Busy Period Analysis of a Queueing System with Breakdowns and Its Application to Wireless Network Under Licensed Shared Access Regime

详细信息    查看全文

• 关键词：Licensed shared access ; Multi ; server queueing system ; Non ; reliable servers ; Busy period ; Number of failures
• 刊名：Lecture Notes in Computer Science
• 出版年：2016
• 出版时间：2016
• 年：2016
• 卷：9870
• 期：1
• 页码：426-439
• 全文大小：356 KB
• 参考文献：1.ETSI TR 103 113: Electromagnetic compatibility and Radio spectrum Matters (ERM); SystemReference document (SRdoc); Mobile broadband services in the 2 300 MHz – 2 400MHz frequency band under Licensed Shared Access regime (2013)
  2.ETSI TR 103 154: Reconfigurable Radio Systems (RRS); System requirements for operationof Mobile Broadband Systems in the 2 300 MHz - 2 400 MHz band under Licensed Shared Access (LSA) (2014)
  3.ETSI TR 103 235: Reconfigurable Radio Systems (RRS); System architecture and high levelprocedures for operation of Licensed Shared Access (LSA) in the 2 300 MHz – 2 400 MHz band (2015)
  4.Hasan, N.U., Ejaz, W., Ejaz, N., Kim, H.S., Anpalagan, A., Jo, M.: Network selection and channel allocation for spectrum sharing in 5G heterogeneous networks. IEEE Access 4, 980–992 (2016)CrossRef
  5.Buckwitz, K., Engelberg, J., Rausch, G.: Licensed Shared Access (LSA) - regulatory background and view of administrations. In: 9th International Conference on Cognitive Radio Oriented Wireless Networks, CROWNCOM, pp. 413–416 (2014)
  6.Gundlach, M., Hofmann, J., Markwart, C., Mohyeldin, E.: Recent advances on LSA in standardization, regulation, research and architecture design. In: 1st International Workshop on Cognitive Cellular Systems, CCS, pp. 1–5 (2014)
  7.Ponomarenko-Timofeev, A., Pyattaev, A., Andreev, S., Koucheryavy, Y., Mueck, M., Karls, I.: Highly dynamic spectrum management within licensed shared access regulatory framework. IEEE Commun. Mag. 5(3), 100–109 (2016)CrossRef
  8.Borodakiy, V.Y., Samouylov, K.E., Gudkova, I.A., Ostrikova, D.Y., Ponomarenko-Timofeev, A.A., Turlikov, A.M., Andreev, S.D.: Modeling unreliable LSA operation in 3GPP LTE cellular networks. In: 6th International Congress on Ultra Modern Telecommunications and Control Systems, ICUMT, pp. 390–396 (2014)
  9.Gudkova, I.A., Samouylov, K.E., Ostrikova, D.Y., Mokrov, E.V., Ponomarenko-Timofeev, A.A., Andreev, S.D., Koucheryavy, Y.A.: Service failure and interruption probability analysis for Licensed Shared Access regulatory framework. In: 7th International Congress on Ultra Modern Telecommunications and Control Systems, ICUMT, pp. 123–131 (2015)
  10.Al-Seedya, R.O., El-Sherbinya, A.A., El-Shehawyb, S.A., Ammar, S.I.: Transient solution of the \(M/M/c\) queue with balking and reneging. Comput. Math. Appl. 57(8), 1280–1285 (2009)MathSciNet CrossRef MATH
  11.Kea, J.-C., Linb, C.-H., Yangb, J.-Y., Zhangc, Z.G.: Optimal \((d, c)\) vacation policy for a finite buffer \(M/M/c\) queue with unreliable servers and repairs. Appl. Math. Model. 33(10), 3949–3962 (2009)MathSciNet CrossRef
  12.Neuts, M.F.: Matrix-Geometric Solutions in Stochastic Models. The John Hopkins University Press, Baltimore (1981)MATH
  13.Vinodhini, G.A.F.: Transient solution of a multi-server queue with catastrophes and impatient customers when system is down. Appl. Math. Sci. 92(8), 4585–4592 (2014)CrossRef
  14.Yue, D., Yue, W.: Analysis of an \(M/M/c/N\) queueing system with balking, reneging, and synchronous vacations. In: Yue, W., Takahashi, Y., Takagi, H. (eds.) Advances in Queueing Theory and Network Applications, pp. 165–180. Springer, New York (2009)CrossRef
  
• 作者单位：Dmitry Efrosinin (16) (17)
  Konstantin Samouylov (17)
  Irina Gudkova (17) (18)
  
  16. Johannes Kepler University Linz, Altenbergerstrasse 69, 4040, Linz, Austria
  17. RUDN University, 6 Miklukho-Maklaya St, Moscow, 117198, Russia
  18. IPI FRC CSC RAS, 44-2 Vavilova Str., Moscow, 119333, Russia
  
• 丛书名：Internet of Things, Smart Spaces, and Next Generation Networks and Systems
• ISBN：978-3-319-46301-8
• 刊物类别：Computer Science
• 刊物主题：Artificial Intelligence and Robotics
  Computer Communication Networks
  Software Engineering
  Data Encryption
  Database Management
  Computation by Abstract Devices
  Algorithm Analysis and Problem Complexity
  
• 出版者：Springer Berlin / Heidelberg
• ISSN：1611-3349
• 卷排序：9870

文摘

Licensed shared access (LSA) framework is becoming one of the promising trends for future 5G wireless networks. Two main parties are involved in the process of sharing the frequency band – the primarily user (owner) and the secondary user (licensee). From the LSA licensee’s perspective, who has access to the band when the owner does not need it, the band is unreliable and its customers (e.g. users of wireless network) suffer from possible service interruptions. This can only occur when there is at least one customer in service (i.e. in busy period). The aim of this paper is to estimate the impact of the LSA band unreliability to the LSA licensee within the period when some interruptions are possible. The metric is the relation between the number of service interruptions and the number of customers served during a busy period. We model the occupancy of the LSA band as a multi-server homogeneous queueing system with finite and infinite buffer size and deal with the busy period analysis. The system is analyzed in steady state by deriving expressions in terms of the Laplace-Stiltjes transforms for the continuous time distributions and in terms of the probability generating functions for the number of customers served during a busy period and number of failures which occur in a busy period. The non-monotonic nature of some probabilistic measures is identified. Some illustrative examples are added to the paper.