r-cran-surveillance 1.16.2-1 source package in Ubuntu

Changelog

r-cran-surveillance (1.16.2-1) unstable; urgency=medium

  * New upstream version
  * Standards-Version: 4.1.5

 -- Andreas Tille <email address hidden>  Thu, 26 Jul 2018 12:27:51 +0200

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Uploaded by:
Debian R Packages Maintainers on 2018-07-26
Uploaded to:
Sid
Original maintainer:
Debian R Packages Maintainers
Architectures:
any
Section:
misc
Urgency:
Medium Urgency

See full publishing history Publishing

Series Pocket Published Component Section
Disco release on 2018-10-30 multiverse science
Cosmic release on 2018-07-27 multiverse science

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r-cran-surveillance_1.16.2-1.dsc 2.3 KiB 9b98979fb30b4fe6eef55bf59e2da451f15f07927ffafef52961fe3ae20fb533
r-cran-surveillance_1.16.2.orig.tar.gz 4.2 MiB d0a0d4a172aacf4e3777be576d4b9262f3b2fe27cb74d86e8f02eba7f4bfdccc
r-cran-surveillance_1.16.2-1.debian.tar.xz 5.0 KiB 5283b20c02c2501b0b740fa6e7f997e64e030d31419d650cb50632502ed39970

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Binary packages built by this source

r-cran-surveillance: GNU R package for the Modeling and Monitoring of Epidemic Phenomena

 Implementation of statistical methods for the modeling and change-point
 detection in time series of counts, proportions and categorical data, as
 well as for the modeling of continuous-time epidemic phenomena, e.g.,
 discrete-space setups such as the spatially enriched
 Susceptible-Exposed-Infectious-Recovered (SEIR) models, or
 continuous-space point process data such as the occurrence of infectious
 diseases. Main focus is on outbreak detection in count data time series
 originating from public health surveillance of communicable diseases,
 but applications could just as well originate from environmetrics,
 reliability engineering, econometrics or social sciences.
 .
 Currently, the package contains implementations of many typical
 outbreak detection procedures such as Farrington et al (1996), Noufaily
 et al (2012) or the negative binomial LR-CUSUM method described in Höhle
 and Paul (2008). A novel CUSUM approach combining logistic and
 multinomial logistic modelling is also included. Furthermore, inference
 methods for the retrospective infectious disease models in Held et al
 (2005), Held et al (2006), Paul et al (2008), Paul and Held (2011), Held
 and Paul (2012), and Meyer and Held (2014) are provided.
 .
 Continuous self-exciting spatio-temporal point processes are modeled
 through additive-multiplicative conditional intensities as described in
 Höhle (2009) ('twinSIR', discrete space) and Meyer et al (2012)
 ('twinstim', continuous space).
 .
 The package contains several real-world data sets, the ability to
 simulate outbreak data, visualize the results of the monitoring in
 temporal, spatial or spatio-temporal fashion.
 .
 Note: Using the 'boda' algorithm requires the 'INLA' package, which
 is available from <http://www.r-inla.org/download>.

r-cran-surveillance-dbgsym: debug symbols for r-cran-surveillance