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148 items matching your criteria.
- CMF Bibliography Help [1%] by admin, 2007-05-19 04:11
- Kevin Vixie [1%] by admin, 2007-05-19 04:04
- Personal Items for vixie [1%] by admin, 2008-02-17 12:34
- contains personal workarea items for vixie
- vixie-cv [1%] by admin, 2008-03-02 01:40
- Personal Items for matt [1%] by admin, 2007-05-19 04:02
- contains personal workarea items for matt
- matt's Home [1%] by admin, 2007-05-19 04:01
- Home page area that contains the items created and collected by matt
- Matt Sottile [1%] by admin, 2007-09-23 19:51
- Dept. of Computer and Information Science - University of Oregon - matt@cs.uoregon.edu
- Metrics Path Forward [1%] by admin, 2007-05-18 10:55
- A white paper that discusses the key issues to address in FY '07 and outlines our path forward this year.
- A more complex image [1%] by admin, 2007-05-19 03:52
- A fish on a simple gradient.
- A background of Gaussians [1%] by admin, 2007-05-19 03:52
- A circle on a background of gaussians.
- Third order background [1%] by admin, 2007-05-19 03:52
- A circle on a third order background of similar amplitude to the object.
- Simple gradient [1%] by admin, 2007-05-19 03:52
- A circle on a simple low frequency background that spans the color scale.
- Background [1%] by admin, 2007-05-19 03:52
- In the four examples in this folder, the original image is in the top left. The remaining images in the left column were corrected by removing low frequency ...
- code [1%] by admin, 2007-05-19 03:52
- code for the above methods.
- Brendt Wohlbert - Time of Arrival by Determining the Detection Threshold [1%] by admin, 2007-05-19 03:52
- The algorithm attempts to identify an initial region of stationary noise, and uses the maximum value within that region to construct a detection threshold.
- Rick Chartrand - Time of Arrival via Total-Variation Regularized Differentiat [1%] by admin, 2007-05-19 03:52
- The time of arrival is when the signal ceases to be essentially flat. Noise keeps the signal from being flat, but noise is fluctuation of a smaller scale ...
- Pete Schultz - Time of Arrival of Signal using Changes in Standard Deviation and Linear Regression Coefficients [1%] by admin, 2007-05-19 03:52
- The routine is based on the assumption that the time series data behaves like Gaussian noise for some period of time, until the arrival of a signal whose ...
- Tom Asaki - Time of Arrival via Onset of Non-Noise Signal Frequencies [1%] by admin, 2007-05-19 03:52
- The goal of this algorithm is to detect the time of arrival of a signal of interest in a 1D noisy back- ground time series. The basic concept is to monitor ...
- Chris Orum - Kolomogorov-Smirnov goodness-of-fit [1%] by admin, 2008-09-09 17:55
- Time of arrival based on a Kolomogorov-Smirnov goodness-of-fit hypothesis test.
- Code [1%] by admin, 2007-05-19 03:52
- The code and documentation for all of the above.
- Kevin Vixie & Selim Esedoglu - Variational Tools for Signal Similarity Analysis [1%] by admin, 2007-05-19 03:52
- This collection of eight routines, and their associated subroutines, implement a number of metrics for quantifying the differences between signals from ...
- Matt Sottile - Spectrogram warping distance [1%] by admin, 2007-05-19 03:52
- This metric is based on computing the similarity of short time Fourier rep- resentations of the signal at well defined windows. It also provides a metric ...
- Gilad Lerman - Envelopes of Signals via Medmax [1%] by admin, 2007-05-19 03:52
- Our goal is to find the envelope of a signal. We suggest the Medmax algorithm for this purpose. The algorithm is an elaboration of the median filter, however ...
- Tom Asaki - Signal Energy Measures and Metrics [1%] by admin, 2007-05-19 03:52
- Several measures and metrics based on the cummulative energy content of time signals. Similarity, in this case, is not based directly on geometric ...
- Rick Chartrand - Geowarp [1%] by admin, 2007-05-19 03:52
- The first algorithm is geomeasures2, from the IDA code suite. This algorithm takes as input a coordinate description of a simple closed curve, and a vector ...
- Pete Schultz [1%] by admin, 2007-05-19 03:53
- Department of Mathematics - Clarkson University - pschultz@lanl.gov - 315-244-9103
- Pete Schultz [1%] by admin, 2007-05-19 03:53
- Allon G. Percus [1%] by admin, 2008-01-23 10:52
- CCS-3/LANL & Department of Mathematics/University of California, Los Angeles - percus(AT)ipam.ucla.edu - 1-310-825-2627
- Allon Percus [1%] by admin, 2007-05-19 03:53
- percus's Home [1%] by admin, 2007-05-19 04:16
- Home page area that contains the items created and collected by percus
A Basic Course in Optimization
