ndbc-api 0.24.1.6.1

A Python API for the National Data Buoy Center.

NDBC API

A Python API for the National Data Buoy Center

The National Oceanic and Atmospheric Association's National Data Buoy Center maintains marine monitoring and observation stations around the world^1. These stations report atmospheric, oceanographic, and other meterological data at regular intervals to the NDBC. Measurements are made available over HTTP through the NDBC's data service.

The ndbc-api is a python library that makes this data more widely accessible.

The ndbc-api is primarily built to parse whitespace-delimited oceanographic and atmospheric data distributed as text files for available time ranges, on a station-by-station basis^2. Measurements are typically distributed as utf-8 encoded, station-by-station, fixed-period text files. More information on the measurements and methodology are available on the NDBC website^3.

Please see the included example notebook for a more detailed walkthrough of the API's capabilities.

Installation

The ndbc-api can be installed via PIP:

pip install ndbc-api

Requirements

The ndbc-api has been tested on Python 3.6, 3.7, 3.8, 3.9, and 3.10. Python 2 support is not currently planned, but could be implemented based on the needs of the atmospheric research community.

The API uses synchronous HTTP requests to compile data matching the user-supplied parameters. The ndbc-api package depends on:

• requests>=2.10.0
• pandas
• bs4
• html5lib>=1.1

Development

If you would like to contribute to the growth and maintenance of the ndbc-api, please feel free to open a PR with tests covering your changes. The tests leverage pytest and depend on the above requirements, as well as:

• coveralls
• httpretty
• pytest
• pytest-cov
• pyyaml
• pyarrow

Breaking changes will be considered, especially in the current alpha state of the package on PyPi. As the API further matures, breaking changes will only be considered with new major versions (e.g. N.0.0).

Example

The ndbc-api exposes public methods through the NdbcApi class.

from ndbc_api import NdbcApi

api = NdbcApi()

The api is a singleton, such that the underlying RequestHandler and NDBC station-level RequestCaches are shared between instances. Both the singleton metaclass and RequestHandler are implemented to reduce the likelihood of repeat requests to the NDBC's data service, and to converse NDBC resources. This is balanced by a station-level cache_limit, implemented as an LRU cache, which seeks to respect user resources.

Data made available by the NDBC falls into two broad catagories.

1. Station metadata
2. Station measurements

The api supports a range of public methods for accessing data from the above catagories.

Station metadata

The api has five key public methods for accessing NDBC metadata.

1. The stations method, which returns all NDBC stations.
2. The nearest_staion method, which returns the station ID of the nearest station.
3. The station method, which returns station metadata from a given station ID.
4. The available_realtime method, which returns hyperlinks and measurement names for realtime measurements captured by a given station.
5. The available_historical method, which returns hyperlinks and measurement names for historical measurements captured by a given station.

stations

# get all stations and some metadata as a Pandas DataFrame
stations_df = api.stations()
# parse the response as a dictionary
stations_dict = api.stations(as_df=False)

nearest_station

# specify desired latitude and longitude
lat = '38.88N'
lon = '76.43W'

# find the station ID of the nearest NDBC station
nearest = api.nearest_station(lat=lat, lon=lon)
print(nearest_station)

'tplm2'

station

# get staion metadata
tplm2_meta = api.station(station_id='tplm2')
# parse the response as a Pandas DataFrame
tplm2_df = api.station(station_id='tplm2', as_df=True)

available_realtime

# get all available realtime measurements, periods, and hyperlinks
tplm2_realtime = api.available_realtime(station_id='tplm2')
# parse the response as a Pandas DataFrame
tplm2_realtime_df = api.available_realtime(station_id='tplm2', as_df=True)

available_historical

# get all available historical measurements, periods, and hyperlinks
tplm2_historical = api.available_historical(station_id='tplm2')
# parse the response as a Pandas DataFrame
tplm2_historical_df = api.available_historical(station_id='tplm2', as_df=True)

Station measurements

The api has two public method which support accessing supported NDBC station measurements.

1. The get_modes method, which returns a list of supported modes, coresponding to the data formats provided by the NDBC data service.

Note that not all stations provide the same set of measurements. The available_realtime and available_historical methods can be called on a station-by station basis to ensure a station has the desired data available, before building and executing requests with get_data.

2. The get_data method, which returns measurements of a given type for a given station.

get_modes

# get the list of supported meterological measurement modes
modes = api.get_modes()
print(modes)

[
    'adcp',
    'cwind',
    'ocean',
    'spec',
    'stdmet',
    'supl',
    'swden',
    'swdir',
    'swdir2',
    'swr1',
    'swr2'
]

get_data

# get all continuous wind measurements for station tplm2
cwind_df = api.get_data(
    station_id='tplm2',
    mode='cwind',
    start_time='2020-01-01',
    end_time='2022-09-15',
)
# return data as a dictionary
cwind_dict = api.get_data(
    station_id='tplm2',
    mode='cwind',
    start_time='2020-01-01',
    end_time='2022-09-15',
    as_df=False
)
# get only the wind speed measurements
wspd_df = api.get_data(
    station_id='tplm2',
    mode='cwind',
    start_time='2020-01-01',
    end_time='2022-09-15',
    as_df=True,
    cols=['WSPD']
)

More Information

Please see the included example notebook for a more detailed walkthrough of the API's capabilities.

Questions

If you have questions regarding the library please post them into the GitHub discussion forum.

Contributing

The ndbc-api is actively maintained, please feel free to open a pull request if you have any suggested improvements, test coverage is strongly preferred.

As a reminder, breaking changes will be considered, especially in the current alpha state of the package on PyPi. As the API further matures, breaking changes will only be considered with new major versions (e.g. N.0.0).

Alternatively, if you have an idea for a new capability or improvement, feel free to open a feature request issue outlining your suggestion and the ways in which it will empower the atmospheric research community.