한국통신학회논문지 (The Journal of Korean Institute of Communications and Information Sciences)

  • 제35권5B호
  • /
  • Pages.741-752
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  • 2010
  • /
  • 1226-4717(pISSN)
  • /
  • 2287-3880(eISSN)
한국통신학회 (The Korean Institute of Commucations and Information Sciences)
권호 표지

Handover Control for WCDMA Femtocell Networks

  • 투고 : 2009.10.29
  • 심사 : 2010.04.29
  • 발행 : 2010.05.31
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초록

The ability to seamlessly switch between the macro networks and femtocell networks is a key driver for femtocell network deployment. The handover procedures for the integrated femtocell/macrocell networks differ from the existing handovers. Some modifications of existing network and protocol architecture for the integration of femtocell networks with the existing macrocell networks are also essential. These modifications change the signal flow for handover procedures due to different 2-tier cell (macrocell and femtocell) environment. The handover between two networks should be performed with minimum signaling. A frequent and unnecessary handover is another problem for hierarchical femtocell/macrocell network environment that must be minimized. This work studies the details mobility management schemes for small and medium scale femtocell network deployment. To do that, firstly we present two different network architectures for small scale and medium scale WCDMA femtocell deployment. The details handover call flow for these two network architectures and CAC scheme to minimize the unnecessary handovers are proposed for the integrated femtocell/macrocell networks. The numerical analysis for the proposed M/M/N/N queuing scheme and the simulation results of the proposed CAC scheme demonstrate the handover call control performances for femtocell environment.

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참고문헌

  1. S. Yeh and S. Talwar, "WiMAX Femtocells: A Perspective on Network Architecture, Capacity, and Coverage," IEEE Commun. Magazine, Oct. 2008.
  2. 3GPP TR R3.020, "Home (e) Node B: Network Aspects," Sept. 2008.
  3. V. Chandrasekhar and J. G. Andrews, "Femtocell Networks: A Survey," IEEE Commun. Magazine, Sept. 2008.
  4. 3GPP TS 23.009, "Handover Procedures," March 2009.
  5. 3GPP TS 23.060, "General Packet Radio Service (GPRS) Service description," Sept. 2009.
  6. 3GPP TR 25.931, "UTRAN Functions, Examples on Signalling Procedures," Dec. 2008.
  7. 3GPP TR 25.936, "Handovers for Real‐ Time Services from PS Domain," Dec. 2001.
  8. 3GPP TS 29.060, "GPRS Tunnelling Protocol (GTP) across the Gn and Gp Interface," Sept. 2007.
  9. 3GPP TS 43.129, "Packet‐switched Handover for GERAN A/Gb Mode," May 2007.
  10. 3GPP TS 43.318, "Generic Access Network (GAN)," Feb. 2008.
  11. R. Y. Kim, J. S. Kwak and K. Etemad, "WiMAX Femtocell: Requirements, Challenges, and Solutions," IEEE Commun. Magazine, Sept. 2009.
  12. I. Stojmenotic, Handbook of Wireless Networks and Mobile Computing, John Wiley & Sons, New York, 2002.
  13. G. de la Roche, A. Valcarce, D. L'opez-P'erez, and J. Zhang, "Access Control Mechanisms for Femtocells," IEEE Commun. Magazine, July 2009.
  14. Holger Claussen, Lester T. W. Ho, and Louis G. Samuel, "An Overview of the Femtocell Concept," Bell Labs Technical Journal, 2008.
  15. J. D. Hobby and H. Claussen, "Deployment Options for Femtocells and Their Impact on Existing Macrocellular Networks," Bell Labs Technical Journal, 2009.