675 research outputs found
DRSP : Dimension Reduction For Similarity Matching And Pruning Of Time Series Data Streams
Similarity matching and join of time series data streams has gained a lot of
relevance in today's world that has large streaming data. This process finds
wide scale application in the areas of location tracking, sensor networks,
object positioning and monitoring to name a few. However, as the size of the
data stream increases, the cost involved to retain all the data in order to aid
the process of similarity matching also increases. We develop a novel framework
to addresses the following objectives. Firstly, Dimension reduction is
performed in the preprocessing stage, where large stream data is segmented and
reduced into a compact representation such that it retains all the crucial
information by a technique called Multi-level Segment Means (MSM). This reduces
the space complexity associated with the storage of large time-series data
streams. Secondly, it incorporates effective Similarity Matching technique to
analyze if the new data objects are symmetric to the existing data stream. And
finally, the Pruning Technique that filters out the pseudo data object pairs
and join only the relevant pairs. The computational cost for MSM is O(l*ni) and
the cost for pruning is O(DRF*wsize*d), where DRF is the Dimension Reduction
Factor. We have performed exhaustive experimental trials to show that the
proposed framework is both efficient and competent in comparison with earlier
works.Comment: 20 pages,8 figures, 6 Table
Importance of Synthetic Flocculants in Alumina Industry
In the Bayer's process of alumina production, separation of mud residue front the liquor plays on important role. Throughout Alumina production process additives are used at one stage or the other, flocculant being one of the additives. Till 70's natural flocculants were used in the
operations. Starch, guar gum, wheat bran etc. were used for the purpose of settling of red mud and to attain increased solidl/liquid separation rates. Slowly transformation has taken place from natural flocculants
to synthetic flocculattts for a variety of advantages such as improved settling rates, improved liquor throughput, high underflow consistency,improved liquor filterability, reduced organic load etc. They also control the physical and chemical properties of the Bayer process streams
during the operation- Synthetic flocculattts are polymers of acrylamide & polvac rylate etc. the molecular structure of which is an important factor to obtain the desired flocculation effect in the process liquors. Depending on the Bauxite quality and the process technology adopted
the selection of flocculant varies from plant to plant. This paper deals with different types of synthetic flocculants available, their usage in Alumina industry
Hikami-Larkin-Nagaoka (HLN) Fitting of Magneto Transport of Bi2Se3 Single Crystal in Different Magnetic Field Ranges
We report the detailed study of structural micro-structuraland high magnetic
field magneto transport propertiesof Bi2Se3single crystal. Bi2Se3 single
crystal is grown through conventional solid-state reaction route via the
self-flux method. Rietveld analysis on Powder X-ray Diffraction showed that the
studied Bi2Se3 crystal is crystallized in single-phase without any impurity.
The surface morphology analyzed through Scanning Electron Microscopy study
which shows that as-grown single crystal exhibit layered type structure and the
quantitative weight of the atomic constituents (Bi and Se) are found to be
closeto the stoichiometric amount in energy-dispersive X-ray spectroscopy
analysis. Low temperature (2.5K) magneto-resistance (MR) exhibited a v-type
cusp around origin at lower magnetic field, which is the sign of weak
anti-localization effect. Further, Bi2Se3 single crystal magneto conductivity
data is fitted by well-known HLN equation in different magnetic field range of
2Tesla, 4Tesla and 6Tesla and the resultant found that the conduction mechanism
of Bi2Se3 is dominated by WAL state.Comment: 4 Pages Text + Fig
Evaluation of Grasses Raised through Sewage Water in Musi, Hyderabad
Growing of various crops utilizing sewage is a common scenario in many urban and sub-urban areas. The crops mostly include forage crops, leafy vegetables, vegetables and sometimes food grains. These sewage waters are known to contain undesirable constituents like heavy metals, pesticide residues besides, harmful pathogens. These undesirable components can make way very possibly from sewage to soils, plant parts; there by to even milk, thus entering into food chain. Musi, a tributary of Krishna on whose banks Hyderabad lays is the main fodder bank of the city. Thousand of hactares of land resembling vast grassland ecosystem is under cultivation of forage crops. Para grass (Bracharia mutica) is the dominant crop grown in and around Musi along with several other crops. So far the path of the undesirable factors in sewage into forage crops and thereby food chain is not studied. Hence, this work is emphasized to study the level of pesticide residues in soil, water and plant
Field dependent competing magnetic ordering in multiferroic Ni3V2O8
The geometrically frustrated magnet Ni3V2O8 undergoes a series of competing
magnetic ordering at low temperatures. Most importantly, one of the
incommensurate phases has been reported to develop a ferroelectric correlation
caused by spin frustration. Here we report an extensive thermodynamic,
dielectric and magnetic study on clean polycrystalline samples of this novel
multiferroic compound. Our low temperature specific heat data at high fields up
to 14 Tesla clearly identify the development of a new magnetic field induced
phase transition below 2 K that shows signatures of simultaneous electric
ordering. We also report temperature and field dependent dielectric constant
that enables us to quantitatively estimate the strength of magneto-electric
coupling in this improper ferroelectric material.Comment: 18 pages, 4 figures. Accepted for publication in Euro. Phys. Let
Slow Light Propagation in a Thin Optical Fiber via Electromagnetically Induced Transparency
We propose a novel configuration that utilizes electromagnetically induced
transparency (EIT) to tailor a fiber mode propagating inside a thin optical
fiber and coherently control its dispersion properties to drastically reduce
the group velocity of the fiber mode. The key to this proposal is: the
evanescent-like field of the thin fiber strongly couples with the surrounding
active medium, so that the EIT condition is met by the medium. We show how the
properties of the fiber mode is modified due to the EIT medium, both
numerically and analytically. We demonstrate that the group velocity of the new
modified fiber mode can be drastically reduced (approximately 44 m/sec) using
the coherently prepared orthohydrogen doped in a matrix of parahydrogen crystal
as the EIT medium.Comment: 10 pages in two column RevTex4, 6 Figure
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