A Python package to request and process seismic waveform data from NIED Hi-net.
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.. placeholder-for-doc-index
NIED Hi-net <https://www.hinet.bosai.go.jp/>
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Source Code <https://github.com/seisman/HinetPy>
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Documentation <https://seisman.github.io/HinetPy>
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中文文档 <https://seisman.github.io/HinetPy/zh_CN/>
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HinetPy <https://github.com/seisman/HinetPy>
_ is a Python package to request and
process seismic data from NIED Hi-net <https://www.hinet.bosai.go.jp/>
__.
Here is an example showing how to use HinetPy to request continuous waveform data from Hi-net, convert the data into SAC format, and extract instrumental responses as SAC polezero files.
.. code-block:: python
#!/usr/bin/env python
# -*- coding: utf-8 -*-
from HinetPy import Client, win32
# You need a Hi-net account to access the data
client = Client("username", "password")
# Let's try to request 20-minute data of the Hi-net network (with an internal
# network code of '0101') starting at 2010-01-01T00:00 (JST, GMT+0900)
data, ctable = client.get_continuous_waveform("0101", "201001010000", 20)
# The request and download process usually takes a few minutes
# waiting for data request ...
# waiting for data download ...
# Now you can see the data and corresponding channel table in your working directory
# waveform data (in win32 format) : 0101_201001010000_20.cnt
# channel table (plaintext file) : 0101_20100101.ch
# Let's convert data from win32 format to SAC format
win32.extract_sac(data, ctable)
# Let's extract instrument response as PZ files from the channel table file
win32.extract_sacpz(ctable)
# Now you can see several SAC and SAC_PZ files in your working directory
# N.NGUH.E.SAC N.NGUH.U.SAC N.NNMH.N.SAC
# N.NGUH.N.SAC N.NNMH.E.SAC N.NNMH.U.SAC
# ...
# N.NGUH.E.SAC_PZ N.NGUH.U.SAC_PZ N.NNMH.N.SAC_PZ
# N.NGUH.N.SAC_PZ N.NNMH.E.SAC_PZ N.NNMH.U.SAC_PZ
# ...
If you find this package useful, please consider citing via:
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This project is licensed under the terms of the MIT license.