Per-Tone Precoding and Per-Tone Equalization for OFDM and DMT Transmission Systems: Duality, Filter Optimization, and Resource Allocation
OFDM and DMT transmission systems add a cyclic prefix (CP) or zero pad (ZP) to the transmitted signal. Interference-free transmission requires this CP/ZP to be similarly long as the channel impulse response (CIR), reducing the achievable data rate in highly dispersive channels. A first strategy for...
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| Veröffentlicht in: | IEEE open journal of signal processing 2020, Vol.1, p.257-273 |
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| creator | Verdyck, Jeroen Lefevre, Yannick Tsiaflakis, Paschalis Moonen, Marc |
| description | OFDM and DMT transmission systems add a cyclic prefix (CP) or zero pad (ZP) to the transmitted signal. Interference-free transmission requires this CP/ZP to be similarly long as the channel impulse response (CIR), reducing the achievable data rate in highly dispersive channels. A first strategy for dealing with long CIRs without increasing the CP/ZP overhead consists of applying a channel shortening filter to the received signal. A second strategy consists of spectral resource allocation, i.e. bit and power allocation to reduce interference. As little effort has been made towards joint channel shortening and resource allocation, a new algorithm to simultaneously optimize the channel shortening per-tone equalization (PTEQ) filters and the resource allocation is presented. In addition, transmitter-side channel shortening filters are considered, more specifically so-called per-tone precoding (PTPC) filters which apply the channel shortening filter before the IDFT modulation of the ODFM/DMT transmitter. At first glance, the FIR filter optimization for PTPC seems much more involved than the relatively straightforward FIR filter optimization for PTEQ. However, it will be demonstrated that any OFDM/DMT system with PTPC is - after time-reversing the CIR - equivalent to an OFDM/DMT system employing PTEQ. With this result in hand, systems with PTPC can take full advantage of the straightforward FIR filter optimization in systems with PTEQ, as well as of the aforementioned resource allocation algorithm. Simulation results show that the performance obtained for systems with PTPC is nearly indistinguishable from that obtained for systems with PTEQ, making PTPC an interesting alternative channel shortening strategy. |
| doi_str_mv | 10.1109/OJSP.2020.3035060 |
| format | Article |
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Interference-free transmission requires this CP/ZP to be similarly long as the channel impulse response (CIR), reducing the achievable data rate in highly dispersive channels. A first strategy for dealing with long CIRs without increasing the CP/ZP overhead consists of applying a channel shortening filter to the received signal. A second strategy consists of spectral resource allocation, i.e. bit and power allocation to reduce interference. As little effort has been made towards joint channel shortening and resource allocation, a new algorithm to simultaneously optimize the channel shortening per-tone equalization (PTEQ) filters and the resource allocation is presented. In addition, transmitter-side channel shortening filters are considered, more specifically so-called per-tone precoding (PTPC) filters which apply the channel shortening filter before the IDFT modulation of the ODFM/DMT transmitter. At first glance, the FIR filter optimization for PTPC seems much more involved than the relatively straightforward FIR filter optimization for PTEQ. However, it will be demonstrated that any OFDM/DMT system with PTPC is - after time-reversing the CIR - equivalent to an OFDM/DMT system employing PTEQ. With this result in hand, systems with PTPC can take full advantage of the straightforward FIR filter optimization in systems with PTEQ, as well as of the aforementioned resource allocation algorithm. Simulation results show that the performance obtained for systems with PTPC is nearly indistinguishable from that obtained for systems with PTEQ, making PTPC an interesting alternative channel shortening strategy.</description><identifier>ISSN: 2644-1322</identifier><identifier>EISSN: 2644-1322</identifier><identifier>DOI: 10.1109/OJSP.2020.3035060</identifier><identifier>CODEN: IOJSAF</identifier><language>eng</language><publisher>New York: IEEE</publisher><subject>Algorithms ; Channel shortening ; DMT ; DSL ; Equalization ; Filtering algorithms ; Finite impulse response filters ; FIR filters ; Impulse response ; Interference ; OFDM ; Optimization ; Precoding ; Resource allocation ; Resource management ; Signal processing algorithms</subject><ispartof>IEEE open journal of signal processing, 2020, Vol.1, p.257-273</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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Interference-free transmission requires this CP/ZP to be similarly long as the channel impulse response (CIR), reducing the achievable data rate in highly dispersive channels. A first strategy for dealing with long CIRs without increasing the CP/ZP overhead consists of applying a channel shortening filter to the received signal. A second strategy consists of spectral resource allocation, i.e. bit and power allocation to reduce interference. As little effort has been made towards joint channel shortening and resource allocation, a new algorithm to simultaneously optimize the channel shortening per-tone equalization (PTEQ) filters and the resource allocation is presented. In addition, transmitter-side channel shortening filters are considered, more specifically so-called per-tone precoding (PTPC) filters which apply the channel shortening filter before the IDFT modulation of the ODFM/DMT transmitter. At first glance, the FIR filter optimization for PTPC seems much more involved than the relatively straightforward FIR filter optimization for PTEQ. However, it will be demonstrated that any OFDM/DMT system with PTPC is - after time-reversing the CIR - equivalent to an OFDM/DMT system employing PTEQ. With this result in hand, systems with PTPC can take full advantage of the straightforward FIR filter optimization in systems with PTEQ, as well as of the aforementioned resource allocation algorithm. Simulation results show that the performance obtained for systems with PTPC is nearly indistinguishable from that obtained for systems with PTEQ, making PTPC an interesting alternative channel shortening strategy.</description><subject>Algorithms</subject><subject>Channel shortening</subject><subject>DMT</subject><subject>DSL</subject><subject>Equalization</subject><subject>Filtering algorithms</subject><subject>Finite impulse response filters</subject><subject>FIR filters</subject><subject>Impulse response</subject><subject>Interference</subject><subject>OFDM</subject><subject>Optimization</subject><subject>Precoding</subject><subject>Resource allocation</subject><subject>Resource management</subject><subject>Signal processing algorithms</subject><issn>2644-1322</issn><issn>2644-1322</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><sourceid>ESBDL</sourceid><sourceid>RIE</sourceid><sourceid>DOA</sourceid><recordid>eNpNkUtP4zAUhaMRSIMYfsBoNpZmSzrXj7zYIUp5CNQKOmvLdq6RqzQudroo_4B_TZJWFStb555z_PiS5DeFCaVQ_Zs_vi4mDBhMOPAMcviRnLFciJRyxk6-7X8mFzGuAIBllPbCWfK5wJAufYtkEdD42rVvRLU1Ocq371vVuA_VOd8S6wOZz6bPo2X6vCTLoNq4djEO09dd7HAdr8h0iHS7SzJzTYd9ZNO59aHjcsy-YPTbYJBcN4034-BXcmpVE_HisJ4n_2e3y5v79Gl-93Bz_ZQaAaxLs7oALTJbgDVQ1lpxXttC54USoqywyC1DntdYZSXDMhMKa1tZhUwDMsUtP08e9r21Vyu5CW6twk565eQo-PAmVeicaVCCZibvP0sJbYRQTKOuNOfGmgJKLXjf9XfftQn-fYuxk6v-WW1_fckyzno45eiie5cJPsaA9ngqBTkAlANAOQCUB4B95s8-4xDx6K-YyDNa8C-9RJeo</recordid><startdate>2020</startdate><enddate>2020</enddate><creator>Verdyck, Jeroen</creator><creator>Lefevre, Yannick</creator><creator>Tsiaflakis, Paschalis</creator><creator>Moonen, Marc</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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At first glance, the FIR filter optimization for PTPC seems much more involved than the relatively straightforward FIR filter optimization for PTEQ. However, it will be demonstrated that any OFDM/DMT system with PTPC is - after time-reversing the CIR - equivalent to an OFDM/DMT system employing PTEQ. With this result in hand, systems with PTPC can take full advantage of the straightforward FIR filter optimization in systems with PTEQ, as well as of the aforementioned resource allocation algorithm. 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| subjects | Algorithms Channel shortening DMT DSL Equalization Filtering algorithms Finite impulse response filters FIR filters Impulse response Interference OFDM Optimization Precoding Resource allocation Resource management Signal processing algorithms |
| title | Per-Tone Precoding and Per-Tone Equalization for OFDM and DMT Transmission Systems: Duality, Filter Optimization, and Resource Allocation |
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