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

The Korean Institute of Commucations and Information Sciences (한국통신학회)
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Grouping Resource Allocation Scheme for D2D Communications

D2D 통신을 위한 그룹핑 자원 할당 기법

  • Received : 2015.06.02
  • Accepted : 2015.08.07
  • Published : 2015.08.31
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Abstract

D2D(Device-to-Device) communication is a promising technology to improve the system capacity and spectral efficiency. By sharing the same radio resources with cellular user equipments, D2D communications can significantly enhance the overall spectral efficiency. However, it may cause interference between D2D link and cellular link. So, careful resource allocation and interference coordination between them are very important and need to be properly handled. This paper proposes a radio resource allocation scheme that decreases interference through the use of area grouping and D2D pair grouping. Simulations results are provided to verify the performance improvement of the proposed scheme in terms of the number of assigned resource blocks and computational complexity.

D2D 통신은 시스템의 용량 및 스펙트럼의 효율성을 향상시키는 유망한 기술이다. 전체 스펙트럼의 효율성을 향상시킬 수 있는 이유는 기지국이 이미 셀룰러 단말에 할당한 무선 자원을 D2D 통신에 할당하여 자원을 재사용할 수 있기 때문이다. 하지만 동일한 자원을 셀룰러 및 D2D 통신이 공유함으로써 셀 내에 간섭이 발생할 수 있다. 따라서 동일한 자원을 사용하는 셀룰러 통신과 D2D 통신 간에 간섭 조정을 위한 적절한 자원 할당 기법이 필요하다. 본 논문에서는 영역 그룹 및 D2D pair 그룹화를 통해 간섭을 최소화하는 그룹핑 자원 할당 기법을 제안한다. 제안 기법의 성능 분석 결과 자원 할당에 쓰인 셀룰러 자원의 수, 자원 할당을 위한 계산량 등의 성능이 향상됨을 확인하였다.

Keywords

References

  1. 3GPP TR 22.803, Feasibility study proximity services(Prose), V12.2.0, Jun. 2013.
  2. http://www.ieee802.org/15/pub/TG8.html
  3. S. Xu, H. Wang, T. Peng, and Q. Huang, "Effective labeled time slots based D2D transmission in cellular downlink spectrums," in Proc. IEEE VTC 2010-Spring, pp. 1-5, Taiwan, May 2010.
  4. C. Riberio, et al., "Interference-aware resource allocation for device-to-device radio underlaying cellular networks," in Proc. IEEE VTC, pp. 1-5, Apr. 2009.
  5. X. Lin, J. G. Andrews, A. Ghosh, and R. Ratasuk, "An overview of 3GPP deviceto-device proximity services," IEEE Commun. Mag., vol. 52, no. 4, pp. 40-48, Apr. 2014. https://doi.org/10.1109/MCOM.2014.6807945
  6. C. H. Yu, O. Tirkkonen, K. Doppler, and C. Ribeiro, "On the performance of deviceto-device underlay communication with simple power control," in Proc. IEEE VTC 2009-Spring, pp. 1-5, Barcelona, Spain, Apr. 2009.
  7. Ericsson, Resource allocation details for D2D communication, R2-142429, 3GPP TSG RAN WG2 Meeting #86, May 2014.
  8. H. Lee, H. Kim, and S. Kim, "Improvement of computational complexity of D2D(Deviceto-Device) resource allocation algorithm in LTE-Advanced networks," J. KICS, vol. 40, no. 4, pp. 762-768, May 2015. https://doi.org/10.7840/kics.2015.40.4.762
  9. H. Sun, M. Sheng, X. Wang, Y. Zhang, J. Liu, and K. Wang, "Resource allocation for maximizing the device-to-device communications underlaying LTE-advanced networks," IEEE/CIC Int. Conf. Commun. in China-Workshops (CIC/ICCC), pp. 60-64, Xi'an, China, Aug. 2013.
  10. T. Kim, S. Lee, S. Chhorn, C. Cho, and S. Ryu, "Resource allocation and power control scheme for interference avoidance in LTEAdvanced device-to-device communication," 2012 7th Int. Conf. Comput. and Convergence Technol. (ICCCT), pp. 1201-1204, Seoul, Korea, Dec. 2012.
  11. Z. Mohammad, H. Changcheng, and S. Anand, "Efficient resource allocation for device-to-device communication underlaying LTE network," in IEEE 6th Int. Conf. Wirel. Mob. Comput., Netw. Commun. (WiMob), pp. 368-375, Niagara Falls, Ontario, Oct. 2010.
  12. R. An, J. Sun, S. Zhao, and S. Shao, "Resource allocation scheme for device-todevice communication underlaying LTE downlink network," 2012 Int. Conf. Wirel. Commun. & Signal Process. (WCSP), pp. 1-5, Seoul, Korea, Oct. 2012.
  13. Y. Tao, J. Sun, and S. Shao, "Radio resource allocation based on greedy algorithm and successive interference cancellation in device-to-device(D2D) communication," IET Int. Conf. Inf. and Commun. Technol. (IETICT 2013), pp. 452-458, Beijing, China, Apr. 2013.
  14. J.-E. Kim and N.-M. Kim, "A device-todevice sharing-resource allocation scheme based on adaptive group-wise subset reuse in OFDMA cellular network," J. IEIE, vol. 47, no. 7, pp. 72-79, Jul. 2010.
  15. G.-M. Kang and O.-S. Shin, "Resource allocation scheme based on spectrum sensing for device-to-device communications underlaying cellular networks," J. KICS, vol. 38, no. 10, pp. 898-907, Oct. 2013.
  16. S.-M. Oh, C. Lee, M. Yun, J. Shin, and A.-S. Park, "Resource allocation scheme for D2D communications in multi-cell environments," J. KICS, vol. 39, no. 10, pp. 601-609, Oct. 2014.
  17. H.-N. Lee, H.-M. Kim, and S. Kim, "FFFR-based resource allocation mechanism for interference mitigation of D2D communications in LTE-advanced networks," J. KIPS, vol. 4, no. 1, pp. 5-10, Jan. 2015.
  18. S.-M. Oh, C. Lee, M. Yun, J. Shin, and A.-S. Park, "Resource allocation scheme for D2D communications in multi-cell environments," J. KICS, vol. 39, no. 10, pp. 601-609, Oct. 2014.
  19. J. Plehn, "The design of location areas in a GSM-Network," in Proc. IEEE 45th Veh. Tech. Conf., vol. 2, pp. 872-875, 1995.
  20. M. M. Macariom, D. M. Rodriguez, and C. Molina, "Optimal adaptive location area design and inactive location areas," in Proc. IEEE 47th Veh. Tech. Conf., vol. 1, pp. 510-514, 1997.
  21. I. Demirkol, C. Ersoy, M. U. Caglayan, and K. Delic, "Location area planning in cellular networks using simulated annealing," IEEE INFOCOM, vol. 1, pp. 13-20, Anchorage, AK, 2001.
  22. S. Z. Ali, "Design of location areas for cellular mobile radio networks," Veh. Tech. Conf.(VTC Spring 2002), vol. 3, pp. 1106-1110, 2002.
  23. Y. Bejerano, N. Immorlica, J. Naor, and M. Smith, "Efficient location area planning for personal communication system," Int. Conf. Mob. Comput. Netw.(MobiCom '03), pp. 109-121, 2003.
  24. F. T. Leighton, "A graph coloring algorithm for large scheduling problems," J. Research of the National Bureau of Standards, vol. 84, no. 6, Nov.-Dec. 1979.

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