Python calculateStatistics示例，resistics.project.statistics.calculateStatistics Python示例

示例#1

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文件： intersiteRun.py 项目： zhang01GA/resistics

fig.savefig(intersiteImages / "viewTime.png")

# calculate spectra
from resistics.project.spectra import calculateSpectra

calculateSpectra(proj, sites=["site1_mt"])
calculateSpectra(proj,
                 sites=["site2_te"],
                 chans=["Ex", "Ey"],
                 polreverse={"Ey": True})
proj.refresh()

# calculate statistics for MT site
from resistics.project.statistics import calculateStatistics

calculateStatistics(proj, sites=["site1_mt"])

# intersite
from resistics.project.transfunc import (
    processProject,
    processSite,
    viewImpedance,
)
from resistics.common.plot import plotOptionsTransferFunction, getPaperFonts

plotOptions = plotOptionsTransferFunction(figsize=(24, 12),
                                          plotfonts=getPaperFonts())
plotOptions["res_ylim"] = [1, 1000000]
processSite(
    proj,
    "site2_te",

示例#2

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文件： multiProc.py 项目： chenhaomagnetic/resistics

from datapaths import projectPath, imagePath
from resistics.project.io import loadProject
from resistics.project.spectra import calculateSpectra
from resistics.project.transfunc import processProject, viewImpedance
from resistics.project.statistics import calculateStatistics
from resistics.project.mask import newMaskData, calculateMask

if __name__ == "__main__":
    projData = loadProject(projectPath, "multiconfig.ini")

    # calculate spectrum using standard options
    calculateSpectra(projData)
    projData.refresh()
    calculateStatistics(projData)

    # process project with standard options
    processProject(projData)
    figs = viewImpedance(projData, oneplot=False, show=False, save=False)
    figs[0].savefig(imagePath / "multproc_standard_process")

    # calculate mask for 128
    maskData = newMaskData(projData, 128)
    maskData.setStats(["coherence"])
    maskData.addConstraint("coherence", {
        "cohExHy": [0.7, 1.0],
        "cohEyHx": [0.7, 1.0]
    })
    maskData.maskName = "coh70_100"
    calculateMask(projData, maskData, sites=["site1"])
    # calculate mask for 4096
    maskData = newMaskData(projData, 4096)

示例#3

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proj.refresh()
processProject(proj, sites=["M6", "Remote"])
figs = viewImpedance(
    proj,
    sites=["M6", "Remote"],
    sampleFreqs=[128],
    oneplot=False,
    plotoptions=plotOptions,
    save=False,
    show=False,
)
figs[0].savefig(remoteImages / "singleSiteM6_128_man8_5.png")
figs[1].savefig(remoteImages / "singleSiteRemote_128_man8_5.png")

# calculate the statistic we are interested in
calculateStatistics(proj, sites=["M6", "Remote"], sampleFreqs=[128])
calculateRemoteStatistics(proj, "Remote", sites=["M6"], sampleFreqs=[128])

# generate single site masks
maskData = newMaskData(proj, 128)
maskData.setStats(["coherence"])
maskData.addConstraint("coherence", {
    "cohExHy": [0.8, 1.0],
    "cohEyHx": [0.8, 1.0]
})
# finally, lets give maskData a name, which will relate to the output file
maskData.maskName = "coh_80_100"
calculateMask(proj, maskData, sites=["M6", "Remote"])
maskData.printInfo()

# process remote on its own to compare to the first processing we did

示例#4

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from datapaths import projectPath, imagePath
from resistics.project.io import loadProject

# need the project path for loading
projData = loadProject(projectPath)

# get default statistic names
from resistics.statistics.utils import getStatNames

stats, remotestats = getStatNames()

# calculate statistics
from resistics.project.statistics import calculateStatistics

calculateStatistics(projData, stats=stats)

# calculate statistics for a different spectra directory
# load the project with the tutorial configuration file
projData = loadProject(projectPath, configFile="tutorialConfig.ini")
projData.printInfo()
calculateStatistics(projData, stats=stats)

# to get statistic data, we need the site, the measurement and the statistic we want
from resistics.project.statistics import getStatisticData

# coherence statistic data
statData = getStatisticData(projData,
                            "site1",
                            "meas_2012-02-10_11-30-00",
                            "coherence",
                            declevel=0)

示例#5

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文件： remoteHighFreq.py 项目： zhang01GA/resistics

from datapaths import remotePath
from resistics.project.io import loadProject
from resistics.project.spectra import calculateSpectra
from resistics.project.transfunc import processProject, viewImpedance
from resistics.project.statistics import (
    calculateStatistics,
    calculateRemoteStatistics,
    viewStatistic,
)
from resistics.project.mask import newMaskData, calculateMask

projData = loadProject(remotePath, "remoteConfig.ini")

calculateStatistics(projData,
                    sites=["M6"],
                    sampleFreqs=[512, 4096, 16384, 65536])
# generate mask
for fs in [512, 4096, 16384, 65536]:
    maskData = newMaskData(projData, fs)
    maskData.setStats(["coherence"])
    maskData.addConstraint("coherence", {
        "cohExHy": [0.8, 1.0],
        "cohEyHx": [0.8, 1.0]
    })
    # finally, lets give maskData a name, which will relate to the output file
    maskData.maskName = "coh_80_100"
    calculateMask(projData, maskData, sites=["M6"])
    maskData.printInfo()

processProject(
    projData,

示例#6

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文件： processConfig.py 项目： zhang01GA/resistics

from datapaths import projectPath, imagePath
from resistics.project.io import loadProject

proj = loadProject(projectPath, "customconfig.ini")
proj.printInfo()

from resistics.project.spectra import calculateSpectra
from resistics.project.statistics import calculateStatistics
from resistics.project.transfunc import processProject, viewImpedance
from resistics.common.plot import plotOptionsTransferFunction, getPaperFonts

calculateSpectra(proj)
proj.refresh()
calculateStatistics(proj)
processProject(proj)
plotOptions = plotOptionsTransferFunction(figsize=(24, 12),
                                          plotfonts=getPaperFonts())
plotOptions["res_ylim"] = [1, 1000000]
figs = viewImpedance(proj,
                     oneplot=False,
                     plotoptions=plotOptions,
                     show=False,
                     save=False)
figs[0].savefig(imagePath / "impedance_config.png")

# now try again with some statistics for the dead band
from resistics.project.mask import newMaskData, calculateMask

maskData = newMaskData(proj, 500)
maskData.setStats(["coherence"])
maskData.addConstraintLevel("coherence", {

示例#7

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文件： remoteRun.py 项目： zhang01GA/resistics

               remotesite="Remote",
               postpend="rr")
figs = viewImpedance(
    proj,
    sites=["M6"],
    postpend="rr",
    oneplot=False,
    plotoptions=plotOptions,
    show=False,
    save=False,
)
figs[0].savefig(remoteImages / "remoteReferenceM6.png")

# let's calculate some single site statistics
calculateStatistics(proj,
                    sites=["M6", "Remote"],
                    stats=["coherence", "transferFunction"])

# calculate masks
maskData = newMaskData(proj, 128)
maskData.setStats(["coherence"])
maskData.addConstraint("coherence", {
    "cohExHy": [0.8, 1.0],
    "cohEyHx": [0.8, 1.0]
})
maskData.maskName = "coh80_100"
maskData.printInfo()
maskData.printConstraints()
# calculate
calculateMask(proj, maskData, sites=["M6", "Remote"])

示例#8

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文件： calculateStatistics.py 项目： zhang01GA/resistics

from datapaths import projectPath
from resistics.project.io import loadProject

proj = loadProject(projectPath)
proj.printInfo()

# calculate statistics
from resistics.project.spectra import calculateSpectra
from resistics.project.statistics import calculateStatistics, calculateRemoteStatistics
from resistics.statistics.utils import getStatNames

calculateSpectra(proj)
proj.refresh()
stats, remotestats = getStatNames()
calculateStatistics(proj, stats=stats)
calculateRemoteStatistics(proj,
                          "Remote_M1",
                          sites=["M1"],
                          remotestats=remotestats)