1,562 research outputs found
Asymptotic Analysis of SU-MIMO Channels With Transmitter Noise and Mismatched Joint Decoding
Hardware impairments in radio-frequency components of a wireless system cause
unavoidable distortions to transmission that are not captured by the
conventional linear channel model. In this paper, a 'binoisy' single-user
multiple-input multiple-output (SU-MIMO) relation is considered where the
additional distortions are modeled via an additive noise term at the transmit
side. Through this extended SU-MIMO channel model, the effects of transceiver
hardware impairments on the achievable rate of multi-antenna point-to-point
systems are studied. Channel input distributions encompassing practical
discrete modulation schemes, such as, QAM and PSK, as well as Gaussian
signaling are covered. In addition, the impact of mismatched detection and
decoding when the receiver has insufficient information about the
non-idealities is investigated. The numerical results show that for realistic
system parameters, the effects of transmit-side noise and mismatched decoding
become significant only at high modulation orders.Comment: 16 pages, 7 figure
Spectral Efficiency of MIMO Millimeter-Wave Links with Single-Carrier Modulation for 5G Networks
Future wireless networks will extensively rely upon bandwidths centered on
carrier frequencies larger than 10GHz. Indeed, recent research has shown that,
despite the large path-loss, millimeter wave (mmWave) frequencies can be
successfully exploited to transmit very large data-rates over short distances
to slowly moving users. Due to hardware complexity and cost constraints,
single-carrier modulation schemes, as opposed to the popular multi-carrier
schemes, are being considered for use at mmWave frequencies. This paper
presents preliminary studies on the achievable spectral efficiency on a
wireless MIMO link operating at mmWave in a typical 5G scenario. Two different
single-carrier modem schemes are considered, i.e. a traditional modulation
scheme with linear equalization at the receiver, and a single-carrier
modulation with cyclic prefix, frequency-domain equalization and FFT-based
processing at the receiver. Our results show that the former achieves a larger
spectral efficiency than the latter. Results also confirm that the spectral
efficiency increases with the dimension of the antenna array, as well as that
performance gets severely degraded when the link length exceeds 100 meters and
the transmit power falls below 0dBW. Nonetheless, mmWave appear to be very
suited for providing very large data-rates over short distances.Comment: 8 pages, 8 figures, to appear in Proc. 20th International ITG
Workshop on Smart Antennas (WSA2016
URLLC with Massive MIMO: Analysis and Design at Finite Blocklength
The fast adoption of Massive MIMO for high-throughput communications was
enabled by many research contributions mostly relying on infinite-blocklength
information-theoretic bounds. This makes it hard to assess the suitability of
Massive MIMO for ultra-reliable low-latency communications (URLLC) operating
with short blocklength codes. This paper provides a rigorous framework for the
characterization and numerical evaluation (using the saddlepoint approximation)
of the error probability achievable in the uplink and downlink of Massive MIMO
at finite blocklength. The framework encompasses imperfect channel state
information, pilot contamination, spatially correlated channels, and arbitrary
linear spatial processing. In line with previous results based on
infinite-blocklength bounds, we prove that, with minimum mean-square error
(MMSE) processing and spatially correlated channels, the error probability at
finite blocklength goes to zero as the number of antennas grows to
infinity, even under pilot contamination. On the other hand, numerical results
for a practical URLLC network setup involving a base station with
antennas, show that a target error probability of can be achieved
with MMSE processing, uniformly over each cell, only if orthogonal pilot
sequences are assigned to all the users in the network. Maximum ratio
processing does not suffice.Comment: 30 pages, 5 figure
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