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kitagawa

Theoretical spectral response of a water well to harmonic strains

https://github.com/abarbour/kitagawa

Science Score: 49.0%

This score indicates how likely this project is to be science-related based on various indicators:

  • CITATION.cff file
  • codemeta.json file
    Found codemeta.json file
  • .zenodo.json file
    Found .zenodo.json file
  • DOI references
    Found 12 DOI reference(s) in README
  • Academic publication links
  • Committers with academic emails
    1 of 3 committers (33.3%) from academic institutions
  • Institutional organization owner
  • JOSS paper metadata
  • Scientific vocabulary similarity
    Low similarity (13.8%) to scientific vocabulary

Keywords

cran harmonic-strains r seismic-waves seismometer strain strainmeter water-level water-well

Keywords from Contributors

multitaper power-spectral-density power-spectrum psd spectral-density-estimates spectrum
Last synced: 6 months ago · JSON representation

Repository

Theoretical spectral response of a water well to harmonic strains

Basic Info
Statistics
  • Stars: 3
  • Watchers: 1
  • Forks: 2
  • Open Issues: 0
  • Releases: 0
Topics
cran harmonic-strains r seismic-waves seismometer strain strainmeter water-level water-well
Created over 13 years ago · Last pushed 6 months ago
Metadata Files
Readme

README.md

kitagawa

Tools to calculate the theoretical spectral response of fluid-pressure in a water well to harmonic strains (e.g., tides, long-period seismic waves).

<!-- badges: start --> R-CMD-check Code Coverage Downloads License <!-- badges: end -->

Models of spectral response

This code calculates the response at two types of wells: a sealed well and an open well (exposed to atmosphere).

Sealed Well

The theoretical model for a sealed well, where fluids are isolated from atmospheric pressure, responding to dilational strains from seismic waves is from Kitagawa, et al. (2011) which this package is named after.

Open Well

The first theoretical model for a sealed well responding to seismic displacements is from Cooper, et al. (1965).

This package also includes support for the models in Hsieh, et al. (1987). Rojstaczer (1988), and Liu, et al. (1989), which are based on various sources (i.e., tides, atmospheric pressure, and seismic waves). Wang, et al. (2018) modifies these solutions to include leakage.

Getting Started

You can install the package via CRAN from within the R environment:

install.packages("kitagawa")

Load the package library and take a look at the vignettes:

library(kitagawa)
vignette(package='kitagawa')

Installing the Development Version

Should you wish to install the development version of this software, the remotes library will be useful:

library(remotes)
remotes::install_github("abarbour/kitagawa")

Owner

  • Name: Andy Barbour
  • Login: abarbour
  • Kind: user
  • Location: Menlo Park, CA
  • Company: @usgs

GitHub Events

Total
  • Push event: 4
  • Create event: 1
Last Year
  • Push event: 4
  • Create event: 1

Committers

Last synced: 7 months ago

All Time
  • Total Commits: 177
  • Total Committers: 3
  • Avg Commits per committer: 59.0
  • Development Distribution Score (DDS): 0.107
Past Year
  • Commits: 0
  • Committers: 0
  • Avg Commits per committer: 0.0
  • Development Distribution Score (DDS): 0.0
Top Committers
Name Email Commits
Andy Barbour a****r@g****m 158
jkennel j****l@u****a 11
Andy Barbour a****r@u****u 8
Committer Domains (Top 20 + Academic)
ucsd.edu: 1 uoguelph.ca: 1

Issues and Pull Requests

Last synced: 6 months ago

All Time
  • Total issues: 0
  • Total pull requests: 3
  • Average time to close issues: N/A
  • Average time to close pull requests: about 10 hours
  • Total issue authors: 0
  • Total pull request authors: 1
  • Average comments per issue: 0
  • Average comments per pull request: 0.67
  • Merged pull requests: 2
  • Bot issues: 0
  • Bot pull requests: 0
Past Year
  • Issues: 0
  • Pull requests: 0
  • Average time to close issues: N/A
  • Average time to close pull requests: N/A
  • Issue authors: 0
  • Pull request authors: 0
  • Average comments per issue: 0
  • Average comments per pull request: 0
  • Merged pull requests: 0
  • Bot issues: 0
  • Bot pull requests: 0
View more stats
Top Authors
Issue Authors
Pull Request Authors
  • jkennel (3)
Top Labels
Issue Labels
Pull Request Labels

Packages

  • Total packages: 1
  • Total downloads:
    • cran 291 last-month
  • Total docker downloads: 42,005
  • Total dependent packages: 0
  • Total dependent repositories: 0
  • Total versions: 7
  • Total maintainers: 1
cran.r-project.org: kitagawa

Spectral Response of Water Wells to Harmonic Strain and Pressure Signals

  • Versions: 7
  • Dependent Packages: 0
  • Dependent Repositories: 0
  • Downloads: 291 Last month
  • Docker Downloads: 42,005
Rankings
Forks count: 17.8%
Stargazers count: 26.2%
Dependent packages count: 29.8%
Average: 31.6%
Dependent repos count: 35.5%
Downloads: 49.0%
Maintainers (1)
andy.barbour@gmail.com
Last synced: 6 months ago

Dependencies

DESCRIPTION cran
  • R >= 2.10.1 depends
  • stats * depends
  • Bessel * imports
  • kelvin >= 1.2.0 imports
  • psd >= 2.0.0 imports
  • RColorBrewer * suggests
  • covr * suggests
  • dplyr * suggests
  • formatR * suggests
  • knitr * suggests
  • rmarkdown * suggests
  • signal * suggests
  • testthat * suggests
  • tibble * suggests
.github/workflows/R-CMD-check.yaml actions
  • actions/checkout v3 composite
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  • r-lib/actions/setup-pandoc v2 composite
  • r-lib/actions/setup-r v2 composite
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  • r-lib/actions/setup-tinytex v2 composite
.github/workflows/test-coverage.yaml actions
  • actions/checkout v3 composite
  • actions/upload-artifact v3 composite
  • r-lib/actions/setup-r v2 composite
  • r-lib/actions/setup-r-dependencies v2 composite