1,507 research outputs found
An investigation of term weighting approaches for microblog retrieval
The use of effective term frequency weighting and document length normalisation strategies have been shown over a number of decades to have a significant positive effect for document retrieval. When dealing with much shorter documents, such as those obtained from microblogs, it would seem intuitive that these would have less benefit. In this paper we investigate their effect on microblog retrieval performance using the Tweets2011 collection from the TREC 2011 Microblog Track
CLARITY at the TREC 2011 microblog track
For the first year of the TREC Microblog Track the CLARITY group concentrated on a number of areas, investigating the underlying term weighting scheme for ranking tweets, incorporating query expansion to introduce new terms into the query, as well as introducing an element of temporal re-weighting based on the temporal distribution of assumed relevant microblogs
Running Probabilistic Programs Backwards
Many probabilistic programming languages allow programs to be run under
constraints in order to carry out Bayesian inference. Running programs under
constraints could enable other uses such as rare event simulation and
probabilistic verification---except that all such probabilistic languages are
necessarily limited because they are defined or implemented in terms of an
impoverished theory of probability. Measure-theoretic probability provides a
more general foundation, but its generality makes finding computational content
difficult.
We develop a measure-theoretic semantics for a first-order probabilistic
language with recursion, which interprets programs as functions that compute
preimages. Preimage functions are generally uncomputable, so we derive an
abstract semantics. We implement the abstract semantics and use the
implementation to carry out Bayesian inference, stochastic ray tracing (a rare
event simulation), and probabilistic verification of floating-point error
bounds.Comment: 26 pages, ESOP 2015 (to appear
Will the real disease gene please stand up?
A common dilemma arising in linkage studies of complex genetic diseases is the selection of positive signals, their follow-up with association studies and discrimination between true and false positive results. Several strategies for overcoming these issues have been devised. Using the Genetic Analysis Workshop 14 simulated dataset, we aimed to apply different analytical approaches and evaluate their performance in discerning real associations. We considered a) haplotype analyses, b) different methods adjusting for multiple testing, c) replication in a second dataset, and d) exhaustive genotyping of all markers in a sufficiently powered, large sample group. We found that haplotype-based analyses did not substantially improve over single-point analysis, although this may reflect the low levels of linkage disequilibrium simulated in the datasets provided. Multiple testing correction methods were in general found to be over-conservative. Replication of nominally positive results in a second dataset appears to be less stringent, resulting in the follow-up of false positives. Performing a comprehensive assay of all markers in a large, well-powered dataset appears to be the most effective strategy for complex disease gene identification
Optical Designs for a Multi-Beam 340 and 625/640 GHz Spaceborne Climate Research Instrument
We report on an ongoing study where different optical
configurations for a multi-beam limb-viewing (four to eight
receiver channels at 340 and two channels at 625 GHz) spaceborne
instrument for climate research are presented and
compared. The optical configurations are analyzed in terms of
optical performance (gain, side lobe levels, beam efficiency etc.),
weight and size of the overall instrument envelope. Using ideal
fundamental Gaussian beam modes and numerical tools relying
on ray-tracing and physical optics methods, the different
configurations are designed and evaluated. Preliminary results
indicate that a 1.3 m x 0.65 m primary reflector can be used in a
configuration that includes a relay optics system having two to
four elements. In addition to the limb-viewing instrument, there
will be an additional instrument operating at 640 GHz for
observing clouds in nadir mode
A facile quantitative assay for viral particle genesis reveals cooperativity in virion assembly and saturation of an antiviral protein
Conventional assays of viral particle assembly and release are time consuming and laborious. We have developed an enzymatic virus-like particle (VLP) genesis assay that rapid and quantitative and is also versatile and applicable to diverse viruses including HIV-1 and Ebola virus. Using this assay, which has a dynamic range of several orders of magnitude, we show that the efficiency of VLP assembly and release, i.e., the fraction of the expressed protein that is assembled into extracellular particles, is dependent on the absolute level of expression of either HIV-1 Gag or Ebola virus VP40. We also demonstrate that the activity of the antiviral factor tetherin is dependent on the level of HIV-1 Gag expression and the numbers of VLPs generated, and appears to become saturated as these parameters are increased
Quasi-optical phase retrieval of radiation patterns of non-standard horn antennas at millimetre and submillimetre wavelengths
The location of the phase centres of antenna feeds is critical for optimised sensitivity and resolution on reflector antennas and telescopes. While the measurement of the far-field intensity patterns of such feeds is relatively straightforward, the direct recovery of their phase patterns requires access to expensive phase sensitive instrumentation such as a vector network analyzer. We present an inexpensive alternative quasi-optical technique, analogous to off-axis holography at visible wavelengths, that allows for the phase curvature of the feed pattern, and thus the phase centre, to be recovered with sufficient accuracy for optimizing aperture efficiency and resolution on a reflector antenna. We discuss the accuracy of the technique and compare results for the case of a specialized horn antenna for CMB polarization operating at 100GHz, using both the quasi-optical method and a vector network analyzer as a bench mark measurement tool for verification of the approach. We also include some measurements made of a lens antenna fed by a bare waveguide radiator
Quasi-optical phase retrieval of radiation patterns of non-standard horn antennas at millimetre and submillimetre wavelengths
The location of the phase centres of antenna feeds is critical for optimised sensitivity and resolution on reflector antennas and telescopes. While the measurement of the far-field intensity patterns of such feeds is relatively straightforward, the direct recovery of their phase patterns requires access to expensive phase sensitive instrumentation such as a vector network analyzer. We present an inexpensive alternative quasi-optical technique, analogous to off-axis holography at visible wavelengths, that allows for the phase curvature of the feed pattern, and thus the phase centre, to be recovered with sufficient accuracy for optimizing aperture efficiency and resolution on a reflector antenna. We discuss the accuracy of the technique and compare results for the case of a specialized horn antenna for CMB polarization operating at 100GHz, using both the quasi-optical method and a vector network analyzer as a bench mark measurement tool for verification of the approach. We also include some measurements made of a lens antenna fed by a bare waveguide radiator
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