Ana García Armada scite author profile

Ana García Armada

5Publications

337Citation Statements Received

121Citation Statements Given

How they've been cited

304

333

How they cite others

119

Affiliations

Carlos III University of Madrid, Universidad Politécnica de Madrid, Instituto de Salud Carlos III

Publications

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A non-coherent multi-user large scale SIMO system relaying on M-ary DPSK

Armada

Hanzo

2015

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Abstract-A non-coherent detection assisted Differential Phase Shift Keying aided large-scale MIMO system is designed in a wireless uplink where multiple single-antenna users are transmitting to the base station's receiver equipped with a very large number of receive antennas. We show that the signal to interference plus noise ratio (SINR) scales with the number of receive antennas, which confirms the same scaling law found in coherent systems. We propose a range of constellation designs that allow us to separate the users' signals at the receiver by relying only on the knowledge of the average received power per user. We analyse the error probability and provide insights into the beneficial selection of the constellation parameters. Finally, we provide some numerical results showing that our proposals require a lower number of receive antennas to achieve a given error probability than other non-coherent benchmark schemes available in the literature, while they are not far from an equivalent coherent system relying on realistic channel estimation settings.

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Phase noise and sub-carrier spacing effects on the performance of an OFDM communication system

1998

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Non-Coherent Multiuser Massive MIMO-OFDM with Differential Modulation

Chen‐Hu

Armada

2019

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Massive multiple-input multiple-output (MIMO) and orthogonal frequency division multiplexing (OFDM) are wireless technologies adopted by the Fifth Generation (5G) of mobile communications. The channel estimation and pre/postequalization processes in coherent detection schemes for massive MIMO-OFDM are a challenging task, where several issues are faced, such as pilot contamination, channel calibration, matrix inversions, among others. Moreover, they increase the energy consumption and latency of the system. A non-coherent technique relying on DPSK constellation has been proposed for a singlecarrier scheme, assuming flat-fading. In our paper, we extend this technique to be combined with OFDM, where the channel is doubly dispersive (time and frequency). We will show that the differential modulation can be performed either in the time or frequency domain, where the latter suffers from an additional phase rotation, which should be estimated and compensated. We provide the analytical expression of the signal-to-interferenceand-noise ratio (SINR) for both cases, and we show numerical results in order to verify our analysis.

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A Noncoherent Multiuser Large-Scale SIMO System Relying on M-Ary DPSK and BICM-ID

Baeza

Armada

Zhang

et al. 2018

IEEE Trans. Veh. Technol.

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Abstract-A new constellation is designed for the multi-user non-coherent Large-Scale single input multiple output (LS-SIMO) uplink system based on M-DPSK, which is combined with a Bit Interleaved Coded Modulation-Iterative Decoding (BICM-ID) scheme for attaining improved performance. We conceive a new approach for constructing EXIT charts parameterized by the number of antennas used for optimizing the design. Finally, the system performance is analyzed and compared to previous work. This evaluation shows an overall improvement of two orders of magnitude demonstrating a dramatic reduction in the required number of antennas.

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Blind Interference Alignment for Cellular Networks

Morales-Céspedes

Plata-Chaves

Toumpakaris

et al. 2015

IEEE Trans. Signal Process.

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Abstract-We propose a blind interference alignment scheme for partially connected cellular networks. The scheme cancels both intracell and intercell interference by relying on receivers with one reconfigurable antenna and by allowing users at the cell edge to be served by all the base stations in their proximity. An outer bound for the degrees of freedom is derived for general partially connected networks with single-antenna receivers when knowledge of the channel state information at the transmitter is not available. It is demonstrated that for symmetric scenarios, this outer bound is achieved by the proposed scheme. On the other hand, for asymmetric scenarios, the achievable degrees of freedom are not always equal to the outer bound. However, the penalty is typically small, and the proposed scheme outperforms other blind interference alignment schemes. Moreover, significant reduction of the supersymbol length is achieved compared with a standard blind interference alignment strategy designed for fully connected networks.Index Terms-Blind interference alignment, cellular networks, degrees of freedom.

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