Smart computing & Systems Engineering - (SCSE - 2019)
Permanent URI for this collectionhttp://repository.kln.ac.lk/handle/123456789/20146
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Item Industry 4.0 maturity assessment of the Banking Sector of Sri Lanka(IEEE International Research Conference on Smart computing & Systems Engineering (SCSE) 2019, Department of Industrial Management, Faculty of Science, University of Kelaniya, Sri Lanka, 2019) Bandara, O.K.K.; Tharaka, V.K.; Wickramarachchi, A.P.R..Technological advancements have created massive changes in the way of performing businesses in this era. Whilst in creating the transition of physical world to a virtual world, industry 4.0 plays a significant role. Thus, the development of the concept of industry 4.0 revolutionize the way of conducting businesses. This concept was first limited to manufacturing sector thus with the evolvement of customer behaviour, service sector also applied these concepts to offer a better customer satisfaction. As modern customer expectations have risen with technology, Sri Lankan banking sector focussed to deliver their services strategy by enabling advanced technologies. Hence there is an essential need to define, formulate a set of guidelines in order to assess the progress of the current state of Sri Lankan banking sector in their journey of adapting industry 4.0. So, this scrutiny assesses the maturity of Sri Lankan banking sector by application of an industry 4.0 maturity model developed by the authors. The results of this study indicates that Sri Lankan banking sector is in the third maturity level of the model “Defined” as the overall maturity is 3.668.Item A simulation model to analyse Sri Lankan Megacity logistics behaviour: Megapolis logistics of Sri Lanka(IEEE International Research Conference on Smart computing & Systems Engineering (SCSE) 2019, Department of Industrial Management, Faculty of Science, University of Kelaniya, Sri Lanka, 2019) Dias, U.G.M.D.; Tharaka, V.K.; Nanayakkara, J.N.Colombo, the commercial capital of Sri Lanka is gradually being transformed into a Megacity with increasing urbanization and industrialization and investment in infrastructure development. Having experienced the consequences of unplanned and non-systematic nature of freight transportation in Colombo city, authorities have come up with a megacity development strategic plan, namely, The Western Region Megapolis Master Plan in order to reduce drawbacks associated with inland freight transportation in urban areas. It focuses on a two tier transportation network structure where the freight is consolidated and value added at hub locations via planned road network and transported to the port for shipping. In this scenario, the transportation structure which connects the consolidation hub with the port and different spokes of the network can be considered as the elementary operational unit of the logistics framework. For analysing operational feasibility of this scenario, simulation-based modelling can be utilized in order to predict the future operational performance of the proposed logistics plan. Having identified the elementary operational unit of functionality in the proposed logistics framework, a computerbased simulation model of the elementary unit is developed using Arena software by Rockwell Automation and validated in order to predict the performance of the two-tier transportation network. This quantitative model has the capability to provide strategic decision-making ability by analysing different scenarios, in terms of traffic congestion, road network utilization and the impact of different truck type combinations for optimum utilization of truck fleet