6,469 research outputs found
On the Sample Information About Parameter and Prediction
The Bayesian measure of sample information about the parameter, known as
Lindley's measure, is widely used in various problems such as developing prior
distributions, models for the likelihood functions and optimal designs. The
predictive information is defined similarly and used for model selection and
optimal designs, though to a lesser extent. The parameter and predictive
information measures are proper utility functions and have been also used in
combination. Yet the relationship between the two measures and the effects of
conditional dependence between the observable quantities on the Bayesian
information measures remain unexplored. We address both issues. The
relationship between the two information measures is explored through the
information provided by the sample about the parameter and prediction jointly.
The role of dependence is explored along with the interplay between the
information measures, prior and sampling design. For the conditionally
independent sequence of observable quantities, decompositions of the joint
information characterize Lindley's measure as the sample information about the
parameter and prediction jointly and the predictive information as part of it.
For the conditionally dependent case, the joint information about parameter and
prediction exceeds Lindley's measure by an amount due to the dependence. More
specific results are shown for the normal linear models and a broad subfamily
of the exponential family. Conditionally independent samples provide relatively
little information for prediction, and the gap between the parameter and
predictive information measures grows rapidly with the sample size.Comment: Published in at http://dx.doi.org/10.1214/10-STS329 the Statistical
Science (http://www.imstat.org/sts/) by the Institute of Mathematical
Statistics (http://www.imstat.org
Simulated Tornado Optimization
We propose a swarm-based optimization algorithm inspired by air currents of a
tornado. Two main air currents - spiral and updraft - are mimicked. Spiral
motion is designed for exploration of new search areas and updraft movements is
deployed for exploitation of a promising candidate solution. Assignment of just
one search direction to each particle at each iteration, leads to low
computational complexity of the proposed algorithm respect to the conventional
algorithms. Regardless of the step size parameters, the only parameter of the
proposed algorithm, called tornado diameter, can be efficiently adjusted by
randomization. Numerical results over six different benchmark cost functions
indicate comparable and, in some cases, better performance of the proposed
algorithm respect to some other metaheuristics.Comment: 6 pages, 15 figures, 1 table, IEEE International Conference on Signal
Processing and Intelligent System (ICSPIS16), Dec. 201
Synthesis of Novel Bibrachial Lariat Ethers (BiBLEs) Containing [1,2,4]Triazolo[3,4-b][1,3,4]Thiadiazines
A practical and regioselective method for the synthesis of cis-diastereomers of bibrachial lariat ethers (BiBLEs) bearing ester and amide groups is reported. The novel bibrachial lariat ethers (BiBLEs) 3a–d with neutral side chains were prepared by reaction of the corresponding aza-crown macrocycles 1a–b with ethyl chloroacetate and chloroacetamide.KEYWORDS macrocycle, bibrachial, lariat ethers, aza-crown, 1,3,4-thiadiazines
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