Por favor, use este identificador para citar o enlazar este ítem: http://repositorio.ufc.br/handle/riufc/60023
Tipo: Artigo de Evento
Título : Rank-One Tensor Modeling Approach to Joint Channel and Symbol Estimation in Two-Hop MIMO Relaying Systems
Autor : Sokal, Bruno
Almeida, André Lima Férrer de
Haardt, Martin Haardt
Palabras clave : MIMO systems;Cooperative communications;Tensor decompositions;Semi-blind receiver
Fecha de publicación : 2017
Editorial : https://www.sbrt.org.br/sbrt2017
Citación : SOKAL, Bruno; ALMEIDA, André Lima Férrer de; HAARDT, Martin. Rank-one tensor modeling approach to joint channel and symbol estimation in two-hop MIMO relaying systems. In: SIMPÓSIO BRASILEIRO DE TELECOMUNICAÇÕES E PROCESSAMENTO DE SINAIS – SbrT, XXXV., 3 a 6 set. 2017. São Pedro-SP. Anais[…], São Pedro-SP, 2017.p.37-41.
Resumen en portugués brasileño: This paper proposes two semi-blind receives for joint channel and symbol estimation in MIMO relay-based communication systems. These receivers are developed for a two-hop system, assuming a tensor coding at the source and relay nodes. The central idea of the proposed approach is on the rank-one tensor modeling of the received signal, which allows the use of efficient estimation algorithms. The first receiver utilizes an iterative solution based on the alternating least squares (ALS) algorithm, while the second provides closed-form estimations of the channel and symbol matrices from a truncated higher order singular value decomposition (T-HOSVD). The proposed approach has a lower complexity compared to the receiver developed in a previous work, while providing remarkable performance.
Abstract: This paper proposes two semi-blind receives for joint channel and symbol estimation in MIMO relay-based communication systems. These receivers are developed for a two-hop system, assuming a tensor coding at the source and relay nodes. The central idea of the proposed approach is on the rank-one tensor modeling of the received signal, which allows the use of efficient estimation algorithms. The first receiver utilizes an iterative solution based on the alternating least squares (ALS) algorithm, while the second provides closed-form estimations of the channel and symbol matrices from a truncated higher order singular value decomposition (T-HOSVD). The proposed approach has a lower complexity compared to the receiver developed in a previous work, while providing remarkable performance.
URI : http://www.repositorio.ufc.br/handle/riufc/60023
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