249 research outputs found
On the relaxed maximum-likelihood blind MIMO channel estimation for orthogonal space-time block codes
This paper concerns the maximum-likelihood channel estimation for MIMO
systems with orthogonal space-time block codes when the finite alphabet
constraint of the signal constellation is relaxed. We study the channel
coefficients estimation subspace generated by this method. We provide an
algebraic characterisation of this subspace which turns the optimization
problem into a purely algebraic one and more importantly, leads to several
interesting analytical proofs. We prove that with probability one, the
dimension of the estimation subspace for the channel coefficients is
deterministic and it decreases by increasing the number of receive antennas up
to a certain critical number of receive antennas, after which the dimension
remains constant. In fact, we show that beyond this critical number of receive
antennas, the estimation subspace for the channel coefficients is isometric to
a fixed deterministic invariant space which can be easily computed for every
specific OSTB code
When do Trajectories have Bounded Sensitivity to Cumulative Perturbations?
We investigate sensitivity to cumulative perturbations for a few dynamical
system classes of practical interest. A system is said to have bounded
sensitivity to cumulative perturbations (bounded sensitivity, for short) if an
additive disturbance leads to a change in the state trajectory that is bounded
by a constant multiple of the size of the cumulative disturbance. As our main
result, we show that there exist dynamical systems in the form of (negative)
gradient field of a convex function that have unbounded sensitivity. We show
that the result holds even when the convex potential function is piecewise
linear. This resolves a question raised in [1], wherein it was shown that the
(negative) (sub)gradient field of a piecewise linear and convex function has
bounded sensitivity if the number of linear pieces is finite. Our results
establish that the finiteness assumption is indeed necessary.
Among our other results, we provide a necessary and sufficient condition for
a linear dynamical system to have bounded sensitivity to cumulative
perturbations. We also establish that the bounded sensitivity property is
preserved, when a dynamical system with bounded sensitivity undergoes certain
transformations. These transformations include convolution, time
discretization, and spreading of a system (a transformation that captures
approximate solutions of a system)
The Pathways for Intelligible Speech: Multivariate and Univariate Perspectives
An anterior pathway, concerned with extracting meaning from sound, has been identified in nonhuman primates. An analogous pathway has been suggested in humans, but controversy exists concerning the degree of lateralization and the precise location where responses to intelligible speech emerge. We have demonstrated that the left anterior superior temporal sulcus (STS) responds preferentially to intelligible speech (Scott SK, Blank CC, Rosen S, Wise RJS. 2000. Identification of a pathway for intelligible speech in the left temporal lobe. Brain. 123:2400-2406.). A functional magnetic resonance imaging study in Cerebral Cortex used equivalent stimuli and univariate and multivariate analyses to argue for the greater importance of bilateral posterior when compared with the left anterior STS in responding to intelligible speech (Okada K, Rong F, Venezia J, Matchin W, Hsieh IH, Saberi K, Serences JT,Hickok G. 2010. Hierarchical organization of human auditory cortex: evidence from acoustic invariance in the response to intelligible speech. 20: 2486-2495.). Here, we also replicate our original study, demonstrating that the left anterior STS exhibits the strongest univariate response and, in decoding using the bilateral temporal cortex, contains the most informative voxels showing an increased response to intelligible speech. In contrast, in classifications using local "searchlights” and a whole brain analysis, we find greater classification accuracy in posterior rather than anterior temporal regions. Thus, we show that the precise nature of the multivariate analysis used will emphasize different response profiles associated with complex sound to speech processin
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