1,205 research outputs found
Non-sinusoidal current and current reversals in a gating ratchet
In this work, the ratchet dynamics of Brownian particles driven by an
external sinusoidal (harmonic) force is investigated. The gating ratchet effect
is observed when another harmonic is used to modulate the spatially symmetric
potential in which the particles move. For small amplitudes of the harmonics,
it is shown that the current (average velocity) of particles exhibits a
sinusoidal shape as a function of a precise combination of the phases of both
harmonics. By increasing the amplitudes of the harmonics beyond the small-limit
regime, departures from the sinusoidal behavior are observed and current
reversals can also be induced. These current reversals persist even for the
overdamped dynamics of the particles.Comment: 11 pages, 9 figure
Performance evaluation of IB-DFE-based strategies for SC-FDMA systems
The aim of this paper is to propose and evaluate multi-user iterative block decision feedback equalization (IB-DFE)
schemes for the uplink of single-carrier frequency-division multiple access (SC-FDMA)-based systems. It is assumed
that a set of single antenna users share the same physical channel to transmit its own information to the base
station, which is equipped with an antenna array. Two space-frequency multi-user IB-DFE-based processing are
considered: iterative successive interference cancellation and parallel interference cancellation. In the first approach,
the equalizer vectors are computed by minimizing the mean square error (MSE) of each individual user, at each
subcarrier. In the second one, the equalizer matrices are obtained by minimizing the overall MSE of all users at each
subcarrier. For both cases, we propose a simple yet accurate analytical approach for obtaining the performance of
the discussed receivers. The proposed schemes allow an efficient user separation, with a performance close to the
one given by the matched filter bound for severely time-dispersive channels, with only a few iterations
Efficient MIMO detection for high-order QAM constellations in time dispersive channels
In this paper, we apply a generalized form of the alternating direction method of multipliers (ADMM) and derive a multiple-input multiple-output (MIMO) detection algorithm for single carrier transmissions in time dispersive channels. The proposed algorithm supports different penalty parameters for each individual subcarrier and antenna and also includes a relaxation coefficient in the iterations. Besides evaluating the impact of these parameters, a method is presented for the automatic selection of the penalty. It is shown through simulations that very competitive performances can be obtained with the proposed approach for systems with high-order modulation combined with large antenna settings.info:eu-repo/semantics/acceptedVersio
Closed-loop control strategy with improved current for a flashing ratchet
We show how to switch on and off the ratchet potential of a collective
Brownian motor, depending only on the position of the particles, in order to
attain a current higher than or at least equal to that induced by any periodic
flashing. Maximization of instant velocity turns out to be the optimal protocol
for one particle but is nevertheless defeated by a periodic switching when a
sufficiently large ensemble of particles is considered. The protocol presented
in this article, although not the optimal one, yields approximately the same
current as the optimal protocol for one particle and as the optimal periodic
switching for an infinite number of them.Comment: 4 pages, 4 figure
Iterative receiver combining IB-DFE with MRC for massive MIMO schemes
Once we are moving to the 5G system it is imperative to reduce the complexity of massive MIMO (Multiple-Input, Multiple Output) receivers. This paper considers the uplink transmission using massive MIMO combined with SC-FDE (Single-Carrier with Frequency-Domain Equalization). We propose an iterative frequency-domain receiver merging IB-DFE (Iterative Block Decision-Feedback Equalizer) with MRC (Maximal Ratio Combining). We propose a novel approach to reduce the complexity of the receiver by avoiding matrix inversions while maintaining a level of performance very close to the Matched Filter Bound (MFB), which makes it an excellent option for 5G systems.info:eu-repo/semantics/acceptedVersio
Joint detection and channel estimation for MIMO systems with SC-FDE modulations
SC modulation (Single-Carrier) with FDE (Frequency-Domain Equalization) allows excellent performance in severely time-dispersive channels, provided that accurate channel estimates are available at the receiver. For this purpose, pilot symbols and/or training sequences are usually multiplexed with data symbols, which lead to spectral degradation. As an alternative, we can use implicit pilots (i.e., pilots superimposed to data). In this paper we consider MIMO SC-FDE systems where the channel estimation is based on either explicit or implicit pilots, for comparison purposes. An iterative receiver with joint equalization, turbo decoding and channel estimation was employed for optimum results, and to reduce the high interference levels between data and pilots (for the implicit pilots). The main differences between the different schemes are discussed and the performance results show that the use of the proposed techniques for channel estimation yield excellent results.info:eu-repo/semantics/acceptedVersio
Performance bound for generalized M-QAM constellations in time-discrete multipath rayleigh fading channels with channel estimation errors
In this paper we derive a lower bound on the bit error rate (BER) for the individual bit streams that can be mapped simultaneously in an hierarchical way onto generalized multilevel quadrature amplitude modulations (M-QAM). The expressions are valid for time-discrete multipath Rayleigh fading environments with imperfect channel estimation and can be regarded as an extension of the well-known matched filter bound (MFB).info:eu-repo/semantics/acceptedVersio
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