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    A framework for orchestrating secure and dynamic access of IoT services in multi-cloud environments.

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    Authors
    Kazim, Muhammad
    Liu, Lu cc
    Zhu, Shao Ying
    Zheng, Yongjun
    Affiliation
    University of Derby
    Issue Date
    2018-10-16
    
    Metadata
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    Abstract
    IoT devices have complex requirements but their limitations in terms of storage, network, computing, data analytics, scalability and big data management require it to be used it with a technology like cloud computing. IoT backend with cloud computing can present new ways to offer services that are massively scalable, can be dynamically configured, and delivered on demand with largescale infrastructure resources. However, a single cloud infrastructure might be unable to deal with the increasing demand of cloud services in which hundreds of users might be accessing cloud resources, leading to a big data problem and the need for efficient frameworks to handle a large number of user requests for IoT services. These challenges require new functional elements and provisioning schemes. To this end, we propose the usage of multi-clouds with IoT which can optimize the user requirements by allowing them to choose best IoT services from many services hosted in various cloud platforms and provide them with more infrastructure and platform resources to meet their requirements. This paper presents a novel framework for dynamic and secure IoT services access across multi-clouds using cloud on-demand model. To facilitate multi-cloud collaboration, novel protocols are designed and implemented on cloud platforms. The various stages involved in the framework for allowing users access to IoT services in multi-clouds are service matchmaking (i.e. to choose the best service matching user requirements), authentication (i.e. a lightweight mechanism to authenticate users at runtime before granting them service access), and SLA management (including SLA negotiation, enforcement and monitoring). SLA management offers benefits like negotiating required service parameters, enforcing mechanisms to ensure that service execution in the external cloud is according to the agreed SLAs and monitoring to verify that the cloud provider complies with those SLAs. The detailed system design to establish secure multi-cloud collaboration has been presented. Moreover, the designed protocols are empirically implemented on two different clouds including OpenStack and Amazon AWS. Experiments indicate that proposed system is scalable, authentication protocols result only in a limited overhead compared to standard authentication protocols, and any SLA violation by a cloud provider could be recorded and reported back to the user.
    Citation
    Kazim, M., Liu, L., and and Zhu, S. Y. (2018) ‘A framework for orchestrating secure and dynamic access of IoT Services in Multi-Cloud Environments," IEEE Access. doi: 10.1109/ACCESS.2018.2873812
    Publisher
    IEEE
    Journal
    IEEE Access
    URI
    http://hdl.handle.net/10545/623060
    DOI
    10.1109/ACCESS.2018.2873812
    Type
    Article
    Language
    en
    EISSN
    2169-3536
    ae974a485f413a2113503eed53cd6c53
    10.1109/ACCESS.2018.2873812
    Scopus Count
    Collections
    Department of Electronics, Computing & Maths

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