Package: HydroMe
Type: Package
Title: R codes for estimating water retention and infiltration model
parameters using experimental data
Version: 2.0
Depends: R (>= 2.10), nlme, minpack.lm
Date: 2013-04-29
Author: Christian Thine Omuto
Maintainer: Christian Thine Omuto <thineomuto@yahoo.com>
Description: This package is version 2 of HydroMe v.1 package. It
estimates the parameters in infiltration and water retention
models by curve-fitting method. The models considered are those
that are commonly used in soil science. It has new models for
water retention characteristic curve and debugging of errors in
HydroMe v.1
License: GPL (>= 2)
URL: http://www.r-project.org
http://archive.uonbi.ac.ke/profiles/research_description.php?height=250&width=400&id=%206000023%20title=
Packaged: 2013-05-03 18:18:27 UTC; SONY VIAO
NeedsCompilation: no
Repository: CRAN
Date/Publication: 2013-05-04 00:08:43
Package: Ritc
Type: Package
Title: Isothermal Titration Calorimetry (ITC) Data Analysis
Version: 1.0.1
Author: Yingyun Liu
Maintainer: Yingyun Liu <yingyun@comcast.net>
Depends: minpack.lm
Description: This package implements the simulation and regression of
integrated Isothermal Titration Calorimetry (ITC) data using
the most commonly used one-to-one binding reaction model.
License: GPL-3
Packaged: 2013-03-29 15:44:31 UTC; Liu
Repository: CRAN
Date/Publication: 2013-03-29 18:40:58
NeedsCompilation: no
Package: AquaEnv
Version: 1.0-3
Date: 2012-08-08
Title: AquaEnv - an integrated development toolbox for aquatic chemical
model generation
Author: Andreas F. Hofmann, Karline Soetaert, Filip J.R. Meysman
Maintainer: Andreas F. Hofmann <a.hofmann.nioo@gmail.com>
Depends: minpack.lm, deSolve
Description: AquaEnv is an integrated development toolbox for aquatic
chemical model generation focused on (ocean) acidification and
CO2 air-water exchange. It contains all elements necessary to
model the pH, the related CO2 air-water exchange, as well as
aquatic acid-base chemistry in general for an arbitrary marine,
estuarine or freshwater system. Also chemical batches can be
modelled. Next to the routines necessary to calculate desired
information, AquaEnv also contains a suite of tools to
visualize this information. Furthermore, AquaEnv can not only
be used to build dynamic models of aquatic systems, but it can
also serve as a simple desktop tool for the experimental
aquatic chemist to generate and visualize all possible derived
information from a set of measurements with one single easy to
use R function. Additionally, the sensitivity of the system to
variations in the input variables can be visualized. The
corresponding publication in Aquatic Geochemistry can be found
at http://www.springerlink.com/content/l4747417w0k50463/
License: GPL (>= 2)
LazyData: yes
Packaged: 2012-08-08 09:23:56 UTC; orlando
Repository: CRAN
Date/Publication: 2012-08-08 09:45:38
Package: cellVolumeDist
Type: Package
Title: Functions to fit cell volume distributions and thereby estimate
cell growth rates and division times
Version: 1.3
Author: Katharine M. Mullen, Michael Halter, John Lu and Nathan Dodder
Maintainer: Katharine M. Mullen <katharine.mullen@stat.ucla.edu>
Depends: minpack.lm (>= 1.1-1), gplots
Description: This package implements a methodology for using cell
volume distributions to estimate cell growth rates and division
times that is described in the paper entitled "Cell Volume
Distributions Reveal Cell Growth Rates and Division Times", by
Michael Halter, John T. Elliott, Joseph B. Hubbard, Alessandro
Tona and Anne L. Plant, which is in press in the Journal of
Theoretical Biology. In order to reproduce the analysis used
to obtain Table 1 in the paper, execute the command
"example(fitVolDist)".
License: GPL (>= 2)
Packaged: 2013-12-18 17:18:46 UTC; kmm
NeedsCompilation: no
Repository: CRAN
Date/Publication: 2013-12-18 18:39:30
Package: tumgr
Type: Package
Title: Tumor Growth Rate Analysis
Version: 0.0.4
Date: 2016-02-03
Author: Julia Wilkerson
Maintainer: Julia Wilkerson <jmwilkers@outlook.com>
URL: https://wilkersj.shinyapps.io/tumgrShiny,
http://wilkersj.github.io/tumgr,
https://github.com/wilkersj/tumgr
Depends: R (>= 3.1.0), minpack.lm
Description: A tool to obtain tumor growth rates from clinical trial patient data. Output includes individual and summary data for tumor growth rate estimates as well as optional plots of the observed and predicted tumor quantity over time.
LazyData: true
License: MIT + file LICENSE
Suggests: testthat
NeedsCompilation: no
Packaged: 2016-02-04 00:23:48 UTC; Julia
Repository: CRAN
Date/Publication: 2016-02-04 11:36:54