Symbol-by-symbol adaptive null-space exploiting (SANE) channel truncation for fading OFDM channels

In multicarrier systems, cyclic prefix (CP) is introduced between two symbols to mitigate inter block interference (IBI). The CP length should be equal or more than channel impulse response (CIR) to ensure IBI free system. However, in the interest of spectral efficiency, if the CP is chosen to be le...

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Hauptverfasser:	Singh, I., Vinay, N. K., Giridhar, K.
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Sprache:	eng
Schlagworte:	Bit error rate channel truncation Complexity theory Delay LMMSE MIMO OFDM Receiving antennas Signal to noise ratio time domain equalizer
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creator	Singh, I. Vinay, N. K. Giridhar, K.
description	In multicarrier systems, cyclic prefix (CP) is introduced between two symbols to mitigate inter block interference (IBI). The CP length should be equal or more than channel impulse response (CIR) to ensure IBI free system. However, in the interest of spectral efficiency, if the CP is chosen to be less than the (worst case) CIR length, then a time domain channel shortening prefilter (CSP) can be used to truncate or shape the CIR. In [1], we proposed a null-space exploiting CSP (NE-CSP) which is has a lower complexity when compared to the linear minimum mean square error (LMMSE) [2]. In this paper, we propose a symbol-by-symbol adaptive null-space exploiting CSP (SANE-CSP) scheme based on the NE-CSP structure, which is computationally inexpensive. The order of complexity of SANE-CSP is O(n c 2 ), whereas the computational complexity order for NE-CSP [1] is O(n c 3 ) and that of the decoding-delay optimised LMMSE [2] is close to for O(n c 4 ). The SANE-CSP for n c = 100, has a block error rate performance 3 dB poorer than the decoding-delay optimised LMMSE, but with only 0.01% computational complexity.
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K. ; Giridhar, K.</creator><creatorcontrib>Singh, I. ; Vinay, N. K. ; Giridhar, K.</creatorcontrib><description>In multicarrier systems, cyclic prefix (CP) is introduced between two symbols to mitigate inter block interference (IBI). The CP length should be equal or more than channel impulse response (CIR) to ensure IBI free system. However, in the interest of spectral efficiency, if the CP is chosen to be less than the (worst case) CIR length, then a time domain channel shortening prefilter (CSP) can be used to truncate or shape the CIR. In [1], we proposed a null-space exploiting CSP (NE-CSP) which is has a lower complexity when compared to the linear minimum mean square error (LMMSE) [2]. In this paper, we propose a symbol-by-symbol adaptive null-space exploiting CSP (SANE-CSP) scheme based on the NE-CSP structure, which is computationally inexpensive. The order of complexity of SANE-CSP is O(n c 2 ), whereas the computational complexity order for NE-CSP [1] is O(n c 3 ) and that of the decoding-delay optimised LMMSE [2] is close to for O(n c 4 ). 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In this paper, we propose a symbol-by-symbol adaptive null-space exploiting CSP (SANE-CSP) scheme based on the NE-CSP structure, which is computationally inexpensive. The order of complexity of SANE-CSP is O(n c 2 ), whereas the computational complexity order for NE-CSP [1] is O(n c 3 ) and that of the decoding-delay optimised LMMSE [2] is close to for O(n c 4 ). 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K.</creatorcontrib><creatorcontrib>Giridhar, K.</creatorcontrib><collection>IEEE Electronic Library (IEL) Conference Proceedings</collection><collection>IEEE Proceedings Order Plan All Online (POP All Online) 1998-present by volume</collection><collection>IEEE Xplore All Conference Proceedings</collection><collection>IEEE Electronic Library (IEL)</collection><collection>IEEE Proceedings Order Plans (POP All) 1998-Present</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Singh, I.</au><au>Vinay, N. K.</au><au>Giridhar, K.</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Symbol-by-symbol adaptive null-space exploiting (SANE) channel truncation for fading OFDM channels</atitle><btitle>2011 The 14th International Symposium on Wireless Personal Multimedia Communications (WPMC)</btitle><stitle>WPMC</stitle><date>2011-10</date><risdate>2011</risdate><spage>1</spage><epage>5</epage><pages>1-5</pages><issn>1347-6890</issn><isbn>1457717867</isbn><isbn>9781457717864</isbn><eisbn>2908849259</eisbn><eisbn>9782908849264</eisbn><eisbn>2908849267</eisbn><eisbn>9782908849257</eisbn><abstract>In multicarrier systems, cyclic prefix (CP) is introduced between two symbols to mitigate inter block interference (IBI). The CP length should be equal or more than channel impulse response (CIR) to ensure IBI free system. However, in the interest of spectral efficiency, if the CP is chosen to be less than the (worst case) CIR length, then a time domain channel shortening prefilter (CSP) can be used to truncate or shape the CIR. In [1], we proposed a null-space exploiting CSP (NE-CSP) which is has a lower complexity when compared to the linear minimum mean square error (LMMSE) [2]. In this paper, we propose a symbol-by-symbol adaptive null-space exploiting CSP (SANE-CSP) scheme based on the NE-CSP structure, which is computationally inexpensive. The order of complexity of SANE-CSP is O(n c 2 ), whereas the computational complexity order for NE-CSP [1] is O(n c 3 ) and that of the decoding-delay optimised LMMSE [2] is close to for O(n c 4 ). The SANE-CSP for n c = 100, has a block error rate performance 3 dB poorer than the decoding-delay optimised LMMSE, but with only 0.01% computational complexity.</abstract><pub>IEEE</pub><tpages>5</tpages></addata></record>
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Bit error rate channel truncation Complexity theory Delay LMMSE MIMO OFDM Receiving antennas Signal to noise ratio time domain equalizer
title	Symbol-by-symbol adaptive null-space exploiting (SANE) channel truncation for fading OFDM channels
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