2017 IFIP/IEEE Symposium on Integrated Network and Service Management (IM) 2017
DOI: 10.23919/inm.2017.7987454
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QoS management mechanisms for Enhanced Living Environments in IoT

Abstract: The Internet of Things (IoT) paradigm is expected to bring ubiquitous intelligence through new applications in order to enhance living and other environments. Several research and standardization studies are now focused on the Middleware level of the underlying communication system. For this level, several challenges need to be considered, among them the Quality of Service (QoS) issue. The Autonomic Computing paradigm is now recognized as a promising approach to help communication and other systems to self-ada… Show more

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Cited by 7 publications
(6 citation statements)
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References 8 publications
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“…S X X X [18] It proposes PRISMA, a resource-oriented publish/subscribe IoT platform, which main goals are to provide: programming abstractions, services, runtime support, and QoS mechanisms, to meet application constraints. P X X X [19] It proposes an autonomic IoT platform for the QoS management composed of a set of QoS-oriented mechanisms that can be dynamically executed at the platform level to correct QoS degradation.…”
Section: S2mentioning
confidence: 99%
See 1 more Smart Citation
“…S X X X [18] It proposes PRISMA, a resource-oriented publish/subscribe IoT platform, which main goals are to provide: programming abstractions, services, runtime support, and QoS mechanisms, to meet application constraints. P X X X [19] It proposes an autonomic IoT platform for the QoS management composed of a set of QoS-oriented mechanisms that can be dynamically executed at the platform level to correct QoS degradation.…”
Section: S2mentioning
confidence: 99%
“…The programming abstractions are provided through REpresentational State Transfer (REST) interfaces; the main services provided are asynchronous communication, resource discovery and topology control; and the runtime support is for the creation, configuration, and execution of new applications in wireless sensor networks (WNS). In [19] is proposed an autonomic IoT platform-level QoS management for IoT Ecosystems. It is defined by a set of QoS-oriented mechanisms dynamically executed to solve QoS degradation problems.…”
Section: S2mentioning
confidence: 99%
“…S X X X [18] It proposes PRISMA, a resource-oriented publish/subscribe IoT platform, which main goals are to provide: programming abstractions, services, runtime support, and QoS mechanisms, to meet application constraints. P X X X [19] It proposes an autonomic IoT platform for the QoS management composed of a set of QoS-oriented mechanisms that can be dynamically executed at the platform level to correct QoS degradation.…”
Section: S2mentioning
confidence: 99%
“…The proposed scheme selects the secure licensed channel for delay-sensitive IoT device based on the channel fading conditions and information on PU activities. In order to improve QoS degradation for IoT networks an autonomic QoS-aware middleware was introduced in [21]. In [22], an adaptive and QoS-aware architecture was introduced for wireless sensors networks based IoT by using a modular approach.…”
Section: Related Workmentioning
confidence: 99%