Chandresh D. Parekha; Jayesh M. Patel

OFDM Synchronization Techniques for 802.11ac WLAN

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Author(s)

Chandresh D. Parekha ¹ Jayesh M. Patel ²

1. Gujarat Technological University, Ahmedabad, Gujarat, India

2. Ganpat University, Kherva, Mehsana, Gujarat, India

* Corresponding author.

DOI: https://doi.org/10.5815/ijwmt.2018.04.01

Received: 30 Nov. 2017 / Revised: 9 Jan. 2018 / Accepted: 13 Feb. 2018 / Published: 8 Jul. 2018

Index Terms

Synchronization, OFDM, ISI, ICI, WLAN, CFO

Abstract

It would be dire need of accurate and fast wireless communication in the present as well as future era. Few years ago, error free wireless link design was only challenge and it had opened a way of digital communication. Now speed of communication becomes vital and essential part of research in the field of wireless communication. In wired communication category, optical communication is a solution to achieve targeted data speed but wireless channel for serial communication is highly disturbed with the phenomena of multipath and frequency selective fading for a data rate over a specific limit. A new technology named Orthogonal Frequency Division Multiplexing (OFDM) is a perfect key to open this locking situation of limited data rate with optimum use of bandwidth in the multipath fading channel. Supporting high data rates and robust response against narrowband interferences, OFDM had penetrated itself in many broadband wireless services. There are many issues with OFDM too and one of them is synchronization between orthogonal frequency channels at receiver. It is mandatory condition in the use of OFDM technology to maintain orthogonality among subcarriers for error free communication. Timing and frequency synchronization errors are quite detrimental to this condition because these errors ultimately disturb the orthogonality which is perfectly set at transmitter. Synchronization errors need to be handled properly otherwise they create Inter-Symbol Interference (ISI) and Inter-Channel Interference (ICI) which after all resulted into the deterioration of Bit Error Rate (BER). This paper covers types of synchronization and its effects, algorithms to decrease it and analysis of the same.

Cite This Paper

Chandresh D. Parekha, Jayesh M. Patel, " OFDM Synchronization Techniques for 802.11ac WLAN", International Journal of Wireless and Microwave Technologies(IJWMT), Vol.8, No.4, pp. 1-13, 2018. DOI: 10.5815/ijwmt.2018.04.01

Reference

[1]ETSI EN 300 744, “Digital video broadcasting (DVB): frame structure, channel coding and modulation for digital terrestrial television (DVB-T),” Tech. Rep., ETSI, 2004

[2]“IEEE draft standard for IT - telecommunications and information exchange between systems - LAN/MAN - specific requirements - part 11: Wireless LAN medium access control and physical layer specifications - amd 4: Enhancements for very high throughput for operation in bands below 6GHz,” IEEE P802.11ac™/D3.0, pp. 1–385, June 2012.

[3]“IEEE standard for local and metropolitan area networks part 16: air interface for fixed broadband wireless access systems,” IEEE 802.16, 2004.

[4]A. B. Ericsson, “Long term evolution (LTE): an introduction,” White paper, October 2007.

[5]Chandresh D. Parekha, Jayesh M. Patel, “Overview on Synchronization in OFDM Systems” in IEEE International Conference on Advances in Computing, Communication and Automation ICACCA-2016, (Spring) ISBN 978-1-5090-0673-1, April, 2016.

[6]Zhou, Hao, Amaresh V. Malipatil, and Yih-Fang Huang. "Synchronization issues in OFDM Systems." Circuits and Systems, 2006. APCCAS 2006. IEEE Asia Pacific Conference on. IEEE, 2006.

[7]K.Wang, M.Faulkner, J. Singh and I.Tolochko, “Timing synchronization for 802.11a WLANs under multipath channels,” in ATNAC, Melbourne, Dec 2003 http://atnac2003.atcrc.com/FinalProgram.html.

[8]S Nandula, K Giridhar, “Robust timing synchronization for OFDM based wireless LAN System,” Proc. IEEE International Conference on Convergent Technologies for Asia-Pacific Region, TENCON 2003, vol 4C, pp. 1558-1561, Bangalore, India, 2003.

[9]J. J. van de Beek, M. Sandell, and P. O. Borjesson, “ML estimation of timing and frequency offset in OFDM systems,” in IEEE Trans. Signal Processing, vol. 45, no. 6, pp. 1800 - 1805, July. 1997.

[10]M. Speth, F. Classen, and H. Meyr, “Frame synchronization of OFDM systems in frequency selective fading channels,” in Proc. VTC, pp. 1807-1811, 1997.

[11]M. Speth, S. Fechtel, G. Fock, and H. Meyr, “Optimum Receiver Design for OFDM-Based Broadband Transmission - Part II: A Case Study,” in IEEE Trans. on Comm., vol. 49, no. 4, pp. 571 - 578, April. 2001.

[12]Dong Wang; Jinyun Zhang, "Timing Synchronization for MIMO-OFDM WLAN Systems," in Wireless Communications and Networking Conference, 2007.WCNC 2007. IEEE , vol., no., pp.1177-1182, 11-15 March 2007 doi: 10.1109/WCNC.2007.223

[13]Narae Kim, Suhyun Kim, Yunho Jung, and Seongjoo Lee, “A low power antenna selective synchronization method for IEEE 802.11ac WLAN Systems,” in Journal of Electromagnetic Waves and Applications, 12 May, 2015 http://dx.doi.org/10.1080/09205071.2015.1035865

[14]Ma, X.; Kobayashi, H.; Schwartz, S.C, “Effect of frequency offset on BER of OFDM and single carrier systems,” in IEEE International Conference on Communications, vol. 3, pp. 22-27, June 1996.

[15]J. González-Bayón, C. Carreras and O. Edfors, "A Multistandard Frequency Offset Synchronization Scheme for 802.11n, 802.16d, LTE, and DVB-T/H Systems", Journal of Computer Systems, Networks, and Communications, vol. 2010, pp. 1-9, 2010.

[16]Al-Ghazu, Nader. A Study of the Next WLAN Standard IEEE 802.11 ac Physical Layer. Stockholm: Sweden, 2013.

[17]Lui, Cheuk Kwan. method of synchronization using IEEE 802.11 a OFDM training structure for indoor wireless applications. Diss. School of Engineering Science-Simon Fraser University, 2004.

International Journal of Wireless and Microwave Technologies (IJWMT)