited to backgrounds of the industry, outlook and progression that necessitated women taking executive positions. Further still, participants are aware of flouted construction industry policies and the strategies to use to by their counterparts to obscure them. Hence, the study suggested monitoring and review of policies in place by the policy makers. A recommended that similar research be carried out in South Africa, particularly provinces, as a literature gap has been identified. These recommended studies could enhance professional women, men and policy makers in profound consideration of the challenges faced by professional women in the construction industry.
- Full Text:
- Date Issued: 2019
- Authors: Tyindyana, Xolile
- Date: 2019
- Subjects: Construction industry -- South Africa , Construction industry -- South Africa -- Management Women industrialists -- South Africa
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/44962 , vital:38192
- Description: The opinions that South African construction industry is the most untransformed sector, highly gender active and men have difficulty in accepting women in the construction industry, hindered the development of the South African economy. The improved number of professional women entering the statuses of this male dominance is noticeable, but the percentage of men still speak volume. Hence, there are imbalances that are correspondent to discrimination trials. This study explore challenges faced by professional women in the construction industry of South Africa, in the Eastern Cape. The study embraced exploratory research design in order to formulate preliminary investigations based on relatively unknown areas of professional women in construction industry. Therefore, this qualitative method incorporated interpretivism as its research philosophy, with the motive that this paradigm succeeds individual ontology that does not perceive as objective and independent. The purposeful sampling technique deployed in identifying the research participants, coupled by ten (10) women rendering professional services in the construction industry. Data collected was analysed thematically, which gave rise to presented themes, deliberated and construed in headings framed from research objectives. The study revealed that professional women still trapped between resisting, accommodating masculine politics and femininity distinctions regardless of evolutions. Most participants attested to the gender imbalances that propagates marginalisation, which is in line with the revelations. The study also suggest that men reject professionalism identity in the context of women. Other key challenges were not limited to backgrounds of the industry, outlook and progression that necessitated women taking executive positions. Further still, participants are aware of flouted construction industry policies and the strategies to use to by their counterparts to obscure them. Hence, the study suggested monitoring and review of policies in place by the policy makers. A recommended that similar research be carried out in South Africa, particularly provinces, as a literature gap has been identified. These recommended studies could enhance professional women, men and policy makers in profound consideration of the challenges faced by professional women in the construction industry.
- Full Text:
- Date Issued: 2019
The influence of briefing on Eastern Cape government project outcomes
- Authors: Binqela, Lukhanyo
- Date: 2019
- Subjects: Project management -- South Africa -- Eastern Cape , Construction industry -- South Africa -- Eastern Cape Construction industry -- Management
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/44895 , vital:38186
- Description: South African Government projects are frequently completed with large cost overruns, extended schedules, quality concerns and an increase in emerging contractors making a significant loss in projects they undertake. The construction phase has been the focus of many studies on the causes of unfavourable project outcomes. However, the crucial stages in the construction process that influence the success of a project are the early ones. This is where major decisions that influence the features and form of a project occur. This study, which adopts a case study approach, aims to establish the influence of the brief development process on the outcome of Government projects in the Eastern Cape. Through the reviewed literature and primary data collection, the study aimed at establishing the influence of the brief that is utilised for a need analysis, to define a detailed scope of works, stakeholder engagement and the time management on Eastern Cape Government project outcomes. The Sarah Baartman district was the selected geographical scope of research. Five projects were selected; these included three schools, one emergency medical service facility and one office facility. The study revealed that Eastern Cape Government projects brief development is based on the client department 2013 Published Norms and Standards for state buildings and a need analysis for other stakeholders is not considered. The study further revealed that there is no stakeholder management in government projects; therefore, there is no stakeholder engagement plan during the brief development. The study further revealed that government time management is suboptimal because stakeholder needs are not realised. The research also found that Eastern Cape Government projects do not achieve stakeholder satisfaction and are delivered late. However, some Government projects are able to meet the desired quality and are within budget. The study thus proposes that the Eastern Cape Government projects need to adopt the dynamic brief development process and implement stakeholder management. The brief development process should be an ongoing process extending throughout the project life cycle responding in an innovative manner to emerging stakeholder requirements.
- Full Text:
- Date Issued: 2019
- Authors: Binqela, Lukhanyo
- Date: 2019
- Subjects: Project management -- South Africa -- Eastern Cape , Construction industry -- South Africa -- Eastern Cape Construction industry -- Management
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/44895 , vital:38186
- Description: South African Government projects are frequently completed with large cost overruns, extended schedules, quality concerns and an increase in emerging contractors making a significant loss in projects they undertake. The construction phase has been the focus of many studies on the causes of unfavourable project outcomes. However, the crucial stages in the construction process that influence the success of a project are the early ones. This is where major decisions that influence the features and form of a project occur. This study, which adopts a case study approach, aims to establish the influence of the brief development process on the outcome of Government projects in the Eastern Cape. Through the reviewed literature and primary data collection, the study aimed at establishing the influence of the brief that is utilised for a need analysis, to define a detailed scope of works, stakeholder engagement and the time management on Eastern Cape Government project outcomes. The Sarah Baartman district was the selected geographical scope of research. Five projects were selected; these included three schools, one emergency medical service facility and one office facility. The study revealed that Eastern Cape Government projects brief development is based on the client department 2013 Published Norms and Standards for state buildings and a need analysis for other stakeholders is not considered. The study further revealed that there is no stakeholder management in government projects; therefore, there is no stakeholder engagement plan during the brief development. The study further revealed that government time management is suboptimal because stakeholder needs are not realised. The research also found that Eastern Cape Government projects do not achieve stakeholder satisfaction and are delivered late. However, some Government projects are able to meet the desired quality and are within budget. The study thus proposes that the Eastern Cape Government projects need to adopt the dynamic brief development process and implement stakeholder management. The brief development process should be an ongoing process extending throughout the project life cycle responding in an innovative manner to emerging stakeholder requirements.
- Full Text:
- Date Issued: 2019
Quality management systems – a fundamental business imperative for construction companies: a case study of Bay West city mall
- Mthi, Vuyolwethu Feza Philisa
- Authors: Mthi, Vuyolwethu Feza Philisa
- Date: 2017
- Subjects: Construction projects -- Management Construction industry -- Management , Total quality management
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/45908 , vital:39319
- Description: The quality of construction projects in South Africa has long been below par which is evident in the reports of poor project performance, poorly implemented construction processes, or even worse projects delivered at an unexpected cost to the client. Private and public sector clients are dissatisfied with the quality of work produced by contractors whilst the rectification of substandard construction work on many of the low-cost housing projects throughout South Africa has left the state with a bill of around R50 billion. As a result this research suggests that company’s implement quality management systems as a means to differentiate and elevate themselves above current industry performance. The research inquiry was conducted through the use of a case study (Bay West City Mall). Data was collected primarily through participant observation and survey questionnaires with the various participants on the Bay West City Mall project. The collected data were extracted, errors eliminated/accounted for, coded and entered onto an excel spreadsheet for easy reference and analysis. For the interpretation of the data the researcher used the bivariate tabulation method where categorical data is measured using ordinal and nominal scales. The study concluded that the employment of quality management systems should no longer be seen as optional but as fundamental to the continual improvement of construction companies, those organizations that fully institutionalise the principles of quality management will have a strong chance of improving their project performance, reducing project costs, getting repeat business and increasing profits on projects. It is the recommendation of this study that more research be conducted into how quality management, in the construction industry, can assist in alleviating other problems that plague the South African construction industry such as poor performance relating to health & safety, cost, time, low profit margins and poor cultural practices.
- Full Text:
- Date Issued: 2017
- Authors: Mthi, Vuyolwethu Feza Philisa
- Date: 2017
- Subjects: Construction projects -- Management Construction industry -- Management , Total quality management
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/45908 , vital:39319
- Description: The quality of construction projects in South Africa has long been below par which is evident in the reports of poor project performance, poorly implemented construction processes, or even worse projects delivered at an unexpected cost to the client. Private and public sector clients are dissatisfied with the quality of work produced by contractors whilst the rectification of substandard construction work on many of the low-cost housing projects throughout South Africa has left the state with a bill of around R50 billion. As a result this research suggests that company’s implement quality management systems as a means to differentiate and elevate themselves above current industry performance. The research inquiry was conducted through the use of a case study (Bay West City Mall). Data was collected primarily through participant observation and survey questionnaires with the various participants on the Bay West City Mall project. The collected data were extracted, errors eliminated/accounted for, coded and entered onto an excel spreadsheet for easy reference and analysis. For the interpretation of the data the researcher used the bivariate tabulation method where categorical data is measured using ordinal and nominal scales. The study concluded that the employment of quality management systems should no longer be seen as optional but as fundamental to the continual improvement of construction companies, those organizations that fully institutionalise the principles of quality management will have a strong chance of improving their project performance, reducing project costs, getting repeat business and increasing profits on projects. It is the recommendation of this study that more research be conducted into how quality management, in the construction industry, can assist in alleviating other problems that plague the South African construction industry such as poor performance relating to health & safety, cost, time, low profit margins and poor cultural practices.
- Full Text:
- Date Issued: 2017
The impact of open-plan office design on the productivity of City of Cape Town employees
- Authors: Nghona, Ziyanda
- Date: 2017
- Subjects: Labor productivity -- South Africa -- Cape Town , Performance -- Measurement Interior architecture Space (Architecture)
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/48080 , vital:40469
- Description: Comprehensive research studies on identifying the positive and negative impact of open-plan office designs on employees’ work productivity were long initiated and still continually debated in developed nations such as USA, Canada and UK. As a result, the researcher decided to undertake research in order to determine whether the salient negative and positive factors, identified in international literature about open-plan office designs, are applicable in the South African context. The aim was not to reduce the accrued positive and negative factors, emanating from open-plan offices, but rather to identify and determine how they impact employees work productivity. The study had the following objectives, namely: (1) to investigate the employees satisfaction level with the physical environment as a result of working within the open-plan office design layout; (2) to determine the employees' stress levels as a result of working within the open-plan office design layout; (3) to determine the team members or co-workers satisfaction level as a result of working within the open-plan office design layout; and lastly, (4) to determine the positive and negative impact of the open-plan office design layout on employees work productivity. The data gathering approaches included survey self-administered questionnaires to the Built Environment related employees working within the open-plan offices of the City of Cape Town Municipality within the CBD area. The sample consisted the following departments: Facilities Management; Sports & Recreation; Human Settlement and Solid Waste. A purposeful random sampling method was followed to identify participants for the study. Concerning the first objective, it was clear from the analysis that employees are unsatisfied with the physical environment of the open-plan office design layout. Their dissatisfaction pointed to several issues such as less control or flexibility to rearrange or reorganise their office furniture to meet their work needs; limited or no available quiet and undisturbed time. As a result, it was not surprising that employees in open-plan office experience high job-related stress levels. However, in a positive light, concerning the team members or co-workers relations on working within open-plan offices, it was reported that employees are satisfied reporting high exchange of job related information and thus learning from each other. Lastly and more importantly, in terms of the overall aim of this study, the study revealed that the employees’ work productivity is affected negatively as a result of the open-plan office design in the City of Cape Town. Initially identification of how open-plan offices impact employees work productivity is the critical first-step in an attempt to reduce the negative and increase the positive impact and this constitutes the contribution of this study. However, this study was limited in that it only requested respondents to agree or disagree with the relationships among measurable variables that already exist in previous studies done in developed countries. The study survey was also limited by the selected sample within the City of Cape Town Municipality public offices. As a result, the study only sampled five Built Environment related openplan offices and thus the generalisability of the findings is limited. Further studies with large and wider survey can thus benefit this study topic in developing economies like South Africa.
- Full Text:
- Date Issued: 2017
- Authors: Nghona, Ziyanda
- Date: 2017
- Subjects: Labor productivity -- South Africa -- Cape Town , Performance -- Measurement Interior architecture Space (Architecture)
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/48080 , vital:40469
- Description: Comprehensive research studies on identifying the positive and negative impact of open-plan office designs on employees’ work productivity were long initiated and still continually debated in developed nations such as USA, Canada and UK. As a result, the researcher decided to undertake research in order to determine whether the salient negative and positive factors, identified in international literature about open-plan office designs, are applicable in the South African context. The aim was not to reduce the accrued positive and negative factors, emanating from open-plan offices, but rather to identify and determine how they impact employees work productivity. The study had the following objectives, namely: (1) to investigate the employees satisfaction level with the physical environment as a result of working within the open-plan office design layout; (2) to determine the employees' stress levels as a result of working within the open-plan office design layout; (3) to determine the team members or co-workers satisfaction level as a result of working within the open-plan office design layout; and lastly, (4) to determine the positive and negative impact of the open-plan office design layout on employees work productivity. The data gathering approaches included survey self-administered questionnaires to the Built Environment related employees working within the open-plan offices of the City of Cape Town Municipality within the CBD area. The sample consisted the following departments: Facilities Management; Sports & Recreation; Human Settlement and Solid Waste. A purposeful random sampling method was followed to identify participants for the study. Concerning the first objective, it was clear from the analysis that employees are unsatisfied with the physical environment of the open-plan office design layout. Their dissatisfaction pointed to several issues such as less control or flexibility to rearrange or reorganise their office furniture to meet their work needs; limited or no available quiet and undisturbed time. As a result, it was not surprising that employees in open-plan office experience high job-related stress levels. However, in a positive light, concerning the team members or co-workers relations on working within open-plan offices, it was reported that employees are satisfied reporting high exchange of job related information and thus learning from each other. Lastly and more importantly, in terms of the overall aim of this study, the study revealed that the employees’ work productivity is affected negatively as a result of the open-plan office design in the City of Cape Town. Initially identification of how open-plan offices impact employees work productivity is the critical first-step in an attempt to reduce the negative and increase the positive impact and this constitutes the contribution of this study. However, this study was limited in that it only requested respondents to agree or disagree with the relationships among measurable variables that already exist in previous studies done in developed countries. The study survey was also limited by the selected sample within the City of Cape Town Municipality public offices. As a result, the study only sampled five Built Environment related openplan offices and thus the generalisability of the findings is limited. Further studies with large and wider survey can thus benefit this study topic in developing economies like South Africa.
- Full Text:
- Date Issued: 2017
The development of boiler control models for the optimization of boiler efficiency
- Authors: Kellerman, Andre
- Date: 2016
- Subjects: Boilers Boiler-making industry , Steam-boilers Mechatronics Power electronics
- Language: English
- Type: Thesis , Masters , MEng
- Identifier: http://hdl.handle.net/10948/48014 , vital:40463
- Description: With Eskom’s fleet rapidly reaching end of life and maintenance outages becoming more frequent, it has become more critical to be able to determine transient effects of auxiliary losses and system responses due to instabilities. A low mono-nitrogen oxide (low-NOx) burner replacement project has recently been completed at Camden power station in Ermelo. It has thus deemed itself as a perfect candidate for a model which can be used to understand the new systems’ response during transient scenarios. The aim is to develop a boiler control model to be used for simulation of various process conditions and failure scenarios in order to predict the boiler plants’ behaviour and improve its availability. Research was done on common boiler control practices and modelling of boiler control. A theoretical boiler control model was developed based on the Camden power station’s control system specification. The computational model of the boiler control was implemented in Flownex® simulation environment, which was found to be particular useful for modelling industrial applications. A number of simulations with the computational model were performed and the results were compared against the historic plant data showing good correlation. In parallel, a thermo-fluid model of the boiler was developed using Flownex® by a Masters student at the University of Cape Town, which was then integrated with the control model. The combined Flownex model was used for simulation of the following important cases: a mill trip, a Forced Draught fan trip and load changes. The obtained results show good correlation with the real plant data, indicating that the developed computational model can be considered accurate for Camden’s particular type of boiler and its control. Hence, it is envisaged that the developed combined Flownex model can be applied for simulation of the boilers of the Camden power station.
- Full Text:
- Date Issued: 2016
- Authors: Kellerman, Andre
- Date: 2016
- Subjects: Boilers Boiler-making industry , Steam-boilers Mechatronics Power electronics
- Language: English
- Type: Thesis , Masters , MEng
- Identifier: http://hdl.handle.net/10948/48014 , vital:40463
- Description: With Eskom’s fleet rapidly reaching end of life and maintenance outages becoming more frequent, it has become more critical to be able to determine transient effects of auxiliary losses and system responses due to instabilities. A low mono-nitrogen oxide (low-NOx) burner replacement project has recently been completed at Camden power station in Ermelo. It has thus deemed itself as a perfect candidate for a model which can be used to understand the new systems’ response during transient scenarios. The aim is to develop a boiler control model to be used for simulation of various process conditions and failure scenarios in order to predict the boiler plants’ behaviour and improve its availability. Research was done on common boiler control practices and modelling of boiler control. A theoretical boiler control model was developed based on the Camden power station’s control system specification. The computational model of the boiler control was implemented in Flownex® simulation environment, which was found to be particular useful for modelling industrial applications. A number of simulations with the computational model were performed and the results were compared against the historic plant data showing good correlation. In parallel, a thermo-fluid model of the boiler was developed using Flownex® by a Masters student at the University of Cape Town, which was then integrated with the control model. The combined Flownex model was used for simulation of the following important cases: a mill trip, a Forced Draught fan trip and load changes. The obtained results show good correlation with the real plant data, indicating that the developed computational model can be considered accurate for Camden’s particular type of boiler and its control. Hence, it is envisaged that the developed combined Flownex model can be applied for simulation of the boilers of the Camden power station.
- Full Text:
- Date Issued: 2016
Main thesis title 2021: subtitle if needed. If no subtitle follow instructions in manual
- Authors: Mashinini, Peter Madindwa
- Date: 2015-03
- Subjects: Port Elizabeth (South Africa) , Eastern Cape (South Africa) , South Africa
- Language: English
- Type: Doctoral theses , text
- Identifier: http://hdl.handle.net/10948/53340 , vital:45138
- Description: Ti6Al4V alloy usage is increasing due to high demand from the aerospace and automotive industries as well as the field of medical implants. Therefore, identifying the most effective joining technique is critically important to ensure that optimum life can be achieved by welded components. This is especially important for the aerospace industry where fatigue life of the welded joints is vital. This research identified two relatively new joining technologies for Titanium sheet, namely, Friction Stir Welding (FSW),a solid-state process, and Laser Beam Welding (LBW),a fusion joining process. It was therefore vitalto conduct a systematic study of these two processes and compare results to illustrate which process attributes to static and dynamic properties. This investigation was accomplished by varying the process heat input for both FSW and LBW. The main parameters used to control process heat input were rotational-and traverse speed for FSW and laser power and traverse speed for LBW. In FSW, a reaction torque was used to describe the process energy in order to achieve the plasticised material condition. Preliminary work was done to establish the influencing factors for a successful weld which included tool optimisation but process optimisation was not discussed in elaborative detail. In LBW, traverse speed was identified as the critical control parameter to ensure good weld penetration. Weld width was recorded as it showed strong correlation to heat input rates. , Thesis (MA) -- Faculty of Engineering, the Built Environment and Technology, Mechanical Engineering, 2021
- Full Text:
- Date Issued: 2015-03
- Authors: Mashinini, Peter Madindwa
- Date: 2015-03
- Subjects: Port Elizabeth (South Africa) , Eastern Cape (South Africa) , South Africa
- Language: English
- Type: Doctoral theses , text
- Identifier: http://hdl.handle.net/10948/53340 , vital:45138
- Description: Ti6Al4V alloy usage is increasing due to high demand from the aerospace and automotive industries as well as the field of medical implants. Therefore, identifying the most effective joining technique is critically important to ensure that optimum life can be achieved by welded components. This is especially important for the aerospace industry where fatigue life of the welded joints is vital. This research identified two relatively new joining technologies for Titanium sheet, namely, Friction Stir Welding (FSW),a solid-state process, and Laser Beam Welding (LBW),a fusion joining process. It was therefore vitalto conduct a systematic study of these two processes and compare results to illustrate which process attributes to static and dynamic properties. This investigation was accomplished by varying the process heat input for both FSW and LBW. The main parameters used to control process heat input were rotational-and traverse speed for FSW and laser power and traverse speed for LBW. In FSW, a reaction torque was used to describe the process energy in order to achieve the plasticised material condition. Preliminary work was done to establish the influencing factors for a successful weld which included tool optimisation but process optimisation was not discussed in elaborative detail. In LBW, traverse speed was identified as the critical control parameter to ensure good weld penetration. Weld width was recorded as it showed strong correlation to heat input rates. , Thesis (MA) -- Faculty of Engineering, the Built Environment and Technology, Mechanical Engineering, 2021
- Full Text:
- Date Issued: 2015-03
An indirectly controlled high-speed servo valve using piezo actuators
- Authors: Behre, Leander
- Date: 2015
- Subjects: Piezoelectric materials Piezoelectric devices -- Materials , Internal combustion engines Mechatronics Automation
- Language: English
- Type: Thesis , Masters , MEng
- Identifier: http://hdl.handle.net/10948/50099 , vital:42040
- Description: Since the exhaust emissions legislation for motor vehicles with combustion engines is complicating the manufacturing of environmental yet powerful engines more than ever, automobile manufacturers have approached this challenge by means of downsizing, hybridization of combustion and electric engines and variable valve opening times. In these cases conventional, mechanical valve trains are still used. The subject of this master thesis is the development of a mechatronic control unit as replacement for the camshaft driven valve train of common combustion engines. The system’s aim is a contribution to the progression of the development of modern combustion engines satisfying current demands in terms of economy and efficiency. The developed system is based on the “Full Variable Valve Train” project, founded at the “Institute of Vehicle Construction Wolfsburg” at the “Ostfalia University of Applied Sciences”. An indirectly controlled high speed servo valve that is actuated by a piezoelectric actuator and pressurized hydraulic fluid is being developed. The overall aim is to obtain advantages from a control engineering perspective, being able to reduce the size of the used piezo actuator and hence solve the packaging and regulation issues of the overall system. After manufacturing and improvement activities, a system could be developed that allows a variable control of the engine valve movement. The best results are achieved using a rectangular function for the engine valve actuator. The system allows engine valve operation independent from the crankshaft position and shows the potential to generate higher engine torque and power output while decreasing fuel consumption and emissions at the same time.
- Full Text:
- Date Issued: 2015
- Authors: Behre, Leander
- Date: 2015
- Subjects: Piezoelectric materials Piezoelectric devices -- Materials , Internal combustion engines Mechatronics Automation
- Language: English
- Type: Thesis , Masters , MEng
- Identifier: http://hdl.handle.net/10948/50099 , vital:42040
- Description: Since the exhaust emissions legislation for motor vehicles with combustion engines is complicating the manufacturing of environmental yet powerful engines more than ever, automobile manufacturers have approached this challenge by means of downsizing, hybridization of combustion and electric engines and variable valve opening times. In these cases conventional, mechanical valve trains are still used. The subject of this master thesis is the development of a mechatronic control unit as replacement for the camshaft driven valve train of common combustion engines. The system’s aim is a contribution to the progression of the development of modern combustion engines satisfying current demands in terms of economy and efficiency. The developed system is based on the “Full Variable Valve Train” project, founded at the “Institute of Vehicle Construction Wolfsburg” at the “Ostfalia University of Applied Sciences”. An indirectly controlled high speed servo valve that is actuated by a piezoelectric actuator and pressurized hydraulic fluid is being developed. The overall aim is to obtain advantages from a control engineering perspective, being able to reduce the size of the used piezo actuator and hence solve the packaging and regulation issues of the overall system. After manufacturing and improvement activities, a system could be developed that allows a variable control of the engine valve movement. The best results are achieved using a rectangular function for the engine valve actuator. The system allows engine valve operation independent from the crankshaft position and shows the potential to generate higher engine torque and power output while decreasing fuel consumption and emissions at the same time.
- Full Text:
- Date Issued: 2015
Design and development of a multi-axis controlled thermal scanner
- Authors: Ikho, Bambiso
- Date: 2015
- Subjects: Temperature measurements Heat -- Transmission -- Measurement , Heat -- Transmission
- Language: English
- Type: Thesis , Masters , MTech
- Identifier: http://hdl.handle.net/10948/50066 , vital:41998
- Description: Surface temperature measurement is applicable to a vast number of fields including manufacturing, processing, agricultural, medical and pharmaceutical fields just to name a few. Two methods for obtaining surface temperature measurements exist; ‘surface contact measurement’ in which the measuring device makes physical contact with the surface in question or alternatively, ‘non-contact surface measurement’ where there is no contact at all. Both of these methods have got advantages, as well as disadvantages. However, in recent times, non-contact methods have been preferred since they are non-intrusive and allow for remote measurements to be made. In this research, a non-contact mobile temperature measurement system is developed. The system is microcontroller-based and uses infrared sensors to acquire temperature measurements. The infrared sensors are mounted on a three-axes, x-y-z coordinate system which allows a thermal profile of a particular surface to be generated and displayed on a Graphical User Interface (GUI) in real-time. Various tests were carried out to compare contact and non-contact measurement methods; to determine the most suitable operating height for accurate non-contact measurement given a specific surface and to investigate the benefit of single and/ or multiple sensor arrangements. The research showed that a non-contact thermal scanning system could be used to obtain detailed yet accurate surface temperature measurements following an initial sensor calibration phase to determine the most favourable scanning parameters for a particular surface. The measurements taken could then be used to generate a thermal map of a surface with a significant improvement in resolution as compared with measurements taken using contact devices. The research further showed that a multiple sensor arrangement significantly reduced the time taken to generate the thermal profiles without undermining accuracy.
- Full Text:
- Date Issued: 2015
- Authors: Ikho, Bambiso
- Date: 2015
- Subjects: Temperature measurements Heat -- Transmission -- Measurement , Heat -- Transmission
- Language: English
- Type: Thesis , Masters , MTech
- Identifier: http://hdl.handle.net/10948/50066 , vital:41998
- Description: Surface temperature measurement is applicable to a vast number of fields including manufacturing, processing, agricultural, medical and pharmaceutical fields just to name a few. Two methods for obtaining surface temperature measurements exist; ‘surface contact measurement’ in which the measuring device makes physical contact with the surface in question or alternatively, ‘non-contact surface measurement’ where there is no contact at all. Both of these methods have got advantages, as well as disadvantages. However, in recent times, non-contact methods have been preferred since they are non-intrusive and allow for remote measurements to be made. In this research, a non-contact mobile temperature measurement system is developed. The system is microcontroller-based and uses infrared sensors to acquire temperature measurements. The infrared sensors are mounted on a three-axes, x-y-z coordinate system which allows a thermal profile of a particular surface to be generated and displayed on a Graphical User Interface (GUI) in real-time. Various tests were carried out to compare contact and non-contact measurement methods; to determine the most suitable operating height for accurate non-contact measurement given a specific surface and to investigate the benefit of single and/ or multiple sensor arrangements. The research showed that a non-contact thermal scanning system could be used to obtain detailed yet accurate surface temperature measurements following an initial sensor calibration phase to determine the most favourable scanning parameters for a particular surface. The measurements taken could then be used to generate a thermal map of a surface with a significant improvement in resolution as compared with measurements taken using contact devices. The research further showed that a multiple sensor arrangement significantly reduced the time taken to generate the thermal profiles without undermining accuracy.
- Full Text:
- Date Issued: 2015
The effectiveness of arbitration practice relative to South African construction
- Authors: Bvumbwe, Chikumbutso
- Date: 2015
- Subjects: Arbitration, Industrial -- South Africa Dispute resolution (Law) -- South Africa , Construction industry -- South Africa
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/47981 , vital:40460
- Description: The study investigated the arbitration practice relative to the South African construction industry. Most of the construction contracts include an arbitration clause in the contract document as an instrument to be used for resolving disputes. The aim is to resolve disputes between the parties with minimum costs and within a reasonable period. Some parties opt to involve legal counsel in the process which has a potential of affecting time and cost. The literature review focuses on arbitration, in the construction industry, with a particular focus on how effective the methods are in terms of cost, time and the relationship between the disputing parties, the impact of using legal counsel during the arbitration process versus not involving legal counsel, the arbitration clause not specifying when to declare a dispute, and the perception of construction professionals on arbitration. The study was based on closed-ended questionnaires distributed among senior construction professionals including, architects, quantity surveyors, construction managers, project managers and practising attorneys. 61 respondents completed the questionnaire. The respondents were asked to comment on the effectiveness of alternative dispute resolution, cost, time, causes of disputes, and impacts of disputes. The cost of arbitration seems to escalate as a result of legal counsel being involved during the arbitration procedures. The time factor also seems to be prolonged. A notable finding indicates that the arbitration clause in the contract document should specify when to declare the dispute. The survey was conducted and limited to the Gauteng Province in South Africa. Findings are of value to clients, contractors and consultants and provides a basis for addressing arbitration effectively in the construction industry.
- Full Text:
- Date Issued: 2015
- Authors: Bvumbwe, Chikumbutso
- Date: 2015
- Subjects: Arbitration, Industrial -- South Africa Dispute resolution (Law) -- South Africa , Construction industry -- South Africa
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/47981 , vital:40460
- Description: The study investigated the arbitration practice relative to the South African construction industry. Most of the construction contracts include an arbitration clause in the contract document as an instrument to be used for resolving disputes. The aim is to resolve disputes between the parties with minimum costs and within a reasonable period. Some parties opt to involve legal counsel in the process which has a potential of affecting time and cost. The literature review focuses on arbitration, in the construction industry, with a particular focus on how effective the methods are in terms of cost, time and the relationship between the disputing parties, the impact of using legal counsel during the arbitration process versus not involving legal counsel, the arbitration clause not specifying when to declare a dispute, and the perception of construction professionals on arbitration. The study was based on closed-ended questionnaires distributed among senior construction professionals including, architects, quantity surveyors, construction managers, project managers and practising attorneys. 61 respondents completed the questionnaire. The respondents were asked to comment on the effectiveness of alternative dispute resolution, cost, time, causes of disputes, and impacts of disputes. The cost of arbitration seems to escalate as a result of legal counsel being involved during the arbitration procedures. The time factor also seems to be prolonged. A notable finding indicates that the arbitration clause in the contract document should specify when to declare the dispute. The survey was conducted and limited to the Gauteng Province in South Africa. Findings are of value to clients, contractors and consultants and provides a basis for addressing arbitration effectively in the construction industry.
- Full Text:
- Date Issued: 2015
Study of the interrelationship between weld geometry, process variables and joint intergrity for friction processed AA6082-T6 aluminium
- Authors: Samuel, Darren Alton Graham
- Date: 2014
- Subjects: Friction welding -- Research Pressure welding , Welding
- Language: English
- Type: Thesis , Doctoral , DPhil
- Identifier: http://hdl.handle.net/10948/48058 , vital:40467
- Description: This work presents a broad overview of the successful development of friction taper stud welding (FTSW) in 25mm thick AA6082-T6 sections. It covers the selection of geometry and process parameters, the development of data logging equipment, energy input results and interpretations. Research was carried out to develop the FTSW process for application in 25mm AA6082-T6 sections. The development and application of the FTSW process addresses the need to fill blind holes in thick aluminium sections for the repair of incorrectly drilled holes, friction stir welding exit holes and defects in critical components. During welding, frictional torque, rotational speed, axial force, near interface temperature of the tapered hole and welding time was recorded. This data was used to calculate energy input and energy input rates throughout a weld, enabling the effect of process parameters to be linked to energy, temperature, microhardness and static joint strength. Results of preliminary experiments are included in the study that were used for the design of a process parameter test window for FTSW in AA6082-T6, as no parameters were available to indicate a starting point for the research. The effect of process parameters on the static joint strength at the base of the tapered hole are presented; using a parallel sided stud and tapered hole configuration. This addresses one of the pressing issues facing FTSW of AA6082-T6, namely the lack of bonding at the bottom of the blind hole. A final process parameter matrix is designed based on the process development welds and is presented and discussed. In addition, the use of a non-consumable heat sink was investigated to prevent the premature collapse of the stud during welding and was shown to be critically important to the FTSW of AA6082-T6. To achieve good sidewall bonding a hole taper angle of 60° is required, this having been shown during visual evaluation of development welds. Stud taper angles between 2° and 5° less than the taper angle of the hole were identified as the range within which good FTSW can be made. With this geometry, at no stage during welding did the body of the stud shear off from the weld interface due to softening, thereby preventing collapse of the stud and formation of poorly bonded regions at the sidewall of the hole. The absence of shearing off of the weld interface during plunge was shown to be a good indicator of appropriate geometry and can be linked to welds made with high hole and stud taper angles and high axial force ramp up rates. The large hole and stud diameter relative to the depth of the hole and the large taper angle of the hole further aid in keeping the weld nugget rotating in the hole, promoting plasticization of the sidewall. Axial force ramp up rate was found to be the main critical success factor in an AA6082-T6 FTSW. Without control of this parameter the body of the stud will heat and detrimentally soften during plunge. It was established that good FTSW in AA6082-T6 cannot be made without the use of preheat to overcome the heat dissipation during welding, and is directly linked to improved energy input characteristics. Energy input as well as energy input rate were directly linked to static tensile strength and softening in the HAZ. The angle of the stud has been related to the energy input rate limit of the stud body, with increasing stud taper angles enabling the stud to withstand a higher energy input rate, allowing the weld interface to propagate up the hole at a slower rate, promoting plasticization of the sidewall. This study has successfully made good FTSW in 25mm thick AA6082-T6, in a 60°, 20mm deep tapered hole. Process parameters and ranges that produce FTSW exhibiting the required characteristics were identified by this study.
- Full Text:
- Date Issued: 2014
- Authors: Samuel, Darren Alton Graham
- Date: 2014
- Subjects: Friction welding -- Research Pressure welding , Welding
- Language: English
- Type: Thesis , Doctoral , DPhil
- Identifier: http://hdl.handle.net/10948/48058 , vital:40467
- Description: This work presents a broad overview of the successful development of friction taper stud welding (FTSW) in 25mm thick AA6082-T6 sections. It covers the selection of geometry and process parameters, the development of data logging equipment, energy input results and interpretations. Research was carried out to develop the FTSW process for application in 25mm AA6082-T6 sections. The development and application of the FTSW process addresses the need to fill blind holes in thick aluminium sections for the repair of incorrectly drilled holes, friction stir welding exit holes and defects in critical components. During welding, frictional torque, rotational speed, axial force, near interface temperature of the tapered hole and welding time was recorded. This data was used to calculate energy input and energy input rates throughout a weld, enabling the effect of process parameters to be linked to energy, temperature, microhardness and static joint strength. Results of preliminary experiments are included in the study that were used for the design of a process parameter test window for FTSW in AA6082-T6, as no parameters were available to indicate a starting point for the research. The effect of process parameters on the static joint strength at the base of the tapered hole are presented; using a parallel sided stud and tapered hole configuration. This addresses one of the pressing issues facing FTSW of AA6082-T6, namely the lack of bonding at the bottom of the blind hole. A final process parameter matrix is designed based on the process development welds and is presented and discussed. In addition, the use of a non-consumable heat sink was investigated to prevent the premature collapse of the stud during welding and was shown to be critically important to the FTSW of AA6082-T6. To achieve good sidewall bonding a hole taper angle of 60° is required, this having been shown during visual evaluation of development welds. Stud taper angles between 2° and 5° less than the taper angle of the hole were identified as the range within which good FTSW can be made. With this geometry, at no stage during welding did the body of the stud shear off from the weld interface due to softening, thereby preventing collapse of the stud and formation of poorly bonded regions at the sidewall of the hole. The absence of shearing off of the weld interface during plunge was shown to be a good indicator of appropriate geometry and can be linked to welds made with high hole and stud taper angles and high axial force ramp up rates. The large hole and stud diameter relative to the depth of the hole and the large taper angle of the hole further aid in keeping the weld nugget rotating in the hole, promoting plasticization of the sidewall. Axial force ramp up rate was found to be the main critical success factor in an AA6082-T6 FTSW. Without control of this parameter the body of the stud will heat and detrimentally soften during plunge. It was established that good FTSW in AA6082-T6 cannot be made without the use of preheat to overcome the heat dissipation during welding, and is directly linked to improved energy input characteristics. Energy input as well as energy input rate were directly linked to static tensile strength and softening in the HAZ. The angle of the stud has been related to the energy input rate limit of the stud body, with increasing stud taper angles enabling the stud to withstand a higher energy input rate, allowing the weld interface to propagate up the hole at a slower rate, promoting plasticization of the sidewall. This study has successfully made good FTSW in 25mm thick AA6082-T6, in a 60°, 20mm deep tapered hole. Process parameters and ranges that produce FTSW exhibiting the required characteristics were identified by this study.
- Full Text:
- Date Issued: 2014
Process heat flow model for temperature and hardness prediction during friction taper stud welding of AISI 4140
- Van Zyl, Carlo Angelo Antonio
- Authors: Van Zyl, Carlo Angelo Antonio
- Date: 2013
- Subjects: Friction welding Pressure welding
- Language: English
- Type: Thesis , Doctoral , DPhil
- Identifier: http://hdl.handle.net/10948/47780 , vital:40373
- Description: Friction Taper Stud Welding (FTSW) is a relatively new solid state welding process, developed from the concepts of friction welding, which theoretically operates below the melting temperatures of the material being welded. During friction welding, heat is generated by conversion of mechanical energy into thermal energy at the interface of the work pieces, during rotation under pressure. Quality welds are dependant on the correct selection of welding process parameters, which are currently chosen empirically, and the FTSW evaluated by mechanical testing. This method is time consuming, uneconomical and could cause that optimised conditions are overlooked. A proposed solution would be to numerically model the process, but reference to successful computational modelling of the FTSW process is currently not available and data regarding the responses during the process are limited. The ultimate aim of the present study is to develop a finite element model to simulate the FTSW process using AISI 4140 medium carbon low alloy steel, delivering temperature profiles and hardness predictions through the Heat Affected Zone (HAZ) – using a combined experimental and numerical study. To achieve the objectives of this study a systematic approach was adopted and conducted in several phases. A weld matrix was configured with ranging weld input parameters to determine the affect of weld input parameters on real-time responses. To provide a relationship between these factors, welding was conducted using a portable friction taper stud welding platform linked to a control and data logging system for measuring the real time axial forces, spindle speed, material displacement, torque and temperature responses as a function of time. The input process parameters applied being motor speed, axial forces, displacement and forging time. The temperature distribution through the weld, by direct measurement, as a function of weld time and position is investigated. During the experimental welds temperature responses, as influenced by welding parameters, were recorded using embedded N-Type thermocouples at various locations in the near vicinity of the weld interface. The main hot spots during welding were identified to be close to the top surface just before weld completion and at the bottom centre surface of the plug weld at the interface line. All the welds showed similar trends and a maximum temperature of 1078°C at the bottom of the weld was reached for a rotational tool speed of 5160rpm, axial friction force of 15kN and displacement of 6.5mm, due to the heat generated by friction between the tool and weld coupon. The weld torque increase rapidly at the start of the weld and reached a peak value shortly after the start of the weld, while a peak temperature of 1366°C, for a rotational tool speed of 5160rpm, axial friction force of 10kN and displacement of 8mm was reached at the top edge of the plug weld. This position of anticipated peak temperature value is due to the heat transferred during the FTSW process together with the accumulation of expelled material forming on the surface of the weld coupon. Statistical methods were applied to obtain knowledge of the trends and relationship between weld input parameters for various weld responses, including energy input, temperature, friction time, torque and displacement rate. Although it was shown that no single parameter solely controls the temperature gradients in the weld, the dominant influence of the rotational speed at the bottom of the weld and that of the displacement, at the top of the weld, were evident. The peak temperatures during the weld are of interest as these temperatures, together with the subsequent cooling rates, determine the Vickers hardness, of the material, through the weld. Spindle speed was found to have the dominant effect on temperature in the bottom half of the weld with displacement having a contributive effect closer to the top of the weld. Friction force dominate the effect on friction time, displacement rate and total energy input with friction force and spindle speed having an equal effect on torque. The multiple regression analysis resulted in valid models with varied, but acceptable accuracy with the equation for friction time resulting in an R predict value of 93.34%. These models provided a clear insight to the influence of weld input parameters on the weld responses and the model for friction time was used as an input parameter to the FTS welding simulation. The accurate prediction of the interface temperature is fundamental for process optimisation which will allow for producing consistent, reliable plug welds. A fully coupled transient two-dimensional axi-symmetrical analysis of heat flow during the FTSW process of AISI 4140 steel and subsequent Vickers hardness profiles through the HAZ, making use of numeric simulation applied in the commercially available FEA software, COMSOL Multiphysics®, is developed and reported on. Process optimisation hinges on a better understanding of the heat distribution during welding, making a major contribution to the resultant hardness. The thermal-plastic flow coupling of the model is such that temperature values are resolved together with that of the velocity field. The simulation utilises a Computational Fluid Dynamics (CFD) two phase laminar flow and Heat Transfer physics, applied in an Eulerian mesh-based scheme. The viscosity of the fluid is based on a constitutive law of the flow stress using the Zener-Hollomon parameter with a flow model based on the Navier-Stokes’ equations to simulate the plastic deformation. Temperature dependant thermo-physical material properties and coefficient of friction are applied, and the application of viscous heating is controlled by a material state variable. The heat source model, required for material softening, is applied as two components, frictional and shear, with the heat source moving along the z-axis delivering sufficient energy to soften the metal, causing flow. The Navier-Stokes approach is applied with solid-state material transport during the weld based on laminar, viscous flow of a non-Newtonian fluid, dependant on temperature and strain rate. Numerically calculated values for temperature profiles and peak temperatures through to the weld as well as subsequent Vickers hardness profiles at points through the HAZ, obtained from the Finite Element model, were found to be in close agreement with values from trial welds. The largest variance was 19% for the peak temperature of weld E4W2, applying an axial friction force of 7.5kN, 6.5mm displacement and a tool rotational speed of 4080rpm – resulting in a friction time of 330 seconds. Predictions of hardness are found to be between 0% and 19% (mean 3%) of experimentally determined values with the biggest variance at the positions of peak temperatures due to the friction interfaces. The heat applied as a result of plastic deformation was found to be 5.4% of the total heat. The FTSW model predicts the temperatures at the friction interface, during the welding process, to be within the range, and frequently exceeding the solidus temperature of AISI 4140 steel. Results show that the models applied in the FTSW simulation show good agreement when compared to experimental values. The main contribution of this thesis, towards knowledge of the FTSW process, is: The relationships between weld input parameters and responses; Temperature dependant models of thermo-physical properties for AISI 4140 in the high temperature region (ranging from ambient to the solidus temperature); Successful application of the Navier-Stokes approach to simulate the plastic flow during FTSW and A numerical finite element model for the prediction of temperature gradients and hardness profiles through a FTSW.
- Full Text:
- Date Issued: 2013
- Authors: Van Zyl, Carlo Angelo Antonio
- Date: 2013
- Subjects: Friction welding Pressure welding
- Language: English
- Type: Thesis , Doctoral , DPhil
- Identifier: http://hdl.handle.net/10948/47780 , vital:40373
- Description: Friction Taper Stud Welding (FTSW) is a relatively new solid state welding process, developed from the concepts of friction welding, which theoretically operates below the melting temperatures of the material being welded. During friction welding, heat is generated by conversion of mechanical energy into thermal energy at the interface of the work pieces, during rotation under pressure. Quality welds are dependant on the correct selection of welding process parameters, which are currently chosen empirically, and the FTSW evaluated by mechanical testing. This method is time consuming, uneconomical and could cause that optimised conditions are overlooked. A proposed solution would be to numerically model the process, but reference to successful computational modelling of the FTSW process is currently not available and data regarding the responses during the process are limited. The ultimate aim of the present study is to develop a finite element model to simulate the FTSW process using AISI 4140 medium carbon low alloy steel, delivering temperature profiles and hardness predictions through the Heat Affected Zone (HAZ) – using a combined experimental and numerical study. To achieve the objectives of this study a systematic approach was adopted and conducted in several phases. A weld matrix was configured with ranging weld input parameters to determine the affect of weld input parameters on real-time responses. To provide a relationship between these factors, welding was conducted using a portable friction taper stud welding platform linked to a control and data logging system for measuring the real time axial forces, spindle speed, material displacement, torque and temperature responses as a function of time. The input process parameters applied being motor speed, axial forces, displacement and forging time. The temperature distribution through the weld, by direct measurement, as a function of weld time and position is investigated. During the experimental welds temperature responses, as influenced by welding parameters, were recorded using embedded N-Type thermocouples at various locations in the near vicinity of the weld interface. The main hot spots during welding were identified to be close to the top surface just before weld completion and at the bottom centre surface of the plug weld at the interface line. All the welds showed similar trends and a maximum temperature of 1078°C at the bottom of the weld was reached for a rotational tool speed of 5160rpm, axial friction force of 15kN and displacement of 6.5mm, due to the heat generated by friction between the tool and weld coupon. The weld torque increase rapidly at the start of the weld and reached a peak value shortly after the start of the weld, while a peak temperature of 1366°C, for a rotational tool speed of 5160rpm, axial friction force of 10kN and displacement of 8mm was reached at the top edge of the plug weld. This position of anticipated peak temperature value is due to the heat transferred during the FTSW process together with the accumulation of expelled material forming on the surface of the weld coupon. Statistical methods were applied to obtain knowledge of the trends and relationship between weld input parameters for various weld responses, including energy input, temperature, friction time, torque and displacement rate. Although it was shown that no single parameter solely controls the temperature gradients in the weld, the dominant influence of the rotational speed at the bottom of the weld and that of the displacement, at the top of the weld, were evident. The peak temperatures during the weld are of interest as these temperatures, together with the subsequent cooling rates, determine the Vickers hardness, of the material, through the weld. Spindle speed was found to have the dominant effect on temperature in the bottom half of the weld with displacement having a contributive effect closer to the top of the weld. Friction force dominate the effect on friction time, displacement rate and total energy input with friction force and spindle speed having an equal effect on torque. The multiple regression analysis resulted in valid models with varied, but acceptable accuracy with the equation for friction time resulting in an R predict value of 93.34%. These models provided a clear insight to the influence of weld input parameters on the weld responses and the model for friction time was used as an input parameter to the FTS welding simulation. The accurate prediction of the interface temperature is fundamental for process optimisation which will allow for producing consistent, reliable plug welds. A fully coupled transient two-dimensional axi-symmetrical analysis of heat flow during the FTSW process of AISI 4140 steel and subsequent Vickers hardness profiles through the HAZ, making use of numeric simulation applied in the commercially available FEA software, COMSOL Multiphysics®, is developed and reported on. Process optimisation hinges on a better understanding of the heat distribution during welding, making a major contribution to the resultant hardness. The thermal-plastic flow coupling of the model is such that temperature values are resolved together with that of the velocity field. The simulation utilises a Computational Fluid Dynamics (CFD) two phase laminar flow and Heat Transfer physics, applied in an Eulerian mesh-based scheme. The viscosity of the fluid is based on a constitutive law of the flow stress using the Zener-Hollomon parameter with a flow model based on the Navier-Stokes’ equations to simulate the plastic deformation. Temperature dependant thermo-physical material properties and coefficient of friction are applied, and the application of viscous heating is controlled by a material state variable. The heat source model, required for material softening, is applied as two components, frictional and shear, with the heat source moving along the z-axis delivering sufficient energy to soften the metal, causing flow. The Navier-Stokes approach is applied with solid-state material transport during the weld based on laminar, viscous flow of a non-Newtonian fluid, dependant on temperature and strain rate. Numerically calculated values for temperature profiles and peak temperatures through to the weld as well as subsequent Vickers hardness profiles at points through the HAZ, obtained from the Finite Element model, were found to be in close agreement with values from trial welds. The largest variance was 19% for the peak temperature of weld E4W2, applying an axial friction force of 7.5kN, 6.5mm displacement and a tool rotational speed of 4080rpm – resulting in a friction time of 330 seconds. Predictions of hardness are found to be between 0% and 19% (mean 3%) of experimentally determined values with the biggest variance at the positions of peak temperatures due to the friction interfaces. The heat applied as a result of plastic deformation was found to be 5.4% of the total heat. The FTSW model predicts the temperatures at the friction interface, during the welding process, to be within the range, and frequently exceeding the solidus temperature of AISI 4140 steel. Results show that the models applied in the FTSW simulation show good agreement when compared to experimental values. The main contribution of this thesis, towards knowledge of the FTSW process, is: The relationships between weld input parameters and responses; Temperature dependant models of thermo-physical properties for AISI 4140 in the high temperature region (ranging from ambient to the solidus temperature); Successful application of the Navier-Stokes approach to simulate the plastic flow during FTSW and A numerical finite element model for the prediction of temperature gradients and hardness profiles through a FTSW.
- Full Text:
- Date Issued: 2013
Wireless mobile android technology in the monitoring and control of a safety integrated robotic cell
- Authors: Cumberlege, Aidan
- Date: 2013
- Subjects: Android (Electronic resource) , Application software -- Development , Computer software -- Development , Mobile computing
- Language: English
- Type: Thesis , Masters , MTech
- Identifier: http://hdl.handle.net/10948/46284 , vital:39543
- Description: The constant strive for improving the efficiency of production processes has become a worldwide challenge. In high speed production facilities response time between man and machine is of utmost importance when financial implications are taken into account. This dissertation contributes to improving the response time by making use of wireless notification between the machine and the maintenance technician when process faults occur. The tool used to achieve this is based on Android. Research is carried out on the latest Android technology while taking the safety aspects of a production environment into consideration. Research in designing a rule based intelligent system is established by using a tablet as the user interface for automatic notification and corrective action recommendations. Quick response is achieved by setting up a wireless network. As a result of designing a wireless intelligent maintenance tool, production downtime is improved. Management can recall all activities logged by the system for graphical representation.
- Full Text:
- Date Issued: 2013
Wireless mobile android technology in the monitoring and control of a safety integrated robotic cell
- Authors: Cumberlege, Aidan
- Date: 2013
- Subjects: Android (Electronic resource) , Application software -- Development , Computer software -- Development , Mobile computing
- Language: English
- Type: Thesis , Masters , MTech
- Identifier: http://hdl.handle.net/10948/46284 , vital:39543
- Description: The constant strive for improving the efficiency of production processes has become a worldwide challenge. In high speed production facilities response time between man and machine is of utmost importance when financial implications are taken into account. This dissertation contributes to improving the response time by making use of wireless notification between the machine and the maintenance technician when process faults occur. The tool used to achieve this is based on Android. Research is carried out on the latest Android technology while taking the safety aspects of a production environment into consideration. Research in designing a rule based intelligent system is established by using a tablet as the user interface for automatic notification and corrective action recommendations. Quick response is achieved by setting up a wireless network. As a result of designing a wireless intelligent maintenance tool, production downtime is improved. Management can recall all activities logged by the system for graphical representation.
- Full Text:
- Date Issued: 2013
The design of a Hydrotherapy center on the Swartkops River
- Authors: Heuer, Morgan
- Date: 2011-12
- Subjects: Health resorts --South Africa -- Port Elizabeth --Designs and plans , Recreational therapy – South Africa
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/58728 , vital:60032
- Description: This treatise deals with the design of a Hydrotherapy Center, as well as it’s direct link to nature. Contemporary lifestyles in a technologically-advanced world have caused increased amounts of stress, anxiety, and chronic illness. The goal is to design a place of healing by reinforcing and establishing the connection between man and nature. Wellness is multidimensional; it deals with both mental and physical health. The design concept is a building that is one with nature, that leaves a small footprint on the natural landscape and that gives back more than it takes. The focus point is to work with the concept of healing in four different spheres: Psychological, Physiological, Sociological, and Environmental. By understanding the physical properties and applications of water to treat both mental and physical healthcare issues, an innovative center of natural healing can be established. The conventional healthcare facilities are mostly hostile, clinical, and institutional-like environments that do not contribute to a healthy state of mind. The mind is uneasy in distracting environments, and one is unable to focus solely on restoration. By bringing people to a natural environment and to the water source, their minds are at ease and they can focus on healing process, allowing them to reach a higher potential of functioning naturally. , Thesis (MArch) -- Faculty of Engineering, the Built Environment and Technology, School of Architecture, 2021
- Full Text:
- Date Issued: 2011-12
- Authors: Heuer, Morgan
- Date: 2011-12
- Subjects: Health resorts --South Africa -- Port Elizabeth --Designs and plans , Recreational therapy – South Africa
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/58728 , vital:60032
- Description: This treatise deals with the design of a Hydrotherapy Center, as well as it’s direct link to nature. Contemporary lifestyles in a technologically-advanced world have caused increased amounts of stress, anxiety, and chronic illness. The goal is to design a place of healing by reinforcing and establishing the connection between man and nature. Wellness is multidimensional; it deals with both mental and physical health. The design concept is a building that is one with nature, that leaves a small footprint on the natural landscape and that gives back more than it takes. The focus point is to work with the concept of healing in four different spheres: Psychological, Physiological, Sociological, and Environmental. By understanding the physical properties and applications of water to treat both mental and physical healthcare issues, an innovative center of natural healing can be established. The conventional healthcare facilities are mostly hostile, clinical, and institutional-like environments that do not contribute to a healthy state of mind. The mind is uneasy in distracting environments, and one is unable to focus solely on restoration. By bringing people to a natural environment and to the water source, their minds are at ease and they can focus on healing process, allowing them to reach a higher potential of functioning naturally. , Thesis (MArch) -- Faculty of Engineering, the Built Environment and Technology, School of Architecture, 2021
- Full Text:
- Date Issued: 2011-12
Cybersecurity: reducing the attack surface
- Authors: Thomson, Kerry-Lynn
- Subjects: Computer security , Computer networks -- Security measures , f-sa
- Language: English
- Type: Lectures
- Identifier: http://hdl.handle.net/10948/52885 , vital:44319
- Description: Almost 60% of the world’s population has access to the internet and most organisations today rely on internet connectivity to conduct business and carry out daily operations. Further to this, it is estimated that concepts such as the Internet of Things (IoT) will facilitate the connections of over 125 billion ‘things’ by the year 2030. However, as people and devices are becoming more and more interconnected, and more data is being shared, the question that must be asked is – are we doing so securely? Each year, cybercriminals cost organisations and individuals millions of dollars, using techniques such as phishing, social engineering, malware and denial of service attacks. In particular, together with the Covid-19 pandemic, there has been a so-called ‘cybercrime pandemic’. Threat actors adapted their techniques to target people with Covid-19-themed cyberattacks and phishing campaigns to exploit their stress and anxiety during the pandemic. Cybersecurity and cybercrime exist in a symbiotic relationship in cyberspace, where, as cybersecurity gets stronger, so the cybercriminals need to become stronger to overcome those defenses. And, as the cybercriminals become stronger, so too must the defenses. Further, this symbiotic relationship plays out on what is called the attack surface. Attack surfaces are the exposed areas of an organisation that make systems more vulnerable to attacks and, essentially, is all the gaps in an organisation’s security that could be compromised by a threat actor. This attack surface is increased through organisations incorporating things such as IoT technologies, migrating to the cloud and decentralising its workforce, as happened during the pandemic with many people working from home. It is essential that organisations reduce the digital attack surface, and the vulnerabilities introduced through devices connected to the internet, with technical strategies and solutions. However, the focus of cybersecurity is often on the digital attack surface and technical solutions, with less of a focus on the human aspects of cybersecurity. The human attack surface encompasses all the vulnerabilities introduced through the actions and activities of employees. These employees should be given the necessary cybersecurity awareness, training and education to reduce the human attack surface of organisations. However, it is not only employees of organisations who are online. All individuals who interact online should be cybersecurity aware and know how to reduce their own digital and human attack surfaces, or digital footprints. This paper emphasises the importance of utilising people as part of the cybersecurity defense through the cultivation of cybersecurity cultures in organisations and a cybersecurity conscious society.
- Full Text:
- Authors: Thomson, Kerry-Lynn
- Subjects: Computer security , Computer networks -- Security measures , f-sa
- Language: English
- Type: Lectures
- Identifier: http://hdl.handle.net/10948/52885 , vital:44319
- Description: Almost 60% of the world’s population has access to the internet and most organisations today rely on internet connectivity to conduct business and carry out daily operations. Further to this, it is estimated that concepts such as the Internet of Things (IoT) will facilitate the connections of over 125 billion ‘things’ by the year 2030. However, as people and devices are becoming more and more interconnected, and more data is being shared, the question that must be asked is – are we doing so securely? Each year, cybercriminals cost organisations and individuals millions of dollars, using techniques such as phishing, social engineering, malware and denial of service attacks. In particular, together with the Covid-19 pandemic, there has been a so-called ‘cybercrime pandemic’. Threat actors adapted their techniques to target people with Covid-19-themed cyberattacks and phishing campaigns to exploit their stress and anxiety during the pandemic. Cybersecurity and cybercrime exist in a symbiotic relationship in cyberspace, where, as cybersecurity gets stronger, so the cybercriminals need to become stronger to overcome those defenses. And, as the cybercriminals become stronger, so too must the defenses. Further, this symbiotic relationship plays out on what is called the attack surface. Attack surfaces are the exposed areas of an organisation that make systems more vulnerable to attacks and, essentially, is all the gaps in an organisation’s security that could be compromised by a threat actor. This attack surface is increased through organisations incorporating things such as IoT technologies, migrating to the cloud and decentralising its workforce, as happened during the pandemic with many people working from home. It is essential that organisations reduce the digital attack surface, and the vulnerabilities introduced through devices connected to the internet, with technical strategies and solutions. However, the focus of cybersecurity is often on the digital attack surface and technical solutions, with less of a focus on the human aspects of cybersecurity. The human attack surface encompasses all the vulnerabilities introduced through the actions and activities of employees. These employees should be given the necessary cybersecurity awareness, training and education to reduce the human attack surface of organisations. However, it is not only employees of organisations who are online. All individuals who interact online should be cybersecurity aware and know how to reduce their own digital and human attack surfaces, or digital footprints. This paper emphasises the importance of utilising people as part of the cybersecurity defense through the cultivation of cybersecurity cultures in organisations and a cybersecurity conscious society.
- Full Text:
HUMAN SETTLEMENTS ARE MUCH MORE THAN HOUSING: TOWARDS TRANSFORMATIVE THEORY AND PRACTICE FOR A SUSTAINABLE FUTURE
- Authors: Mbanga, Sijekula
- Subjects: HUMAN SETTLEMENTS -- PRACTICE FOR A SUSTAINABLE FUTURE
- Language: English
- Type: text , HUMAN SETTLEMENTS ARE MUCH MORE THAN HOUSING: TOWARDS TRANSFORMATIVE THEORY AND PRACTICE FOR A SUSTAINABLE FUTURE , Lectures
- Identifier: http://hdl.handle.net/10948/66614 , vital:76108
- Description: While housing is not just about houses, human settlements are much more than housing. For, over many centuries, from the origin of things, human settlements have continued to define people’s existence. They are places where people live, learn, work, and recreate. However, the lack of integration of concerns from various disciplines and professions, in the making and remaking of spaces and places, has been the source of enduring maladies that confront modern-day cities. These urban deficiencies have increasingly become amplified and sophisticated due to the constantly shifting nature and character of settlement patterns and forms. On the other hand, scholars, policymakers, and professionals have been at pain, attempting to yield coherent analytical models that aid explain the pathology of perpetually changing human settlements, including identifying the forces that drive change in the histories of human settlements across the local, national, and regional landscapes. Some of the major contributing factors to settlement pattern changes, as cited by various scholars, at different times, include colonialisation, war and conflicts, natural disasters, land (re)production, social and economic policy choices of states, and formal government systems that execute choices that have been made. The cumulative effect of the factors that result in changing human settlement patterns have manifested by population movements, and many a times, with negative impact on the environment and the overall well-being of citizens. While countries are seemingly concerned with the challenges faced by cities and towns, who can no longer cope with the floodtide of migrants that arrive in them daily, in search of better economic opportunities and livelihoods, there appears to be a limited understanding of the structure and behaviour of human settlement systems, including the processes that underlie the changing patterns of human settlements. It is the primary purpose of this paper to trigger a national, regional, and global agenda for developing a coherent view of the theory and practice of human settlement development and management, for societies in transition. In so doing, the paper commences by a brief exploration of the origins and evolution of human settlements, followed by an attempt to examine the key theories and models that have, over time, influenced the understanding of human settlement forms. The paper proceeds to interrogate the types and functions of human settlements, and thereafter uncover the key contemporary challenges that face human settlements today, as described in the paper. One conceptual and methodological dilemma, you may call it a normative concern, that faced the author in framing this lecture paper has been an urge to depart from the conventional scholarly practice of proffering some suggested solutions for a selected few, amongst a myriad of, complex urban deficiencies that are identified in the lecture paper. The difficulty to prescribing a cure to each identified human settlement development challenge arises out oft, firstly, that the urban development challenges are interrelated and interdependent, and secondly, the challenges in view of all are but symptoms of much deeper and networked structural, economic, political, social, and technological causes, in a fluid global landscape, porous country borders and behaviourally undefinable city boundaries. This lecture, thus, concludes by throwing insights on some of the key issues for consideration, you may call them provocations, to be taken forward by all those who are committed to the global agenda of the pursuit of habitable, equitable, resilient human settlements within, between and across the nations of the world. Key Words: Human Settlements, Transformative Theory and Practice, People, Environment, Economy, Sustainability, Urbanisation, Regeneration, Public Policy, Equity, Resilience.
- Full Text:
- Authors: Mbanga, Sijekula
- Subjects: HUMAN SETTLEMENTS -- PRACTICE FOR A SUSTAINABLE FUTURE
- Language: English
- Type: text , HUMAN SETTLEMENTS ARE MUCH MORE THAN HOUSING: TOWARDS TRANSFORMATIVE THEORY AND PRACTICE FOR A SUSTAINABLE FUTURE , Lectures
- Identifier: http://hdl.handle.net/10948/66614 , vital:76108
- Description: While housing is not just about houses, human settlements are much more than housing. For, over many centuries, from the origin of things, human settlements have continued to define people’s existence. They are places where people live, learn, work, and recreate. However, the lack of integration of concerns from various disciplines and professions, in the making and remaking of spaces and places, has been the source of enduring maladies that confront modern-day cities. These urban deficiencies have increasingly become amplified and sophisticated due to the constantly shifting nature and character of settlement patterns and forms. On the other hand, scholars, policymakers, and professionals have been at pain, attempting to yield coherent analytical models that aid explain the pathology of perpetually changing human settlements, including identifying the forces that drive change in the histories of human settlements across the local, national, and regional landscapes. Some of the major contributing factors to settlement pattern changes, as cited by various scholars, at different times, include colonialisation, war and conflicts, natural disasters, land (re)production, social and economic policy choices of states, and formal government systems that execute choices that have been made. The cumulative effect of the factors that result in changing human settlement patterns have manifested by population movements, and many a times, with negative impact on the environment and the overall well-being of citizens. While countries are seemingly concerned with the challenges faced by cities and towns, who can no longer cope with the floodtide of migrants that arrive in them daily, in search of better economic opportunities and livelihoods, there appears to be a limited understanding of the structure and behaviour of human settlement systems, including the processes that underlie the changing patterns of human settlements. It is the primary purpose of this paper to trigger a national, regional, and global agenda for developing a coherent view of the theory and practice of human settlement development and management, for societies in transition. In so doing, the paper commences by a brief exploration of the origins and evolution of human settlements, followed by an attempt to examine the key theories and models that have, over time, influenced the understanding of human settlement forms. The paper proceeds to interrogate the types and functions of human settlements, and thereafter uncover the key contemporary challenges that face human settlements today, as described in the paper. One conceptual and methodological dilemma, you may call it a normative concern, that faced the author in framing this lecture paper has been an urge to depart from the conventional scholarly practice of proffering some suggested solutions for a selected few, amongst a myriad of, complex urban deficiencies that are identified in the lecture paper. The difficulty to prescribing a cure to each identified human settlement development challenge arises out oft, firstly, that the urban development challenges are interrelated and interdependent, and secondly, the challenges in view of all are but symptoms of much deeper and networked structural, economic, political, social, and technological causes, in a fluid global landscape, porous country borders and behaviourally undefinable city boundaries. This lecture, thus, concludes by throwing insights on some of the key issues for consideration, you may call them provocations, to be taken forward by all those who are committed to the global agenda of the pursuit of habitable, equitable, resilient human settlements within, between and across the nations of the world. Key Words: Human Settlements, Transformative Theory and Practice, People, Environment, Economy, Sustainability, Urbanisation, Regeneration, Public Policy, Equity, Resilience.
- Full Text:
Property development body of knowledge (PDBoK)
- Authors: Botha, Brink
- Subjects: Real estate business , Real estate , f-sa
- Language: English
- Type: text , Inaugural Lectures
- Identifier: http://hdl.handle.net/10948/52750 , vital:44007
- Description: Property development constitutes one of the largest enterprises and gross domestic product contributors of the world. Property development is about the development of land or Real Estate. The business of property development boasts enormous successes over the centuries, however also incurred substantial losses. Then the Covid-19 pandemic took this sentiment to new horizons. Empirical research identified factors affecting the perceived success of property development. The property development project life cycle has been identified to an extent, however, in the international arena, there are still extensive debate in terms of what constitute the accepted norm and stages involved in the proposed property development project life cycle. During primarily the last two decades, further empirical research identified certain knowledge areas that inform the property development process and ultimate life cycle, however, a Best Practice Guide informing the Property Development Body of Knowledge (pork) does not exist. The primary objective of this on-going research project will be to deliver this knew knowledge. The secondary objective will be in the form of knowledge areas aligned to the internationally agreed property development project life cycle that will enable the practice of property development to be professionally governed in all its impact and composure.
- Full Text:
- Authors: Botha, Brink
- Subjects: Real estate business , Real estate , f-sa
- Language: English
- Type: text , Inaugural Lectures
- Identifier: http://hdl.handle.net/10948/52750 , vital:44007
- Description: Property development constitutes one of the largest enterprises and gross domestic product contributors of the world. Property development is about the development of land or Real Estate. The business of property development boasts enormous successes over the centuries, however also incurred substantial losses. Then the Covid-19 pandemic took this sentiment to new horizons. Empirical research identified factors affecting the perceived success of property development. The property development project life cycle has been identified to an extent, however, in the international arena, there are still extensive debate in terms of what constitute the accepted norm and stages involved in the proposed property development project life cycle. During primarily the last two decades, further empirical research identified certain knowledge areas that inform the property development process and ultimate life cycle, however, a Best Practice Guide informing the Property Development Body of Knowledge (pork) does not exist. The primary objective of this on-going research project will be to deliver this knew knowledge. The secondary objective will be in the form of knowledge areas aligned to the internationally agreed property development project life cycle that will enable the practice of property development to be professionally governed in all its impact and composure.
- Full Text: