Identyfikatory
Warianty tytułu
Schemat utrzymania usługi sieciowej dla łącza internetowego IOT - Internet of Things
Języki publikacji
Abstrakty
Aiming at the failure of link and path problem in device service networks of internet of things, reliability of link and path was analyzed theoretically. Three service maintenance strategies were proposed. Firstly, idle service component joining in service network maintenance strategy, it reduces average hop counts for message delivery and service completion time between components and devices. Secondly, link-based maintenance strategy, it is local maintenance method, in case of failure of the components migration, checking its one-hop neighbors in order to quickly recover service. Finally, path reconfiguration strategy: the failure of the link is estimated theoretically according to the analysis of reconfiguration target. The establishment of the probability model for the path reconfiguration of the stability analysis is to minimize service recovery time.
Przedstawiono analizę serwisu urządzęń sieci IOT biorąc pod uwagę awarie łącza internetowego.
Wydawca
Czasopismo
Rocznik
Tom
Strony
222--225
Opis fizyczny
Bibliogr. 17 poz., rys., wykr.
Twórcy
autor
- School of Computer Engineering and Science Shanghai University
- College of Mathematics Physics and Information Engineering Jiaxing University
autor
- School of Computer Engineering and Science Shanghai University
Bibliografia
- [1] Atzori L., Iera A., Morabito G.: The Internet of Things: A survey, Computer Networks,54(15), pp. 2787–2805,Oct. 2010.
- [2] Kranz M., Holleis P., Schmidt A.: Embedded Interaction: Interacting with the Internet of Things, IEEE Internet Computing, 14(2), pp. 46–53,Mar.2010.
- [3] Houidi I., Louati W., Ameur W. B.: Virtual network provisioning across multiple substrate networks, Computer Networks, 55(4), pp. 1011–1023, Mar. 2011.
- [4] Ashkenazi A., Akselrod D.: Platform independent overall security architecture in multiprocessor system-on-chip integrated circuits for use in mobile phones and handheld devices, Computers and Electrical Engineering, 33(5-6), pp. 407-424, Sep.-Nov. 2007.
- [5] Han S.Q.,Zhang Y.: An Intelligent Service Collaboration Algorithm for Wireless Sensor Networks, Sensor Letters,9(4), pp. 1485-1489,Aug. 2011.
- [6] Zhang Z.M.,Chen D.Q.,Jiang C.G.: A Hierarchical Secure Reliable Routing Protocol for Wireless Sensor Networks, Sensor Letters,9(4), pp. 1561-1565,Aug. 2011.
- [7] Chakraborty D.,Joshi A.,Finin T.: Service composition for mobile environments, Mobile Networks and Applications,10(4), pp. 435–451,Aug. 2005.
- [8] Yin K.T.,Zhou B.,Zhang S.: QoS-based bottom-up service replacement for Web service composition, Journal of Zhejiang University(Engineering Science),44(4), pp. 700–709, 2010.
- [9] Feng X.Z.,Wu Q.Y.,Jia Y.: A Rapid Algorithm to Find the kMUPP Replacement Services Based on the QoS Constraints, Computer Engineering & Science,30(4),pp. 76–79, 2008.
- [10] Raman B., Katz R. H.: An architecture for highly available wide-area service composition, Computer Communications, 26(15), pp. 1727–1740,Sep. 2003.
- [11] Xiao L., Nahrstedt K.: Minimum user-perceived interference routing in service composition, Proceedings of IEEE Infocom, pp. 1-12, 2006.
- [12] Sahoo P. K, Chang C. Y., Chang S. W.: Novel route maintenance protocols for the Bluetooth ad hoc network with mobility, Network and Computer Applications,31(4),pp. 535–558,Nov. 2008.
- [13] Wang J.: Exploiting Mobility Prediction for Dependable Service Composition in Wireless Mobile Ad Hoc Networks, IEEE Transactions on Services Computing,4(1),pp. 44–55, 2011.
- [14] Badonnel R.,R R.S., Festor O.: Self-configurable fault monitoring in ad-hoc networks, Ad Hoc Networks, 6(3),pp. 458–473,May. 2008.
- [15] Qin X.,Jiang H.: A novel fault-tolerant scheduling algorithm for precedence constrained tasks in real-time heterogeneous systems, Parallel Computing,32(5),pp. 331–356,Jun. 2006.
- [16] Jiang S., Xue Y., Schmidt D.: A Minimum disruption service composition and recovery in mobile ad hoc networks, Computer Network Journal, Special Issue on Autonomic and Self- Organizing Systems,53(10),pp. 1649–1665, 2009.
- [17] Miller L. E.: Distribution of link distances in a wireless network, Journal of research of the National Institute of Standards and Technology,106(2),pp. 401–412, 2011.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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