README.md
In ArchaeoStat/ArchaeoPhases: Post-Processing of Markov Chain Monte Carlo Simulations for Chronological Modelling
ArchaeoPhases
Overview
Statistical analysis of archaeological dates and groups of dates.
ArchaeoPhases allows to post-process Markov Chain Monte Carlo (MCMC)
simulations from ChronoModel (Lanos et al.
2020), Oxcal (Bronk Ramsey 2009)
or BCal (Buck, Christen, and James 1999).
This package provides functions for the study of rhythms of the long
term from the posterior distribution of a series of dates (tempo and
activity plot). It also allows the estimation and visualization of time
ranges from the posterior distribution of groups of dates
(e.g. duration, transition and hiatus between successive phases).
ArchaeoPhases v2.0 brings a comprehensive package rewrite, resulting
in the renaming of nearly all functions. For more information, please
refer to news(Version >= "2.0", package = "ArchaeoPhases").
To cite ArchaeoPhases in publications use:
Philippe A, Vibet M (2020). "Analysis of Archaeological Phases Using
the R Package ArchaeoPhases." _Journal of Statistical Software, Code
Snippets_, *93*(1). doi:10.18637/jss.v093.c01
<https://doi.org/10.18637/jss.v093.c01>.
Philippe A, Vibet M, Dye T, Frerebeau N (2023). _ArchaeoPhases:
Post-Processing of Markov Chain Monte Carlo Simulations for
Chronological Modelling_. Université de Nantes, Nantes, France.
doi:10.5281/zenodo.8087121 <https://doi.org/10.5281/zenodo.8087121>,
R package version 2.0,
<https://ArchaeoStat.github.io/ArchaeoPhases/>.
Installation
You can install the released version of ArchaeoPhases from
CRAN with:
install.packages("ArchaeoPhases")
And the development version from GitHub with:
# install.packages("remotes")
remotes::install_github("ArchaeoStat/ArchaeoPhases")
You can install the 1.x releases from the CRAN archives:
# install.packages("remotes")
remotes::install_version("ArchaeoPhases", version = "1.8")
Usage
ArchaeoPhases v2.0 uses
aion for internal date
representation. Look at vignette("aion", package = "aion") before you
start.
These examples use data available through the
ArchaeoData package
which is available in a separate
repository. ArchaeoData
provides MCMC outputs from ChronoModel, OxCal and BCal.
## Install data package
install.packages("ArchaeoData", repos = "https://archaeostat.r-universe.dev")
## Load package
library(ArchaeoPhases)
Import a CSV file containing a sample from the posterior distribution:
## Construct the paths to the data
path <- file.path("chronomodel", "ksarakil")
path_event <- system.file(path, "Chain_all_Events.csv", package = "ArchaeoData")
path_phase <- system.file(path, "Chain_all_Phases.csv", package = "ArchaeoData")
## Read events from ChronoModel
(chrono_events <- read_chronomodel_events(path_event))
#> <EventsMCMC>
#> - Number of events: 16
#> - Number of MCMC samples: 30000
## Read phases from ChronoModel
(chrono_phases <- read_chronomodel_phases(path_phase))
#> <PhasesMCMC>
#> - Number of phases: 4
#> - Number of MCMC samples: 30000
Analysis of a series of dates
## Plot the first event
plot(chrono_events[, 1], interval = "hdr")
## Plot all events
plot(chrono_events)
## Tempo plot
tp <- tempo(chrono_events, level = 0.95)
plot(tp)
## Activity plot
ac <- activity(chrono_events)
plot(ac)
Analysis of a group of dates (phase)
bound <- boundaries(chrono_phases, level = 0.95)
as.data.frame(bound)
#> start end duration
#> EPI -28978.53 -26969.82 2009.709
#> UP -38570.37 -29368.75 9202.620
#> Ahmarian -42168.47 -37433.31 4736.161
#> IUP -43240.37 -41161.00 2080.371
## Plot all phases
plot(chrono_phases)
plot(chrono_phases[, c("UP", "EPI"), ], succession = "hiatus")
plot(chrono_phases[, c("UP", "EPI"), ], succession = "transition")
Translation
This package provides translations of user-facing communications, like
messages, warnings and errors, and graphical elements (axis labels). The
preferred language is by default taken from the locale. This can be
overridden by setting of the environment variable LANGUAGE (you only
need to do this once per session):
Sys.setenv(LANGUAGE = "<language code>")
Languages currently available are English (en) and French (fr).
References
Allen, James F. 1983. “Maintaining Knowledge about Temporal Intervals.”
*Communications of the ACM* 26 (11): 832–43.
.
Bosch, Marjolein D., Marcello A. Mannino, Amy L. Prendergast, Tamsin C.
O’Connell, Beatrice Demarchi, Sheila M. Taylor, Laura Niven, Johannes
van der Plicht, and Jean-Jacques Hublin. 2015. “New Chronology for Ksâr
‘Akil (Lebanon) Supports Levantine Route of Modern Human Dispersal into
Europe.” *Proceedings of the National Academy of Sciences* 112 (25):
7683–88. .
Bronk Ramsey, Christopher. 2009. “Bayesian Analysis of Radiocarbon
Dates.” *Radiocarbon* 51 (1): 337–60.
.
Buck, C. E., J. A. Christen, and G. E. James. 1999. “BCal: An on-Line
Bayesian Radiocarbon Calibration Tool.” *Internet Archaeology* 7.
.
Dye, Thomas S. 2016. “Long-Term Rhythms in the Development of Hawaiian
Social Stratification.” *Journal of Archaeological Science* 71 (July):
1–9. .
Dye, Thomas S., Caitlin E. Buck, Robert J. DiNapoli, and Anne Philippe.
2023. “Bayesian Chronology Construction and Substance Time.” *Journal of
Archaeological Science* 153: 105765.
https://doi.org/.
Ghosh, Sambit, Prasanta Sanyal, Sohom Roy, Ravi Bhushan, Sp Sati, Anne
Philippe, and Navin Juyal. 2020. “Early Holocene Indian Summer Monsoon
and Its Impact on Vegetation in the Central Himalaya: Insight from
dD and d 13 C Values of Leaf Wax
Lipid.” *The Holocene* 30 (7): 1063–74.
.
Harris, Edward C. 1997. *Principles of Archaeological Stratigraphy*.
Seconde édition. London: Academic Press.
Hyndman, Rob J. 1996. “Computing and Graphing Highest Density Regions.”
*The American Statistician* 50 (2): 120.
.
Jha, Deepak Kumar, Prasanta Sanyal, and Anne Philippe. 2020.
“Multi-Proxy Evidence of Late Quaternary Climate and Vegetational
History of North-Central India: Implication for the Paleolithic to
Neolithic Phases.” *Quaternary Science Reviews* 229 (February): 106121.
.
Lanos, Ph., A. Philippe, H. Lanos, and Ph. Dufresne. 2020. “Chronomodel:
Chronological Modeling of Archaeological Data Using Bayesian
Statistics.” CNRS. .
Lyman, R. Lee, and Michael J. O’Brien. 2017. “Sedation and Cladistics:
The Difference Between Anagenetic and Cladogenetic Evolution.” In
*Mapping Our Ancestors: Phylogenetic Approaches in Anthropology and
Prehistory*, edited by Carl P. Lipo, Michael J. O’Brien, Mark Couard,
and Stephen J. Shennan. New York: Routledge.
.
Philippe, Anne, and Marie-Anne Vibet. 2020. “Analysis of Archaeological
Phases Using the R Package ArchaeoPhases.” *Journal of Statistical
Software* 93. .
Robert, Christian P., and George Casella. 2010. *Introducing Monte Carlo
Methods with R*. Use R! New York: Springer.
Viola, Tullio. 2020. *Peirce on the Uses of History*. De Gruyter.
.
ArchaeoStat/ArchaeoPhases documentation built on Jan. 19, 2025, 2:33 p.m.
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
ArchaeoPhases
Overview
Statistical analysis of archaeological dates and groups of dates. ArchaeoPhases allows to post-process Markov Chain Monte Carlo (MCMC) simulations from ChronoModel (Lanos et al. 2020), Oxcal (Bronk Ramsey 2009) or BCal (Buck, Christen, and James 1999). This package provides functions for the study of rhythms of the long term from the posterior distribution of a series of dates (tempo and activity plot). It also allows the estimation and visualization of time ranges from the posterior distribution of groups of dates (e.g. duration, transition and hiatus between successive phases).
ArchaeoPhases v2.0 brings a comprehensive package rewrite, resulting
in the renaming of nearly all functions. For more information, please
refer to news(Version >= "2.0", package = "ArchaeoPhases").
To cite ArchaeoPhases in publications use:
Philippe A, Vibet M (2020). "Analysis of Archaeological Phases Using
the R Package ArchaeoPhases." _Journal of Statistical Software, Code
Snippets_, *93*(1). doi:10.18637/jss.v093.c01
<https://doi.org/10.18637/jss.v093.c01>.
Philippe A, Vibet M, Dye T, Frerebeau N (2023). _ArchaeoPhases:
Post-Processing of Markov Chain Monte Carlo Simulations for
Chronological Modelling_. Université de Nantes, Nantes, France.
doi:10.5281/zenodo.8087121 <https://doi.org/10.5281/zenodo.8087121>,
R package version 2.0,
<https://ArchaeoStat.github.io/ArchaeoPhases/>.
Installation
You can install the released version of ArchaeoPhases from CRAN with:
install.packages("ArchaeoPhases")
And the development version from GitHub with:
# install.packages("remotes")
remotes::install_github("ArchaeoStat/ArchaeoPhases")
You can install the 1.x releases from the CRAN archives:
# install.packages("remotes")
remotes::install_version("ArchaeoPhases", version = "1.8")
Usage
ArchaeoPhases v2.0 uses
aion for internal date
representation. Look at vignette("aion", package = "aion") before you
start.
These examples use data available through the ArchaeoData package which is available in a separate repository. ArchaeoData provides MCMC outputs from ChronoModel, OxCal and BCal.
## Install data package
install.packages("ArchaeoData", repos = "https://archaeostat.r-universe.dev")
## Load package
library(ArchaeoPhases)
Import a CSV file containing a sample from the posterior distribution:
## Construct the paths to the data
path <- file.path("chronomodel", "ksarakil")
path_event <- system.file(path, "Chain_all_Events.csv", package = "ArchaeoData")
path_phase <- system.file(path, "Chain_all_Phases.csv", package = "ArchaeoData")
## Read events from ChronoModel
(chrono_events <- read_chronomodel_events(path_event))
#> <EventsMCMC>
#> - Number of events: 16
#> - Number of MCMC samples: 30000
## Read phases from ChronoModel
(chrono_phases <- read_chronomodel_phases(path_phase))
#> <PhasesMCMC>
#> - Number of phases: 4
#> - Number of MCMC samples: 30000
Analysis of a series of dates
## Plot the first event
plot(chrono_events[, 1], interval = "hdr")
## Plot all events
plot(chrono_events)
## Tempo plot
tp <- tempo(chrono_events, level = 0.95)
plot(tp)
## Activity plot
ac <- activity(chrono_events)
plot(ac)
Analysis of a group of dates (phase)
bound <- boundaries(chrono_phases, level = 0.95)
as.data.frame(bound)
#> start end duration
#> EPI -28978.53 -26969.82 2009.709
#> UP -38570.37 -29368.75 9202.620
#> Ahmarian -42168.47 -37433.31 4736.161
#> IUP -43240.37 -41161.00 2080.371
## Plot all phases
plot(chrono_phases)
plot(chrono_phases[, c("UP", "EPI"), ], succession = "hiatus")
plot(chrono_phases[, c("UP", "EPI"), ], succession = "transition")
Translation
This package provides translations of user-facing communications, like
messages, warnings and errors, and graphical elements (axis labels). The
preferred language is by default taken from the locale. This can be
overridden by setting of the environment variable LANGUAGE (you only
need to do this once per session):
Sys.setenv(LANGUAGE = "<language code>")
Languages currently available are English (en) and French (fr).
References
Allen, James F. 1983. “Maintaining Knowledge about Temporal Intervals.”
*Communications of the ACM* 26 (11): 832–43.
.
Bosch, Marjolein D., Marcello A. Mannino, Amy L. Prendergast, Tamsin C.
O’Connell, Beatrice Demarchi, Sheila M. Taylor, Laura Niven, Johannes
van der Plicht, and Jean-Jacques Hublin. 2015. “New Chronology for Ksâr
‘Akil (Lebanon) Supports Levantine Route of Modern Human Dispersal into
Europe.” *Proceedings of the National Academy of Sciences* 112 (25):
7683–88. .
Bronk Ramsey, Christopher. 2009. “Bayesian Analysis of Radiocarbon
Dates.” *Radiocarbon* 51 (1): 337–60.
.
Buck, C. E., J. A. Christen, and G. E. James. 1999. “BCal: An on-Line
Bayesian Radiocarbon Calibration Tool.” *Internet Archaeology* 7.
.
Dye, Thomas S. 2016. “Long-Term Rhythms in the Development of Hawaiian
Social Stratification.” *Journal of Archaeological Science* 71 (July):
1–9. .
Dye, Thomas S., Caitlin E. Buck, Robert J. DiNapoli, and Anne Philippe.
2023. “Bayesian Chronology Construction and Substance Time.” *Journal of
Archaeological Science* 153: 105765.
https://doi.org/.
Ghosh, Sambit, Prasanta Sanyal, Sohom Roy, Ravi Bhushan, Sp Sati, Anne
Philippe, and Navin Juyal. 2020. “Early Holocene Indian Summer Monsoon
and Its Impact on Vegetation in the Central Himalaya: Insight from
dD and d 13 C Values of Leaf Wax
Lipid.” *The Holocene* 30 (7): 1063–74.
.
Harris, Edward C. 1997. *Principles of Archaeological Stratigraphy*.
Seconde édition. London: Academic Press.
Hyndman, Rob J. 1996. “Computing and Graphing Highest Density Regions.”
*The American Statistician* 50 (2): 120.
.
Jha, Deepak Kumar, Prasanta Sanyal, and Anne Philippe. 2020.
“Multi-Proxy Evidence of Late Quaternary Climate and Vegetational
History of North-Central India: Implication for the Paleolithic to
Neolithic Phases.” *Quaternary Science Reviews* 229 (February): 106121.
.
Lanos, Ph., A. Philippe, H. Lanos, and Ph. Dufresne. 2020. “Chronomodel:
Chronological Modeling of Archaeological Data Using Bayesian
Statistics.” CNRS. .
Lyman, R. Lee, and Michael J. O’Brien. 2017. “Sedation and Cladistics:
The Difference Between Anagenetic and Cladogenetic Evolution.” In
*Mapping Our Ancestors: Phylogenetic Approaches in Anthropology and
Prehistory*, edited by Carl P. Lipo, Michael J. O’Brien, Mark Couard,
and Stephen J. Shennan. New York: Routledge.
.
Philippe, Anne, and Marie-Anne Vibet. 2020. “Analysis of Archaeological
Phases Using the R Package ArchaeoPhases.” *Journal of Statistical
Software* 93. .
Robert, Christian P., and George Casella. 2010. *Introducing Monte Carlo
Methods with R*. Use R! New York: Springer.
Viola, Tullio. 2020. *Peirce on the Uses of History*. De Gruyter.
.
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