Composite vector quantization for optimizing antenna locations

Jäntti, Riku; UYKAN, Zekeriya

doi:10.3906/elk-1512-245

Composite vector quantization for optimizing antenna locations

Zekeriya UYKAN, (Doğuş Üniversitesi, Mühendislik Fakültesi, Otomasyon ve Kontrol Mühendisliği Bölümü, İstanbul, Türkiye)

Riku JANTTI (Department of Communications and Networking, School of Electrical Engineering, Aalto University, Espoo, Finland)

Turkish Journal of Electrical Engineering and Computer Sciences

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Yıl: 2018 Cilt: 26 Sayı: 3 Sayfa Aralığı: 1225 - 1235 Metin Dili: İngilizce DOI: 10.3906/elk-1512-245 İndeks Tarihi: 22-10-2018

Composite vector quantization for optimizing antenna locations

Öz:

In this paper, we study the location optimization problem of remote antenna units (RAUs) in generalized distributed antenna systems (GDASs). We propose a composite vector quantization (CVQ) algorithm that consists of unsupervised and supervised terms for RAU location optimization. We show that the CVQ can be used i) to minimize an upper bound to the cell-averaged SNR error for a desired/demanded location-specific SNR function, and ii) to maximize the cell-averaged effective SNR. The CVQ-DAS includes the standard VQ, and thus the well-known squared distance criterion (SDC) as a special case. Computer simulations confirm the findings and suggest that the proposed CVQ-DAS outperforms the SDC in terms of cell-averaged “effective SNR”.

Anahtar Kelime:

Konular: Mühendislik, Elektrik ve Elektronik Bilgisayar Bilimleri, Yazılım Mühendisliği Bilgisayar Bilimleri, Sibernitik Bilgisayar Bilimleri, Bilgi Sistemleri Bilgisayar Bilimleri, Donanım ve Mimari Bilgisayar Bilimleri, Teori ve Metotlar Bilgisayar Bilimleri, Yapay Zeka

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

Uykan Z. Clustering-based algorithms for single-hidden layer sigmoid perceptron. IEEE T Neur Net Lear 2003; 14: 708-715.
Uykan Z, Güzelis C, Celebi E, Koivo HN. Analysis of input-output clustering for determining centers of RBFNs. IEEE T Neur Net Lear 2000; 11: 851-858.
Heath RW, Kountouris M, Bai T. Modeling heterogeneous network interference with using poisson point processes. IEEE T Signal Proces 2013; 61: 4114-4126.
Viterbi AJ. CDMA: Principles of Spread Spectrum Communication. Reading, MA, USA: Addison-Wesley, 1995.
[19] Hagan MT, Demuth HB, Beale MH. Neural Network Design. Boston, MA, USA: PWS Publishing Compan, 1995.
Lo TKY. Maximum ratio transmission. IEEE T Commun 1999; 47: 1458-1461.
Huang K, Chen J, Lau VKN. Communication using a large-scale array of ubiquitous antennas: a geometry approach. IEEE T Signal Proces 2016; 64: 3635-3650.
Yang A, Jing Y, Xing C, Fei Z, Kuang J. Performance analysis and location optimization for massive MIMO systems with circularly distributed antennas. IEEE T Wirel Commun 2015; 14: 5659-5671.
Thaikerd T, Santipac W. On optimizing transmit antenna placement for downlink distributed antenna systems with zero forcing beamforming, In: International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology. 24–27 Jun 2015; Thailand. pp. 1-5.
Lee C, Park E, Lee I. Antenna placement designs for distributed antenna systems with multiple-antenna ports. In: IEEE Vehicular Technology Conference; 3–6 Sep 2012; Quebec City, Canada. pp. 1-5.
Zhao J, Feng W, Zhou C, Zhao M, Wang J. Antenna location design for distributed-antenna based secondary systems. In: International Conference on Wireless Communications Networking and Mobile Computing; 21–23 Sep 2012; Shanghai, China. pp. 1-4.
Qian Y, Chen M, Wang X, Zhu P. Antenna location design for distributed antenna systems with selective transmission. In: International Conference on Wireless Communications and Signal Processing; 13–15 Nov 2009; Nanjing, China. pp. 3893-3897.
Makhoul J, Roucos S, Gish H. Vector quantization in speech coding. Proceedings of the IEEE 1985; 73: 1551-1587.
Roh W, Paulraj A. Outage performance of the distributed antenna systems in a composite fading channel. In: IEEE 56th Vehicular Technology Conference-Fall; 24–28 Sep 2002; Vancouver, Canada. pp. 1520-1524.
Gan J, Li Y, Zhou S, Wang J. On sum rate of multi-user distributed antenna system with circular antenna layout. In: IEEE 66th Vehicular Technology Conference; 30 Sep–3 Oct 2007; Baltimore, MD, USA. pp. 596-600.
Shen Y, Tang Y, Kong T, Shao S. Optimal antenna location for STBC-OFDM downlink with distributed transmit antennas in linear cells. IEEE Commun Lett 2007; 11: 387-389.
Park E, Lee SR, Lee I. Antenna placement optimization for distributed antenna systems. IEEE T Wirel Commun 2012; 11: 2468-2477.
Wang X, Zhu P, Chen M. Antenna location design for generalized distributed antenna systems. IEEE Commun Lett 2009; 13: 315-317.
Park E, Lee I. Antenna placement for downlink distributed antenna systems with selection transmission. In: IEEE 73rd Vehicular Technology Conference Spring; 15–18 May 2011, Budapest, Hungary. pp. 1-5.
Firouzabadi S, Goldsmith A. Optimal placement of distributed antennas in cellular systems. In: IEEE 12th International Workshop on Signal Proc Advances in Wireless Communications; 26–29 June, 2011; San Francisco, CA, USA. pp. 461-465.
Lee SR, Moon SH, Kim JS, Lee I. Capacity analysis of distributed antenna systems in a composite fading channel.IEEE T Wirel Commun 2012; 11: 1076-1086.
Clark MV, Willis TM, Greenstein LJ, Rustako AJ, Erceg V, Roman S. Distributed versus centralized antenna arrays in broadband wireless Networks. In: IEEE Vehicular Technology Conference Spring; 2001; Rhodes Island, Greece. pp. 33-37.
Zhuang H, Dai L, Xiao L, Yao Y. Spectral efficiency of distributed antenna system with random antenna layout. Electron Lett 2003; 39: 495-496.

APA	UYKAN Z, Jäntti R (2018). Composite vector quantization for optimizing antenna locations. , 1225 - 1235. 10.3906/elk-1512-245
Chicago	UYKAN Zekeriya,Jäntti Riku Composite vector quantization for optimizing antenna locations. (2018): 1225 - 1235. 10.3906/elk-1512-245
MLA	UYKAN Zekeriya,Jäntti Riku Composite vector quantization for optimizing antenna locations. , 2018, ss.1225 - 1235. 10.3906/elk-1512-245
AMA	UYKAN Z,Jäntti R Composite vector quantization for optimizing antenna locations. . 2018; 1225 - 1235. 10.3906/elk-1512-245
Vancouver	UYKAN Z,Jäntti R Composite vector quantization for optimizing antenna locations. . 2018; 1225 - 1235. 10.3906/elk-1512-245
IEEE	UYKAN Z,Jäntti R "Composite vector quantization for optimizing antenna locations." , ss.1225 - 1235, 2018. 10.3906/elk-1512-245
ISNAD	UYKAN, Zekeriya - Jäntti, Riku. "Composite vector quantization for optimizing antenna locations". (2018), 1225-1235. https://doi.org/10.3906/elk-1512-245

APA	UYKAN Z, Jäntti R (2018). Composite vector quantization for optimizing antenna locations. Turkish Journal of Electrical Engineering and Computer Sciences, 26(3), 1225 - 1235. 10.3906/elk-1512-245
Chicago	UYKAN Zekeriya,Jäntti Riku Composite vector quantization for optimizing antenna locations. Turkish Journal of Electrical Engineering and Computer Sciences 26, no.3 (2018): 1225 - 1235. 10.3906/elk-1512-245
MLA	UYKAN Zekeriya,Jäntti Riku Composite vector quantization for optimizing antenna locations. Turkish Journal of Electrical Engineering and Computer Sciences, vol.26, no.3, 2018, ss.1225 - 1235. 10.3906/elk-1512-245
AMA	UYKAN Z,Jäntti R Composite vector quantization for optimizing antenna locations. Turkish Journal of Electrical Engineering and Computer Sciences. 2018; 26(3): 1225 - 1235. 10.3906/elk-1512-245
Vancouver	UYKAN Z,Jäntti R Composite vector quantization for optimizing antenna locations. Turkish Journal of Electrical Engineering and Computer Sciences. 2018; 26(3): 1225 - 1235. 10.3906/elk-1512-245
IEEE	UYKAN Z,Jäntti R "Composite vector quantization for optimizing antenna locations." Turkish Journal of Electrical Engineering and Computer Sciences, 26, ss.1225 - 1235, 2018. 10.3906/elk-1512-245
ISNAD	UYKAN, Zekeriya - Jäntti, Riku. "Composite vector quantization for optimizing antenna locations". Turkish Journal of Electrical Engineering and Computer Sciences 26/3 (2018), 1225-1235. https://doi.org/10.3906/elk-1512-245