Minh-Tuan Le scite author profile

International audienceThis paper proposes a multiple-input multiple-output (MIMO) transmission scheme for M-ary modulations, called Spatially Modulated Orthogonal Space-Time Block Coding (SM-OSTBC), based on the concept of Spatial Constellation (SC) codewords introduced by Le at el. . In the proposed scheme, transmit codeword matrices are generated by multiplying SC matrices with codewords constructed from Orthogonal Space-time Block Codes (O-STBC). The maximum spectral efficiency of the proposed scheme is equal to (n_T-2+ log_2 M) bpcu, where n_T is the number of transmit antennas and M is the modulation order. The SC matrices provide a means of carrying information bits together with the O-STBC codewords and allow the SM-OSTBC scheme to achieve second-order transmit diversity by satisfying the non-vanishing determinant property. A systematic method to design the SC codewords for an even number of transmit antennas greater than 3 is presented. A single-stream maximum-likelihood (ML) decoder, which requires a low computational complexity thanks to the structure of the SM-OSTBC codewords and to the orthogonality of the O-STBCs, and a sphere decoder with further reduced signal processing complexity are developed. The bit error rate (BER) performance of the proposed scheme is studied by using both theoretical union bound analysis and computer simulations. Finally, simulation results are presented in order to compare BER performance, energy efficiency and decoding complexity of the proposed scheme with those of several existing MIMO transmission schemes

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Synergy Effects of the Mixture of Bismuth Molybdate Catalysts with SnO₂/ZrO₂/MgO in Selective Propene Oxidation and the Connection between Conductivity and Catalytic Activity

Hung

Truong

et al. 2016

Ind. Eng. Chem. Res.

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Bismuth molybdate catalysts have been used for partial oxidation and ammoxidation of light hydrocarbons since the 1950s. In particular, there is the synergy effect (the enhancement of the catalytic activity in the catalysts mixed from different components) in different phases of bismuth molybdate catalysts which has been observed and studied since the 1980s; however, despite it being interpreted differently by different research groups, there is still no decisive conclusion on the origin of the synergy effect that has been obtained. The starting idea of this work is to find an answer for the question: does the electrical conductivity influence the catalytic activity (which has been previously proposed by some authors). In this work, highly conductive materials (SnO 2 , ZrO 2 ) and nonconductive materials (MgO) are added to beta bismuth molybdates (β-Bi 2 Mo 2 O 9 ) using mechanical mixing, impregnation, and sol−gel methods. The mixtures were characterized by XRD, BET, XPS, and EDX techniques to determine the phase composition and surface properties. The conductivities of these samples were recorded at the catalytic reaction temperature (300−450 °C). Comparison of the catalytic activities of these mixtures showed that the addition of 10% mol SnO 2 to beta bismuth molybdate resulted in the highest activity while the addition of nonconductive MgO could not increase the catalytic activity. This shows that there may be a connection between conductivity and catalytic activity in the mixtures of bismuth molybdate catalysts and other metal oxides.

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Influence of organic species on surface area of bismuth molybdate catalysts in complexation and spray drying methods

Well

Driessche

et al. 2004

Applied Catalysis A: General

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Minh-Tuan Le

Bismuth molybdate catalysts synthesized using spray drying for the selective oxidation of propylene

The synergy effect between gamma and beta phase of bismuth molybdate catalysts: Is there any relation between conductivity and catalytic activity?

Spatially Modulated Orthogonal Space-Time Block Codes with Non-Vanishing Determinants

Synergy Effects of the Mixture of Bismuth Molybdate Catalysts with SnO₂/ZrO₂/MgO in Selective Propene Oxidation and the Connection between Conductivity and Catalytic Activity

Influence of organic species on surface area of bismuth molybdate catalysts in complexation and spray drying methods

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Minh-Tuan Le

Bismuth molybdate catalysts synthesized using spray drying for the selective oxidation of propylene

The synergy effect between gamma and beta phase of bismuth molybdate catalysts: Is there any relation between conductivity and catalytic activity?

Spatially Modulated Orthogonal Space-Time Block Codes with Non-Vanishing Determinants

Synergy Effects of the Mixture of Bismuth Molybdate Catalysts with SnO2/ZrO2/MgO in Selective Propene Oxidation and the Connection between Conductivity and Catalytic Activity

Influence of organic species on surface area of bismuth molybdate catalysts in complexation and spray drying methods

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Product

Resources

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Synergy Effects of the Mixture of Bismuth Molybdate Catalysts with SnO₂/ZrO₂/MgO in Selective Propene Oxidation and the Connection between Conductivity and Catalytic Activity