Building an E-health system for health awareness campaigns in poor areas
- Authors: Gremu, Chikumbutso David
- Date: 2015
- Subjects: National health services -- South Africa , Medical informatics , Public health -- Information services
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:4708 , http://hdl.handle.net/10962/d1017930
- Description: Appropriate e-services as well as revenue generation capabilities are key to the deployment and the sustainability for ICT installations in poor areas, particularly common in developing country. The area of e-Health is a promising area for e-services that are both important to the population in those areas and potentially of direct interest to National Health Organizations, which already spend money for Health campaigns there. This thesis focuses on the design, implementation, and full functional testing of HealthAware, an application that allows health organization to set up targeted awareness campaigns for poor areas. Requirements for such application are very specific, starting from the fact that the preparation of the campaign and its execution/consumption happen in two different environments from a technological and social point of view. Part of the research work done for this thesis was to make the above requirements explicit and then use them in the design. This phase of the research was facilitated by the fact that the thesis' work was executed within the context of the Siyakhula Living Lab (SLL; www.siyakhulaLL.org), which has accumulated multi-year experience of ICT deployment in such areas. As a result of the found requirements, HealthAware comprises two components, which are web-based, Java applications that run in a peer-to-peer fashion. The first component, the Dashboard, is used to create, manage, and publish information for conducting awareness campaigns or surveys. The second component, HealthMessenger, facilitates users' access to the campaigns or surveys that were created using the Dashboard. The HealthMessenger was designed to be hosted on TeleWeaver while the Dashboard is hosted independently of TeleWeaver and simply communicates with the HealthMessenger through webservices. TeleWeaver is an application integration platform developed within the SLL to host software applications for poor areas. Using a core service of TeleWeaver, the profile service, where all the users' defining elements are contained, campaigns and surveys can be easily and effectively targeted, for example to match specific demographics or geographic locations. Revenue generation is attained via the logging of the interactions of the target users in the communities with the applications in TeleWeaver, from which billing data is generated according to the specific contractual agreements with the National Health Organization. From a general point of view, HealthAware contributes to the concrete realizations of a bidirectional access channel between Health Organizations and users in poor communities, which not only allows the communication of appropriate content in both directions, but get 'monetized' and in so doing becomes a revenue generator.
- Full Text:
- Date Issued: 2015
- Authors: Gremu, Chikumbutso David
- Date: 2015
- Subjects: National health services -- South Africa , Medical informatics , Public health -- Information services
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:4708 , http://hdl.handle.net/10962/d1017930
- Description: Appropriate e-services as well as revenue generation capabilities are key to the deployment and the sustainability for ICT installations in poor areas, particularly common in developing country. The area of e-Health is a promising area for e-services that are both important to the population in those areas and potentially of direct interest to National Health Organizations, which already spend money for Health campaigns there. This thesis focuses on the design, implementation, and full functional testing of HealthAware, an application that allows health organization to set up targeted awareness campaigns for poor areas. Requirements for such application are very specific, starting from the fact that the preparation of the campaign and its execution/consumption happen in two different environments from a technological and social point of view. Part of the research work done for this thesis was to make the above requirements explicit and then use them in the design. This phase of the research was facilitated by the fact that the thesis' work was executed within the context of the Siyakhula Living Lab (SLL; www.siyakhulaLL.org), which has accumulated multi-year experience of ICT deployment in such areas. As a result of the found requirements, HealthAware comprises two components, which are web-based, Java applications that run in a peer-to-peer fashion. The first component, the Dashboard, is used to create, manage, and publish information for conducting awareness campaigns or surveys. The second component, HealthMessenger, facilitates users' access to the campaigns or surveys that were created using the Dashboard. The HealthMessenger was designed to be hosted on TeleWeaver while the Dashboard is hosted independently of TeleWeaver and simply communicates with the HealthMessenger through webservices. TeleWeaver is an application integration platform developed within the SLL to host software applications for poor areas. Using a core service of TeleWeaver, the profile service, where all the users' defining elements are contained, campaigns and surveys can be easily and effectively targeted, for example to match specific demographics or geographic locations. Revenue generation is attained via the logging of the interactions of the target users in the communities with the applications in TeleWeaver, from which billing data is generated according to the specific contractual agreements with the National Health Organization. From a general point of view, HealthAware contributes to the concrete realizations of a bidirectional access channel between Health Organizations and users in poor communities, which not only allows the communication of appropriate content in both directions, but get 'monetized' and in so doing becomes a revenue generator.
- Full Text:
- Date Issued: 2015
The adoption of quality assurance in e-Health acquisition for rural hospitals in the Eastern Cape Province
- Authors: Ruxwana, Nkqubela
- Date: 2010
- Subjects: Quality assurance -- Management , Hospital care -- Quality control , Health facilities -- Quality control , Health -- Computer network resources , Public health -- Information services
- Language: English
- Type: Thesis , Doctoral , PhD
- Identifier: vital:9731 , http://hdl.handle.net/10948/1514 , Quality assurance -- Management , Hospital care -- Quality control , Health facilities -- Quality control , Health -- Computer network resources , Public health -- Information services
- Description: The evolution of e-health has the potential to assist in the management of scarce resources and the shortage of skills, enhance efficiencies, improve quality and increase work productivity within the healthcare sector. As a result, an increase is seen in e-health solutions developments with the aim to improve healthcare services, hospital information systems, health decision support, telemedicine and other technical systems that have the potential to reduce cost, improve quality, and enhance the accessibility and delivery of healthcare. However, unfortunately their implementation contiues to fail. Although there are several reasons for this, in this study a lack of project quality management is viewed as a key contributor to the failure of e-health solutions implementation projects in rural hospitals. This results in neglected aspects of quality assurance (QA), which forms an integral part of project quality management. The purpose of this study is to develop a Genertic Quality Assurance Model (GQAM) for the successful acquisition (i.e. development and implementation) of e-health solutions in rural hospitals in the Eastern Cape Province to enable improved quality of care and service delivery. In order to develop and test this model it was necessary to identify the QA methodologies that are currently used in rural hospitals and to evaluate their strengths and weaknesses, as well as their impact on project success. The study is divided into four phases; in each phase different study designs were followed. The study used triangulation of qualitative and some elements of quantitative research approaches, in terms of which a case study approach was adpoted to answer the research questions. This study did indeed develop a GQAM that can be used to ensure e-health solution success in rural hospitals. Furthermore, to aid in the implementation of this model, a set of QA value chain implementation guidelines were developed, as a framework, to inject the nodel into typical (SDLC) phases.
- Full Text:
- Date Issued: 2010
- Authors: Ruxwana, Nkqubela
- Date: 2010
- Subjects: Quality assurance -- Management , Hospital care -- Quality control , Health facilities -- Quality control , Health -- Computer network resources , Public health -- Information services
- Language: English
- Type: Thesis , Doctoral , PhD
- Identifier: vital:9731 , http://hdl.handle.net/10948/1514 , Quality assurance -- Management , Hospital care -- Quality control , Health facilities -- Quality control , Health -- Computer network resources , Public health -- Information services
- Description: The evolution of e-health has the potential to assist in the management of scarce resources and the shortage of skills, enhance efficiencies, improve quality and increase work productivity within the healthcare sector. As a result, an increase is seen in e-health solutions developments with the aim to improve healthcare services, hospital information systems, health decision support, telemedicine and other technical systems that have the potential to reduce cost, improve quality, and enhance the accessibility and delivery of healthcare. However, unfortunately their implementation contiues to fail. Although there are several reasons for this, in this study a lack of project quality management is viewed as a key contributor to the failure of e-health solutions implementation projects in rural hospitals. This results in neglected aspects of quality assurance (QA), which forms an integral part of project quality management. The purpose of this study is to develop a Genertic Quality Assurance Model (GQAM) for the successful acquisition (i.e. development and implementation) of e-health solutions in rural hospitals in the Eastern Cape Province to enable improved quality of care and service delivery. In order to develop and test this model it was necessary to identify the QA methodologies that are currently used in rural hospitals and to evaluate their strengths and weaknesses, as well as their impact on project success. The study is divided into four phases; in each phase different study designs were followed. The study used triangulation of qualitative and some elements of quantitative research approaches, in terms of which a case study approach was adpoted to answer the research questions. This study did indeed develop a GQAM that can be used to ensure e-health solution success in rural hospitals. Furthermore, to aid in the implementation of this model, a set of QA value chain implementation guidelines were developed, as a framework, to inject the nodel into typical (SDLC) phases.
- Full Text:
- Date Issued: 2010
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