Araştırma Makalesi
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A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks

Yıl 2018, , 1124 - 1129, 01.08.2018
https://doi.org/10.16984/saufenbilder.373293

Öz

The heterogeneous network (HetNets) emerge as one of
the most auspicious improvements toward realizing the objective specifications
of Long Term Evolution-Advanced (LTE-A) networks. Though, similar all other
wireless networks, HetNet also yield from the interference problems, i.e., the
co-tier and cross-tier interferences. Regarding
proper functionality and efficiency of the HetNets, the avoidance and
management of the said interferences are very crucial. In this study, a power
control algorithm is suggested to decrease the interferences disadvantages in
the HetNets. To calculate the signal power,
the SINR (Signal to Interference and Noise Ratio) and RSRP (Reference Signal
Received Power) are used for downlink and uplink respectively. The selection decision is taken by signal strength
information. The UE (User Equipment) is
switched accordingly. A simulation is used to investigate and find out
the nearest cell to UE in a HetNet.

Kaynakça

  • Ericsson Mobility Report, link https://www.ericsson.com/en/5g
  • Cisco Visual Networking Index: Global Mobile Data Traffic Forecast Update, 2016–2021.
  • M. Yuan and X. Cheng, "Analysis of Cell Capacity in FDD-LTE Network," 2012 8th International Conference on Wireless Communications, Networking and Mobile Computing, Shanghai, China, 2012, pp. 1-4.
  • H. ElSawy, E. Hossain, and D. I. Kim, "HetNets with small cognitive cells: User offloading and Distributed channel allocation techniques," IEEE Commun. Magazine, vol. 51, no. 6, June 2013.
  • Y. W. Blankenship, "Achieving high capacity with small cells in LTE-A," 2012 50th Annual Allerton Conference on Communication, Control, and Computing, Monticello, IL, 2012, pp. 1680-1687.
  • 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2 (Release 13). 3GPP TS 36.300.
  • 3GPP TS 25.467. UTRAN architecture for 3G Home NodeB. Technical report, 3rd Generation Partnership Project, 2009.
  • V. Chandrasekhar and J. G. Andrews, "Spectrum allocation in two-tier networks," 2008 42nd Asilomar Conference on Signals, Systems and Computers, Pacific Grove, CA, 2008, pp. 1583-1587.
  • Y. Xu, H. Xia, Z. Zeng, T. Zhang, and Y. Liu, “Performance of macro-pico heterogeneous networks based on LTE-advanced,” 15th IEEE International Conference on Communication Technology pp. 298–303, IEEE, Guilin, China, November 2013.
  • S. Sun, M. Kadoch, and T. Ran, “Adaptive SON and cognitive smart LPN for 5G heterogeneous networks,” Mobile Networks and Applications, vol. 20, no. 6, pp. 745–755, 2015.
  • The LTE-A System Specification Documents. At 3GPP 36.14 "The LTE-A System Specifications.
  • D. Larsson, "Analysis of channel estimation methods for OFDMA," Master of Science Thesis, Stockholm, Sweden, 2006-12-19.
  • R. Y. Kim, J. S. Kwak and K. Etemad, "WiMAX femtocell: requirements, challenges, and solutions," IEEE Communications Magazine, vol. 47, no. 9, pp. 84-91, September 2009.
  • İ. Demirdöḡen, İ. Güvenç, H. Arslan, "Capacity of closed-access femtocell networks with dynamic spectrum reuse", Personal Indoor and Mobile Radio Communications (PIMRC) 2010 IEEE 21st International Symposium on, pp. 1315-1320, 2010.
  • C. Bouras and G. Diles, "Sleep mode performance gains in 5G femtocell clusters," 2016 8th International Congress on Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT), Lisbon, 2016, pp. 141-146.
  • D. López-Pérez, A. Valcarce, A. Ladányi, G. de la Roche, J. Zhang, “Intracell Handover for Interference and Handover Mitigation in OFDMA Two-Tier Macrocell-Femtocell Networks”, EURASIP Journal on Wireless Communications and Networking, 2010(1), p.142629.
  • G. Gur, S. Bayhan and F. Alagoz, "Cognitive femtocell networks: an overlay architecture for localized dynamic spectrum access [Dynamic Spectrum Management]," in IEEE Wireless Communications, vol. 17, no. 4, pp. 62-70, August 2010.
  • S. Rezvy, S. Rahman, A. Lasebae, J. Loo, "On demand-based frequency allocation to mitigate interference in Femto-Macro LTE cellular network", Future Generation Communication Technology (FGCT) 2013 Second International Conference on, pp. 213-218, 2013.
Yıl 2018, , 1124 - 1129, 01.08.2018
https://doi.org/10.16984/saufenbilder.373293

Öz

Kaynakça

  • Ericsson Mobility Report, link https://www.ericsson.com/en/5g
  • Cisco Visual Networking Index: Global Mobile Data Traffic Forecast Update, 2016–2021.
  • M. Yuan and X. Cheng, "Analysis of Cell Capacity in FDD-LTE Network," 2012 8th International Conference on Wireless Communications, Networking and Mobile Computing, Shanghai, China, 2012, pp. 1-4.
  • H. ElSawy, E. Hossain, and D. I. Kim, "HetNets with small cognitive cells: User offloading and Distributed channel allocation techniques," IEEE Commun. Magazine, vol. 51, no. 6, June 2013.
  • Y. W. Blankenship, "Achieving high capacity with small cells in LTE-A," 2012 50th Annual Allerton Conference on Communication, Control, and Computing, Monticello, IL, 2012, pp. 1680-1687.
  • 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA) and Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2 (Release 13). 3GPP TS 36.300.
  • 3GPP TS 25.467. UTRAN architecture for 3G Home NodeB. Technical report, 3rd Generation Partnership Project, 2009.
  • V. Chandrasekhar and J. G. Andrews, "Spectrum allocation in two-tier networks," 2008 42nd Asilomar Conference on Signals, Systems and Computers, Pacific Grove, CA, 2008, pp. 1583-1587.
  • Y. Xu, H. Xia, Z. Zeng, T. Zhang, and Y. Liu, “Performance of macro-pico heterogeneous networks based on LTE-advanced,” 15th IEEE International Conference on Communication Technology pp. 298–303, IEEE, Guilin, China, November 2013.
  • S. Sun, M. Kadoch, and T. Ran, “Adaptive SON and cognitive smart LPN for 5G heterogeneous networks,” Mobile Networks and Applications, vol. 20, no. 6, pp. 745–755, 2015.
  • The LTE-A System Specification Documents. At 3GPP 36.14 "The LTE-A System Specifications.
  • D. Larsson, "Analysis of channel estimation methods for OFDMA," Master of Science Thesis, Stockholm, Sweden, 2006-12-19.
  • R. Y. Kim, J. S. Kwak and K. Etemad, "WiMAX femtocell: requirements, challenges, and solutions," IEEE Communications Magazine, vol. 47, no. 9, pp. 84-91, September 2009.
  • İ. Demirdöḡen, İ. Güvenç, H. Arslan, "Capacity of closed-access femtocell networks with dynamic spectrum reuse", Personal Indoor and Mobile Radio Communications (PIMRC) 2010 IEEE 21st International Symposium on, pp. 1315-1320, 2010.
  • C. Bouras and G. Diles, "Sleep mode performance gains in 5G femtocell clusters," 2016 8th International Congress on Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT), Lisbon, 2016, pp. 141-146.
  • D. López-Pérez, A. Valcarce, A. Ladányi, G. de la Roche, J. Zhang, “Intracell Handover for Interference and Handover Mitigation in OFDMA Two-Tier Macrocell-Femtocell Networks”, EURASIP Journal on Wireless Communications and Networking, 2010(1), p.142629.
  • G. Gur, S. Bayhan and F. Alagoz, "Cognitive femtocell networks: an overlay architecture for localized dynamic spectrum access [Dynamic Spectrum Management]," in IEEE Wireless Communications, vol. 17, no. 4, pp. 62-70, August 2010.
  • S. Rezvy, S. Rahman, A. Lasebae, J. Loo, "On demand-based frequency allocation to mitigate interference in Femto-Macro LTE cellular network", Future Generation Communication Technology (FGCT) 2013 Second International Conference on, pp. 213-218, 2013.
Toplam 18 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Bilgisayar Yazılımı
Bölüm Araştırma Makalesi
Yazarlar

Sajjad Ahmad Khan 0000-0002-0787-1357

Muhammad Asshad Bu kişi benim 0000-0003-4998-5579

Kerem Küçük 0000-0002-2621-634X

Adnan Kavak 0000-0001-5694-8042

Yayımlanma Tarihi 1 Ağustos 2018
Gönderilme Tarihi 31 Aralık 2017
Kabul Tarihi 21 Şubat 2018
Yayımlandığı Sayı Yıl 2018

Kaynak Göster

APA Khan, S. A., Asshad, M., Küçük, K., Kavak, A. (2018). A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks. Sakarya University Journal of Science, 22(4), 1124-1129. https://doi.org/10.16984/saufenbilder.373293
AMA Khan SA, Asshad M, Küçük K, Kavak A. A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks. SAUJS. Ağustos 2018;22(4):1124-1129. doi:10.16984/saufenbilder.373293
Chicago Khan, Sajjad Ahmad, Muhammad Asshad, Kerem Küçük, ve Adnan Kavak. “A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks”. Sakarya University Journal of Science 22, sy. 4 (Ağustos 2018): 1124-29. https://doi.org/10.16984/saufenbilder.373293.
EndNote Khan SA, Asshad M, Küçük K, Kavak A (01 Ağustos 2018) A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks. Sakarya University Journal of Science 22 4 1124–1129.
IEEE S. A. Khan, M. Asshad, K. Küçük, ve A. Kavak, “A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks”, SAUJS, c. 22, sy. 4, ss. 1124–1129, 2018, doi: 10.16984/saufenbilder.373293.
ISNAD Khan, Sajjad Ahmad vd. “A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks”. Sakarya University Journal of Science 22/4 (Ağustos 2018), 1124-1129. https://doi.org/10.16984/saufenbilder.373293.
JAMA Khan SA, Asshad M, Küçük K, Kavak A. A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks. SAUJS. 2018;22:1124–1129.
MLA Khan, Sajjad Ahmad vd. “A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks”. Sakarya University Journal of Science, c. 22, sy. 4, 2018, ss. 1124-9, doi:10.16984/saufenbilder.373293.
Vancouver Khan SA, Asshad M, Küçük K, Kavak A. A Power Control Algorithm (PCA) and Software Tool for Femtocells in LTE-A Networks. SAUJS. 2018;22(4):1124-9.

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