MMTI Theses and Dissertations (2017)
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Browsing MMTI Theses and Dissertations (2017) by Subject "Android"
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- ItemA Mobile application for locating the available handyman services within a locality(Strathmore University, 2017) Gikundi, DenisThere has been a growing need of handyman services in Kenya and other regions as well which is attributed to several contributing factors which include, local demand, market influence, having second homes, income/rental units and commercial property maintenance and people’s lives becoming busier and more hectic with more people now looking for help with odd-jobs around their home, like changing light fittings, or putting up shelves. However, immediate access of such services has proven to be a challenging task especially when one is travelling or settling in a new area. This is because, the service providers are situated across different areas and differ in costs, quality and type of service that they provide. The existing handyman services solutions striving to solve this problem are defragmented offering contacts scattered in the web and favor’s high-end users with knowledge about the web. There is also no structured method of determining the quality of service provided by these handymen. The main aim of this research was to develop a mobile application for locating handyman services within a locality to help in streamlining the process of acquiring handymen. This study applied Agile methodology as the software methodology for developing the application. Data was collected using questionnaires and interviews. The data analysis was done using Google analysis tools and the results from the system requirements. Handyman mobile application was then built to locate the available handyman services within a locality. A web based application was also developed for managing and monitoring the mobile application. Testing of the final application was done successfully by the potential users and developer of the application. From the results of the test, the respondents agreed that the developed application would be effective in addressing the shortcomings of the already existing systems by effectively locating handyman services within a specific area and providing a more structured approach for determining the quality of services to be provided. Users will benefit by using the handyman application to locate handyman services easily and more specific to their location. The application will also serve to meet the growing need for on demand handyman services.
- ItemA Mobile application for tracing and verification of the authenticity of filled liquefied petroleum gas cylinders(Strathmore University, 2017) Mutua, Carolyne WanzaTracing and verification of the authenticity of filled Liquefied Petroleum Gas (LPG) cylinders has been marked with numerous challenges especially in the Sub-Saharan region. With an increase in LPG consumption, numerous sales points have sprouted in residential estates which even sell unbranded cylinders. Some traders involved in the illegal refilling and branding of cylinders use cylinders that do not meet the quality standards of the Kenya Bureau of Standards, thus compromising consumers’ safety. Consequently, unlicensed gas operators are gaining an unfair advantage as they do not incur the cost of purchasing cylinders. Consumers end up paying the same for genuine and illegal products in spite of the non-compliance on safety checks, cylinder re-validation, gas specifications, quantity and value added tax remittance. This research used document survey and an online questionnaire that was distributed to 96 LPG consumers to provide a detailed study of the characteristics of the authenticity of a filled LPG cylinder, methods and technology currently used to trace and verify the authenticity of filled LPG cylinder and how a mobile application for tracing and verification of the authenticity of filled LPG cylinder can be designed, developed, tested and validated. The data collected from the 96 respondents was analysed using Google analytics tools and the results used to obtain the system requirements and design of an Android mobile application for tracing and verifying the authenticity of filled Liquefied Petroleum Gas cylinders. Agile software development methodology was used which allows faster iteration and more frequent user feedback. The Android application was integrated with an analytical back-end for LPG manufacturers, distributors and retailers that present a summary of LPG supplies made. Testing and validation was done on the final prototype by the potential users and developer of the application. Users stand to benefit by using the mobile application to ensure their safety by verifying the authenticity of gas cylinders anytime and from anywhere.