• DocumentCode
    71800
  • Title

    Evaluating Service Disciplines forOn-Demand Mobile Data Collectionin Sensor Networks

  • Author

    Liang He ; Zhe Yang ; Jianping Pan ; Lin Cai ; Jingdong Xu ; Yu Gu

  • Author_Institution
    SUTD-MIT Int. Design Center, Singapore Univ. of Technol. & Design, Singapore, Singapore
  • Volume
    13
  • Issue
    4
  • fYear
    2014
  • fDate
    Apr-14
  • Firstpage
    797
  • Lastpage
    810
  • Abstract
    Mobility-assisted data collection in sensor networks creates a new dimension to reduce and balance the energy consumption for sensor nodes. However, it also introduces extra latency in the data collection process due to the limited mobility of mobile elements. Therefore, how to schedule the movement of mobile elements throughout the field is of ultimate importance. In this paper, the on-demand scenario where data collection requests arrive at the mobile element progressively is investigated, and the data collection process is modelled as an M/G/1/c- NJN queuing system with an intuitive service discipline of nearest-job-next (NJN). Based on this model, the performance of data collection is evaluated through both theoretical analysis and extensive simulation. NJN is further extended by considering the possible requests combination (NJNC). The simulation results validate our models and offer more insights when compared with the first-come-first-serve (FCFS) discipline. In contrary to the conventional wisdom of the starvation problem, we reveal that NJN and NJNC have better performance than FCFS, in both the average and more importantly the worst cases, which offers the much needed assurance to adopt NJN and NJNC in the design of more sophisticated data collection schemes, as well as other similar scheduling scenarios.
  • Keywords
    mobility management (mobile radio); probability; queueing theory; wireless sensor networks; FCFS discipline; M-G-1-c- NJN queuing system; NJNC; data collection process; data collection requests; energy consumption; first-come-first-serve discipline; intuitive service discipline; latency; mobile elements; mobility-assisted data collection; nearest-job-next; on-demand scenario; sensor networks; sensor nodes; starvation problem; Analytical models; Data collection; Data models; Mobile communication; Mobile computing; Queueing analysis; Wireless communication; Wireless ad hoc sensor networks; mobile elements; on-demand data collection;
  • fLanguage
    English
  • Journal_Title
    Mobile Computing, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1536-1233
  • Type

    jour

  • DOI
    10.1109/TMC.2013.62
  • Filename
    6518109