r-cran-surveillance 1.22.1-2 source package in Ubuntu
Changelog
r-cran-surveillance (1.22.1-2) unstable; urgency=medium
* Drop Sebastian Carneiro from Uploaders since the e-mail address is
bouncing and there were no real uploads just one single contribution
in 2013
-- Andreas Tille <email address hidden> Mon, 11 Mar 2024 17:28:33 +0100
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- Uploaded by:
- Debian R Packages Maintainers
- Uploaded to:
- Sid
- Original maintainer:
- Debian R Packages Maintainers
- Architectures:
- any
- Section:
- misc
- Urgency:
- Medium Urgency
See full publishing history Publishing
| Series | Published | Component | Section | |
|---|---|---|---|---|
| Oracular | proposed | multiverse | science |
Downloads
| File | Size | SHA-256 Checksum |
|---|---|---|
| r-cran-surveillance_1.22.1-2.dsc | 2.5 KiB | 9d0305213e04fd03c672566291c7878194394fd792c0004a2070a832a9034d2d |
| r-cran-surveillance_1.22.1.orig.tar.gz | 3.7 MiB | 467f735decbb0eae2a27d6e65d0f436f871182e83eb36e0ae829e0b5b3f3b7be |
| r-cran-surveillance_1.22.1-2.debian.tar.xz | 6.0 KiB | 2d0d534483814fc5b18abcb847f4609afcd57173259c010ae1dd2ed680a02ad8 |
No changes file available.
Binary packages built by this source
- r-cran-surveillance: GNU R package for the Modeling and Monitoring of Epidemic Phenomena
Statistical methods for the modeling and monitoring of time series of
counts, proportions and categorical data, as well as for the modeling of
continuous-time point processes of epidemic phenomena.
.
The monitoring methods focus on aberration detection in count data time
series from public health surveillance of communicable diseases, but
applications could just as well originate from environmetrics,
reliability engineering, econometrics, or social sciences. The package
implements many typical outbreak detection procedures such as the
(improved) Farrington algorithm, or the negative binomial GLR-CUSUM
method of Höhle and Paul (2008) <doi:10.1016/j. csda.2008. 02.015> . A novel
CUSUM approach combining logistic and multinomial logistic modeling is
also included. The package contains several real-world data sets, the
ability to simulate outbreak data, and to visualize the results of the
monitoring in a temporal, spatial or spatio-temporal fashion. A recent
overview of the available monitoring procedures is given by Salmon et al.
(2016) <doi:10.18637/jss. v070.i10> .
.
For the retrospective analysis of epidemic spread, the package provides
three endemic-epidemic modeling frameworks with tools for visualization,
likelihood inference, and simulation. hhh4() estimates models for
(multivariate) count time series following Paul and Held (2011)
<doi:10.1002/sim. 4177> and Meyer and Held (2014)
<doi:10.1214/14- AOAS743> . twinSIR() models the
susceptible-infectious- recovered (SIR) event history of a fixed
population, e.g, epidemics across farms or networks, as a multivariate
point process as proposed by Höhle (2009) <doi:10.1002/bimj. 200900050> .
twinstim() estimates self-exciting point process models for a
spatio-temporal point pattern of infective events, e.g., time-stamped
geo-referenced surveillance data, as proposed by Meyer et al. (2012)
<doi:10.1111/j. 1541-0420. 2011.01684. x>. A recent overview of the
implemented space-time modeling frameworks for epidemic phenomena is
given by Meyer et al. (2017) <doi:10.18637/jss. v077.i11> .
- r-cran-surveillance-dbgsym: debug symbols for r-cran-surveillance
