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pydoe3
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public |
Simple, fast, extensible JSON encoder/decoder for Python
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2025-09-22 |
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qgv
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public |
Interactive Qt graphViz display
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2025-09-22 |
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libgz-msgs10
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public |
Messages for Gazebo robot simulation.
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2025-09-22 |
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gz-msgs10
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public |
Messages for Gazebo robot simulation.
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2025-09-22 |
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r-weatherdata
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public |
Functions that help in fetching weather data from websites. Given a location and a date range, these functions help fetch weather data (temperature, pressure etc.) for any weather related analysis.
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2025-09-22 |
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pydiverse-common
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public |
Common functionality shared between pydiverse libraries
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2025-09-22 |
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libgz-msgs11
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public |
Messages for Gazebo robot simulation.
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2025-09-22 |
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gz-msgs11
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public |
Messages for Gazebo robot simulation.
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2025-09-22 |
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r-multimode
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public |
Different examples and methods for testing (including different proposals described in Ameijeiras-Alonso et al., 2018 <DOI:10.1007/s11749-018-0611-5>) and exploring (including the mode tree, mode forest and SiZer) the number of modes using nonparametric techniques.
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2025-09-22 |
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azure-mgmt-datamigration
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public |
Microsoft Azure Data Migration Client Library for Python
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2025-09-22 |
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sendgrid
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public |
SendGrid library for Python
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2025-09-22 |
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gz-msgs10-python
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public |
Messages for Gazebo robot simulation.
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2025-09-22 |
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gz-msgs11-python
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public |
Messages for Gazebo robot simulation.
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2025-09-22 |
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r-eikosograms
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public |
An eikosogram (ancient Greek for probability picture) divides the unit square into rectangular regions whose areas, sides, and widths, represent various probabilities associated with the values of one or more categorical variates. Rectangle areas are joint probabilities, widths are always marginal (though possibly joint margins, i.e. marginal joint distributions of two or more variates), and heights of rectangles are always conditional probabilities. Eikosograms embed the rules of probability and are useful for introducing elementary probability theory, including axioms, marginal, conditional, and joint probabilities, and their relationships (including Bayes theorem as a completely trivial consequence). They are markedly superior to Venn diagrams for this purpose, especially in distinguishing probabilistic independence, mutually exclusive events, coincident events, and associations. They also are useful for identifying and understanding conditional independence structure. As data analysis tools, eikosograms display categorical data in a manner similar to Mosaic plots, especially when only two variates are involved (the only case in which they are essentially identical, though eikosograms purposely disallow spacing between rectangles). Unlike Mosaic plots, eikosograms do not alternate axes as each new categorical variate (beyond two) is introduced. Instead, only one categorical variate, designated the "response", presents on the vertical axis and all others, designated the "conditioning" variates, appear on the horizontal. In this way, conditional probability appears only as height and marginal probabilities as widths. The eikosogram is therefore much better suited to a response model analysis (e.g. logistic model) than is a Mosaic plot. Mosaic plots are better suited to log-linear style modelling as in discrete multivariate analysis. Of course, eikosograms are also suited to discrete multivariate analysis with each variate in turn appearing as the response. This makes it better suited than Mosaic plots to discrete graphical models based on conditional independence graphs (i.e. "Bayesian Networks" or "BayesNets"). The eikosogram and its superiority to Venn diagrams in teaching probability is described in W.H. Cherry and R.W. Oldford (2003) <https://math.uwaterloo.ca/~rwoldfor/papers/eikosograms/paper.pdf>, its value in exploring conditional independence structure and relation to graphical and log-linear models is described in R.W. Oldford (2003) <https://math.uwaterloo.ca/~rwoldfor/papers/eikosograms/independence/paper.pdf>, and a number of problems, puzzles, and paradoxes that are easily explained with eikosograms are given in R.W. Oldford (2003) <https://math.uwaterloo.ca/~rwoldfor/papers/eikosograms/examples/paper.pdf>.
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2025-09-22 |
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r-catencoders
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public |
Contains some commonly used categorical variable encoders, such as 'LabelEncoder' and 'OneHotEncoder'. Inspired by the encoders implemented in Python 'sklearn.preprocessing' package (see <http://scikit-learn.org/stable/modules/preprocessing.html>).
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2025-09-22 |
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jupyterlab-slideshow
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public |
A lightweight presentation mode for JupyterLab.
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2025-09-22 |
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lxml
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public |
Pythonic binding for the C libraries libxml2 and libxslt.
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2025-09-22 |
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r-glmnetutils
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public |
Provides a formula interface for the 'glmnet' package for elasticnet regression, a method for cross-validating the alpha parameter, and other quality-of-life tools.
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2025-09-22 |
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r-shinytitle
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public |
Enables the ability to change or flash the title of the browser window during a 'shiny' session.
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2025-09-22 |
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r-moreparty
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public |
Additions to 'party' package : tools for the interpretation of forests (surrogate trees, prototypes, etc.), feature selection (see Gregorutti et al (2017) <arXiv:1310.5726>, Hapfelmeier and Ulm (2013) <doi:10.1016/j.csda.2012.09.020>, Altmann et al (2010) <doi:10.1093/bioinformatics/btq134>) and parallelized versions of conditional forest and variable importance functions.
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2025-09-22 |
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cryptography
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public |
cryptography is a package designed to expose cryptographic primitives and recipes to Python developers.
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2025-09-22 |
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r-suncalcmeeus
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public |
Compute the position of the sun, and local solar time using Meeus' formulae. Compute day and/or night length using different twilight definitions or arbitrary sun elevation angles. This package is part of the 'r4photobiology' suite, Aphalo, P. J. (2015) <doi:10.19232/uv4pb.2015.1.14>. Algorithms from Meeus (1998, ISBN:0943396611).
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2025-09-22 |
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r-comics
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public |
Provided are Computational methods for Immune Cell-type Subsets, including:(1) DCQ (Digital Cell Quantifier) to infer global dynamic changes in immune cell quantities within a complex tissue; and (2) VoCAL (Variation of Cell-type Abundance Loci) a deconvolution-based method that utilizes transcriptome data to infer the quantities of immune-cell types, and then uses these quantitative traits to uncover the underlying DNA loci.
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2025-09-22 |
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r-scrm
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public |
A coalescent simulator that allows the rapid simulation of biological sequences under neutral models of evolution. Different to other coalescent based simulations, it has an optional approximation parameter that allows for high accuracy while maintaining a linear run time cost for long sequences. It is optimized for simulating massive data sets as produced by Next- Generation Sequencing technologies for up to several thousand sequences.
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2025-09-22 |
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r-spls
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public |
Provides functions for fitting a sparse partial least squares (SPLS) regression and classification (Chun and Keles (2010) <doi:10.1111/j.1467-9868.2009.00723.x>).
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2025-09-22 |
