279 research outputs found
Resilience to time-correlated noise in quantum computation
Fault-tolerant quantum computation techniques rely on weakly correlated
noise. Here I show that it is enough to assume weak spatial correlations: time
correlations can take any form. In particular, single-shot error correction
techniques exhibit a noise threshold for quantum memories under spatially local
stochastic noise.Comment: 16 pages, v3: as accepted in journa
06201 Abstracts Collection -- Combinatorial and Algorithmic Foundations of Pattern and Association Discovery
From 15.05.06 to 20.05.06, the Dagstuhl Seminar 06201 ``Combinatorial and Algorithmic Foundations of Pattern and Association Discovery\u27\u27 was held
in the International Conference and Research Center (IBFI), Schloss Dagstuhl.
During the seminar, several participants presented their current
research, and ongoing work and open problems were discussed. Abstracts of
the presentations given during the seminar as well as abstracts of
seminar results and ideas are put together in this paper. The first section
describes the seminar topics and goals in general.
Links to extended abstracts or full papers are provided, if available
GROTESQUE: Noisy Group Testing (Quick and Efficient)
Group-testing refers to the problem of identifying (with high probability) a
(small) subset of defectives from a (large) set of items via a "small"
number of "pooled" tests. For ease of presentation in this work we focus on the
regime when D = \cO{N^{1-\gap}} for some \gap > 0. The tests may be
noiseless or noisy, and the testing procedure may be adaptive (the pool
defining a test may depend on the outcome of a previous test), or non-adaptive
(each test is performed independent of the outcome of other tests). A rich body
of literature demonstrates that tests are
information-theoretically necessary and sufficient for the group-testing
problem, and provides algorithms that achieve this performance. However, it is
only recently that reconstruction algorithms with computational complexity that
is sub-linear in have started being investigated (recent work by
\cite{GurI:04,IndN:10, NgoP:11} gave some of the first such algorithms). In the
scenario with adaptive tests with noisy outcomes, we present the first scheme
that is simultaneously order-optimal (up to small constant factors) in both the
number of tests and the decoding complexity (\cO{D\log(N)} in both the
performance metrics). The total number of stages of our adaptive algorithm is
"small" (\cO{\log(D)}). Similarly, in the scenario with non-adaptive tests
with noisy outcomes, we present the first scheme that is simultaneously
near-optimal in both the number of tests and the decoding complexity (via an
algorithm that requires \cO{D\log(D)\log(N)} tests and has a decoding
complexity of {}. Finally, we present an
adaptive algorithm that only requires 2 stages, and for which both the number
of tests and the decoding complexity scale as {}. For all three settings the probability of error of our
algorithms scales as \cO{1/(poly(D)}.Comment: 26 pages, 5 figure
Space-time coding techniques with bit-interleaved coded modulations for MIMO block-fading channels
The space-time bit-interleaved coded modulation (ST-BICM) is an efficient
technique to obtain high diversity and coding gain on a block-fading MIMO
channel. Its maximum-likelihood (ML) performance is computed under ideal
interleaving conditions, which enables a global optimization taking into
account channel coding. Thanks to a diversity upperbound derived from the
Singleton bound, an appropriate choice of the time dimension of the space-time
coding is possible, which maximizes diversity while minimizing complexity.
Based on the analysis, an optimized interleaver and a set of linear precoders,
called dispersive nucleo algebraic (DNA) precoders are proposed. The proposed
precoders have good performance with respect to the state of the art and exist
for any number of transmit antennas and any time dimension. With turbo codes,
they exhibit a frame error rate which does not increase with frame length.Comment: Submitted to IEEE Trans. on Information Theory, Submission: January
2006 - First review: June 200
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