• DocumentCode
    162962
  • Title

    Dynamic resource reuse towards participatory sensing networks

  • Author

    Oteafy, Sharief M. A. ; Hassanein, Hossam S.

  • Author_Institution
    Sch. of Comput., Queen´s Univ., Kingston, ON, Canada
  • fYear
    2014
  • fDate
    1-4 June 2014
  • Firstpage
    81
  • Lastpage
    86
  • Abstract
    In recent years the demand and density of Wireless Sensor Network (WSN) deployments has generated overwhelming underutilization of resources across multiple deployments. More recently, the proliferation of smartphone usage has augmented sensing architectures with readily available resources to enable data collection in real-time; aiding the adoption of participatory sensing network (PSN) paradigms. Unfortunately both literature domains remain disparate, and their operational mandates dictate significant variance despite their apparent common goals. In this paper we present a formal paradigm for resource representation across ubiquitous platforms, and present dynamic heuristics for utilizing WSNs and participatory-based transient resources towards serving multiple applications in concurrency. The presented paradigm, namely Dynamic Resource Reuse (DRR) WSN, supports multiple owners of resources and incentivizes their collaboration via token-reward systems. We capitalize on dynamic incentive mechanisms to solicit the contribution of resources from WSNs and PSNs. The core contribution of this work lies in operational synergy, facilitating cross-network functional utilization of all readily available resources, despite their network ownership.
  • Keywords
    real-time systems; resource allocation; smart phones; wireless sensor networks; DRR; WSN; augmented sensing architectures; core contribution; cross-network functional utilization; data collection; dynamic heuristics; dynamic incentive mechanisms; dynamic resource reuse; formal paradigm; multiple deployments; operational synergy; participatory sensing networks; participatory-based transient resources; real-time; resource representation; resource underutilization; smartphone; token-reward systems; ubiquitous platforms; wireless sensor network; Data collection; Dynamic scheduling; Performance evaluation; Sensors; Transceivers; Transient analysis; Wireless sensor networks; Dynamic Topology; Heterogeneous architecture; Multi-application Overlay; Novel Paradigm; Participatory Sensing; Sensor Networks;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Communications (QBSC), 2014 27th Biennial Symposium on
  • Conference_Location
    Kingston, ON
  • Type

    conf

  • DOI
    10.1109/QBSC.2014.6841189
  • Filename
    6841189