Abstract-Individual wireless access networks show limitations that can be overcome through the integration of different technologies into a unified platform (i.e. 4G system). Nevertheless, the integration of heterogeneous networks poses many challenges such as adding complexity to the processes of deciding when to handoff, selecting the best network, and minimising roaming effects using appropriate handover methods. This paper presents PROTON, a novel solution that assists mobile users in the decision-making process related to roaming between heterogeneous technologies. PROTON deploys a formal policy representation model, based on Finite State Transducers, that evaluates policies using information from the context to manage mobiles' behaviour in a transparent manner, hiding 4G systems' complexities. We blend concepts of autonomic computing into the design of the solution and manage to improve user experience in typical 4G scenarios while keeping transparency.Index Terms-policy systems, 4G networks, Finite State Transducer, heterogeneous, handover.
Security has been an issue of contention in healthcare. The lack of familiarity and poor implementation of security in healthcare leave the patients' data vulnerable to attackers. The main issue is assessing how we can provide security in an RPM infrastructure. The findings in literature show there is little empirical evidence on proper implementation of security. Therefore, there is an urgent need in addressing cybersecurity issues in medical devices. Through the review of relevant literature in remote patient monitoring and use of a Microsoft threat modelling tool, we identify and explore current vulnerabilities and threats in IEEE 11073 standard devices to propose a new security framework for remote patient monitoring devices. Additionally, current RPM devices have a limitation on the number of people who can share a single device, therefore, we propose the use of NFC for identification in Remote Patient Monitoring (RPM) devices for multi-user environments where we have multiple people sharing a single device to reduce errors associated with incorrect user identification. We finally show how several techniques have been used to build the proposed framework.
Abstract-We are seeing the deployment of new types of networks such as sensor networks for environmental and infrastructural monitoring, social networks such as facebook, and e-Health networks for patient monitoring. These networks are producing large amounts of data that need to be stored, processed and analysed. Cloud technology is being used to meet these challenges. However, a key issue is how to provide security for data stored in the Cloud. This paper addresses this issue in two ways. It first proposes a new security framework for Cloud security which deals with all the major system entities. Secondly, it introduces a Capability ID system based on modified IPv6 addressing which can be used to implement a security framework for Cloud storage. The paper then shows how these techniques are being used to build an e-Health system for patient monitoring.
Abstract-Recent advances in mobile devices and network technologies have set new trends in the way we use computers and access networks. Cloud Computing, where processing and storage resources are residing on the network is one of these trends. The other is Mobile Computing, where mobile devices such as smartphones and tablets are believed to replace personal computers by combining network connectivity, mobility, and software functionality. In the future, these devices are expected to seamlessly switch between different network providers using vertical handover mechanisms in order to maintain network connectivity at all times. This will enable mobile devices to access Cloud Services without interruption as users move around. Using current service delivery models, mobile devices moving from one geographical location to another will keep accessing those services from the local Cloud of their previous network, which might lead to moving a large volume of data over the Internet backbone over long distances. This scenario highlights the fact that user mobility will result in more congestion on the Internet. This will degrade the Quality of Service and by extension, the Quality of Experience offered by the services in the Cloud and especially multimedia services that have very tight temporal constraints in terms of bandwidth and jitter. We believe that a different approach is required to manage resources more efficiently, while improving the Quality of Service and Quality of Experience of mobile media services. This paper introduces a novel concept of Cloud-Based Mobile Media Service Delivery in which services run on localised public Clouds and are capable of populating other public Clouds in different geographical locations depending on service demands and network status. Using an analytical framework, this paper argues that as the demand for specific services increases in a location, it might be more efficient to move those services closer to that location. This will prevent the Internet backbone from experiencing high traffic loads due to multimedia streams and will offer service providers an automated resource allocation and management mechanism for their services.
In order to achieve seamless interoperability in heterogeneous networking, it is vital to improve the context-awareness of the mobile node (MN)
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