3,236 research outputs found
Local Percolation Probabilities for a Natural Sandstone
Local percolation probabilities are used to characterize the connectivity in
porous and heterogeneous media. Together with local porosity distributions they
allow to predict transport properties \cite{hil91d}. While local porosity
distributions are readily obtained, measurements of the local percolation
probabilities are more difficult and have not been attempted previously. First
measurements of three dimensional local porosity distributions and percolation
probabilities from a pore space reconstruction for a natural sandstone show
that theoretical expectations and experimental results are consistent.Comment: 9 pages, see also http://www.ica1.uni-stuttgart.de , Physica
Does text structure/summarization instruction facilitate learning from expository text?
The work upon which this publication is based was performed pursuant to Contract no. NIE-400-81-0030 of the National Institute of Educatio
Terahertz conductivity of the heavy-fermion compound UNi2Al3
We have studied the optical properties of the heavy-fermion compound UNi2Al3
at frequencies between 100 GHz and 1 THz (3 cm^-1 and 35 cm^-1), temperatures
between 2 K and 300 K, and magnetic fields up to 7 T. From the measured
transmission and phaseshift of radiation passing through a thin film of
UNi2Al3, we have directly determined the frequency dependence of the real and
imaginary parts of the optical conductivity (or permittivity, respectively). At
low temperatures the anisotropy of the optical conductivity along the a- and
c-axes is about 1.5. The frequency dependence of the real part of the optical
conductivity shows a maximum at low temperatures, around 3 cm^-1 for the a-axis
and around 4.5 cm^-1 for the c-axis. This feature is visible already at 30 K,
much higher than the Neel temperature of 4.6 K, and it does not depend on
external magnetic fields as high as 7 T. We conclude that this feature is
independent of the antiferromagnetic order for UNi2Al3, and this might also be
the case for UPd2Al3 and UPt3, where a similar maximum in the optical
conductivity was observed previously.Comment: 7 pages, 9 figure
Estimating the Tempo of Audio Files
On the market today, there exists a multitude of software that allows for the detection and prediction of beats per minute (BPM) contained in audio files. There are both free and monetized versions of these programs, but there is one thing that they all have in common: they are inaccurate. This is simply because the science behind beat detection is unfinished, and may never be. In this project, I decided to use a method of audio peak detection to help me detect the tempo that may exist in any audio file. I started by researching existing programs and the science involved. The existing technologies are very complex, so I learned what I could, and I created my own implementation. My software is free, fairly accurate, and easy to use which is what I don\u27t see in today\u27s market
Reconstructing Electrocardiogram Leads From a Reduced Lead Set Through the Use of Patient-Specific Transforms and Independent Component Analysis
In this exploration into electrocardiogram (ECG) lead reconstruction, two algorithms were developed and tested on a public database and in real-time on patients. These algorithms were based on independent component analysis (ICA). ICA was a promising method due to its implications for spatial independence of lead placement and its adaptive nature to changing orientation of the heart in relation to the electrodes.
The first algorithm was used to reconstruct missing precordial leads, which has two key applications. The first is correcting precordial lead measurements in a standard 12-lead configuration. If an irregular signal or high level of noise is detected on a precordial lead, the obfuscated signal can be calculated from other nearby leads. The second is the reduction in the number of precordial leads required for accurate measurement, which opens up the surface of the chest above the heart for diagnostic procedures. Using only two precordial leads, the other four were reconstructed with a high degree of accuracy. This research was presented at the 33rd International Conference of the IEEE Engineering in Medicine and Biology Society in 2011.1
The second algorithm was developed to construct a full 12-lead clinical ECG from either three differential measurements or three standard leads. By utilizing differential measurements, the ECG could be reconstructed using wireless systems, which lack the common ground necessary for the standard measurement method. Using three leads distributed across the expanse of the space of the heart, all twelve leads were successfully reconstructed and compared against state of the art algorithms. This work has been accepted for publication in the IEEE Journal of Biomedical and Health Informatics.2
These algorithms show a proof of concept, one which can be further honed to deal with the issues of sorting independent components and improving the training sequences. This research also revealed the possibility of extracting and monitoring additional physiological information, such as a patient\u27s breathing rate from currently utilized ECG systems
PT 679.02: Trends and Scholarly Activity - Neurological Rehabilitation and Vestibular Rehabilitation
- …