Asian School of the Environment (ASE)

This dataverse is a collection of the Asian School of the Environment’s research data.

Featured Dataverses

In order to use this feature you must have at least one published dataverse.

Publish Dataverse

Are you sure you want to publish your dataverse? Once you do so it must remain published.

Publish Dataverse

This dataverse cannot be published because the dataverse it is in has not been published.

Delete Dataverse

Are you sure you want to delete your dataverse? You cannot undelete this dataverse.

3,671 to 3,680 of 4,499 Results

rinexReadsObsBlockHead211.m Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment MATLAB Source Code - 3.7 KB - MD5: e5608618f31bb28e7d3af01d116fa57d
rinexReadsObsFileHeader211.m Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment MATLAB Source Code - 10.6 KB - MD5: debc1249d30bdd0ced0e10224f4d45ca
spectroFabio_2v.m Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment MATLAB Source Code - 2.5 KB - MD5: 79543edc77da5957cdfce0ff2df52ab2
staz_coordinates.mat Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment MATLAB Data - 297 B - MD5: fef0a05ed34f2d9eebac08aeea91d46f output_20030713_week
TECII_calculator_2v.m Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment MATLAB Source Code - 23.2 KB - MD5: 65310dcfac6b5e22f10fa5c18512b7d8
tecu_plots_2v.m Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment MATLAB Source Code - 15.3 KB - MD5: fd7c6c351d68a0a5117399f3f22558a6
vertical_tecu_calculator_2v.m Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment MATLAB Source Code - 437 B - MD5: 66540b865974c6e8aa61d41796043c0e
xyz2neu.m Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment MATLAB Source Code - 1.3 KB - MD5: 7d3ee75ecb87fe7387292a82207d4a2d
xyz2wgs.m Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment MATLAB Source Code - 1.1 KB - MD5: b0f8bfc931be2a578dc64593686e2e13
Related data for: Rapid identification of tsunamigenic earthquakes using GNSS ionospheric sounding Nov 26, 2020 - Manta Fabio Manta, Fabio; Emma Hill; Lujia Feng; Giovanni Occhipinti, 2020, "Related data for: Rapid identification of tsunamigenic earthquakes using GNSS ionospheric sounding", https://doi.org/10.21979/N9/3KUEM5, DR-NTU (Data), V2, UNF:6:jPra5s5ZponYgqUGFALotw== [fileUNF] This dataset contains all the outputs obtained during the GNSS data processing aiming to explore the signature of tsunamigenic earthquake in the ionospheric TEC. This dataset also contain the codes used to process the data

rinexReadsObsBlockHead211.m

Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment

MATLAB Source Code - 3.7 KB -

rinexReadsObsFileHeader211.m

Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment

MATLAB Source Code - 10.6 KB -

spectroFabio_2v.m

Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment

MATLAB Source Code - 2.5 KB -

staz_coordinates.mat

Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment

MATLAB Data - 297 B -

output_20030713_week

TECII_calculator_2v.m

Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment

MATLAB Source Code - 23.2 KB -

tecu_plots_2v.m

Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment

MATLAB Source Code - 15.3 KB -

vertical_tecu_calculator_2v.m

Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment

MATLAB Source Code - 437 B -

xyz2neu.m

Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment

MATLAB Source Code - 1.3 KB -

xyz2wgs.m

Nov 26, 2020 - Correlation between GNSS-TEC and eruption magnitude supports the use of ionospheric sensing to complement volcanic hazard assessment

MATLAB Source Code - 1.1 KB -

Related data for: Rapid identification of tsunamigenic earthquakes using GNSS ionospheric sounding

Nov 26, 2020 - Manta Fabio

Manta, Fabio; Emma Hill; Lujia Feng; Giovanni Occhipinti, 2020, "Related data for: Rapid identification of tsunamigenic earthquakes using GNSS ionospheric sounding", https://doi.org/10.21979/N9/3KUEM5, DR-NTU (Data), V2, UNF:6:jPra5s5ZponYgqUGFALotw== [fileUNF]

This dataset contains all the outputs obtained during the GNSS data processing aiming to explore the signature of tsunamigenic earthquake in the ionospheric TEC. This dataset also contain the codes used to process the data

Add Data

Share Dataverse

Link Dataverse

Reset Modifications