MATLAB Interface for JBA Risk Management

Version 1.0.0 (10,9 KB) von MathWorks Computational Finance Team

JBA Risk Management flood data access from MATLAB.

https://github.com/mathworks/jbarisk

Verfolgen

0.0

(0)

3 Downloads

Aktualisiert 15. Apr 2024

Lizenz auf GitHub anzeigen

Getting Started with JBA Risk in MATLAB®

Description

This interface allows users to access JBA Risk data directly from MATLAB. JBA Risk provides flood maps, catastrophe models and analytics for the insurance, reinsurance, property management and government sectors for use in quantifying and mitigating flood risk.

System Requirements

MATLAB R2022a or later

Features

Users can retrieve JBA Risk data directly from MATLAB. More information can be found here:

https://www.jbarisk.com/

and additional documentation for the JBA Risk REST API is here:

https://api.jbarisk.com/docs/1.1/index.html

https://api.jbarisk.com/docs/1.0/index.html

JBA Risk provides a token to establish a valid API connection for all requests. Users can retrieve information required to make subsequent data requests given an URL endpoint and additional request parameters.

Create a JBA Risk connection and set up JSON string and request structure for example requests.

conn = jbarisk("token");

Create Request structure with two locations for the following examples. The geometry is defined in WGS84 coordinates in these examples.

reqStruct.country_code = "US5";
reqStruct.geometries(1).id = "point 1";
reqStruct.geometries(1).wkt_geometry = "POINT(-101.1412927159555553 43.94424115485919)";
reqStruct.geometries(1).buffer = 10;
reqStruct.geometries(2).id = "point 2";
reqStruct.geometries(2).wkt_geometry = "POINT(-102.1412927159555553 42.94424115485919)";
reqStruct.geometries(2).buffer = 10;

Create JSON string with on location for the following examples.

jsonParams = '{"country_code": "US5","geometries": [{"id": "point 1","wkt_geometry": "POINT(-101.65 43.45)","buffer": 10}]}';

Retrieve country information. The returned information represents dataset identifiers of baseline maps.

conn.HttpMethod = "GET";
[data,response] = countries(conn);
[data,response] = countries(conn,"US5");
[data,response] = countries(conn,"US5","geometry","POINT(-101.1412927159555553 43.94424115485919)","buffer","10");

conn.HttpMethod = "OPTIONS";
[data,response] = countries(conn);
[data,response] = countries(conn,"US5");
[data,response] = countries(conn,"US5","geometry","POINT(-101.1412927159555553 43.94424115485919)");

conn.HttpMethod = "POST";
[data,response] = countries(conn,"US5",jsonParams);
[data,response] = countries(conn,"US5",reqStruct);

Retrieve cimate change scenarios for a specified dataset identifier. The scenarios are representative concentration pathways.

conn.HttpMethod = "GET";
[data,response] = ccscenarios(conn,"US5");
[data,response] = ccscenarios(conn,"US5","scenario","rcp45");
[data,response] = ccscenarios(conn,"US5","scenario","rcp45","time_start","2020","time_end","2040","time_filter","2020-2040");

conn.HttpMethod = "OPTIONS";
[data,response] = ccscenarios(conn,"US5");
[data,response] = ccscenarios(conn,"US5","scenario","rcp45");

Retrieve flood depth information for specified dataset identifier and scenario.

conn.HttpMethod = "GET";
[data,response] = flooddepths(conn,"US5");
[data,response] = flooddepths(conn,"US5",[]);
[data,response] = flooddepths(conn,"US5","rcp45_2016-2045");
[data,response] = flooddepths(conn,"US5",[],"geometry","POINT(-101.1412927159555553 43.94424115485919)","buffer","10");
[data,response] = flooddepths(conn,"US5","rcp45_2016-2045","geometry","POINT(-101.1412927159555553 43.94424115485919)","buffer","10");

conn.HttpMethod = "OPTIONS";
[data,response] = flooddepths(conn,"US5");
[data,response] = flooddepths(conn,"US5",[]);
[data,response] = flooddepths(conn,"US5","rcp45_2016-2045");
[data,response] = flooddepths(conn,"US5",[],"geometry","POINT(-101.1412927159555553 43.94424115485919)","buffer","10");
[data,response] = flooddepths(conn,"US5","rcp45_2016-2045","geometry","POINT(-101.1412927159555553 43.94424115485919)","buffer","10");

conn.HttpMethod = "POST";
[data,response] = flooddepths(conn,"US5",[],reqStruct);
[data,response] = flooddepths(conn,"US5",[],jsonParams);
[data,response] = flooddepths(conn,"US5","rcp45_2016-2045",reqStruct);
[data,response] = flooddepths(conn,"US5","rcp45_2016-2045",jsonParams);

Retrieve calculated flood score information for a specified dataset identifier and scenario.

conn.HttpMethod = "GET";
[data,response] = floodscores(conn,"US5");
[data,response] = floodscores(conn,"US5",[]);
[data,response] = floodscores(conn,"US5","rcp45_2016-2045");
[data,response] = floodscores(conn,"US5",[],"geometry","POINT(-101.1412927159555553 43.94424115485919)","buffer","10");
[data,response] = floodscores(conn,"US5","rcp45_2016-2045","geometry","POINT(-101.1412927159555553 43.94424115485919)","buffer","10");

conn.HttpMethod = "OPTIONS";
[data,response] = floodscores(conn,"US5");
[data,response] = floodscores(conn,"US5",[]);
[data,response] = floodscores(conn,"US5","rcp45_2016-2045");
[data,response] = floodscores(conn,"US5",[],"geometry","POINT(-101.1412927159555553 43.94424115485919)","buffer","10");
[data,response] = floodscores(conn,"US5","rcp45_2016-2045","geometry","POINT(-101.1412927159555553 43.94424115485919)","buffer","10");

conn.HttpMethod = "POST";
[data,response] = floodscores(conn,"US5",[],reqStruct);
[data,response] = floodscores(conn,"US5",[],jsonParams);
[data,response] = floodscores(conn,"US5","rcp45_2016-2045",reqStruct);
[data,response] = floodscores(conn,"US5","rcp45_2016-2045",jsonParams);

Retrieve calculated pricing data for a specific vulnerabilty curve given a region and dataset identifier.

conn.HttpMethod = "GET";
[data,response] = pricingdata(conn,"R-GBL-X-X","Global","US5",[],"geometry","POINT(-101.65 43.45)");
[data,response] = pricingdata(conn,"R-GBL-X-X","Global","US5","rcp45_2016-2045","geometry","POINT(-101.65 43.45)");

conn.HttpMethod = "OPTIONS";
[data,response] = pricingdata(conn,"R-GBL-X-X","Global","US5",[],"geometry","POINT(-101.65 43.45)");
[data,response] = pricingdata(conn,"R-GBL-X-X","Global","US5","rcp45_2016-2045","geometry","POINT(-101.65 43.45)");
            
conn.HttpMethod = "POST";
[data,response] = pricingdata(conn,"R-GBL-X-X","Global","US5",[],reqStruct);
[data,response] = pricingdata(conn,"R-GBL-X-X","Global","US5","rcp45_2016-2045",reqStruct);
[data,response] = pricingdata(conn,"R-GBL-X-X","Global","US5",[],jsonParams);
[data,response] = pricingdata(conn,"R-GBL-X-X","Global","US5","rcp45_2016-2045",jsonParams);

Retrieve a list of vulnerability curves for pricing data calculations for a specified region.

conn.HttpMethod = "GET";
[data,response] = risktypes(conn,"UK");

conn.HttpMethod = "OPTIONS";
[data,response] = risktypes(conn,"UK");

Retrieve a list of regions with available vulnerability curves.

conn.HttpMethod = "GET";
[data,response] = vulnerabilitycurveregions(conn);

conn.HttpMethod = "OPTIONS";
[data,response] = vulnerabilitycurveregions(conn);

License

The license is available in the LICENSE.TXT file in this GitHub repository.

Community Support

MATLAB Central

Zitieren als

MathWorks Computational Finance Team (2024). MATLAB Interface for JBA Risk Management (https://github.com/mathworks/jbarisk), GitHub. Abgerufen 28. April 2024.

Kompatibilität der MATLAB-Version

Erstellt mit R2024a

Kompatibel mit R2022a und späteren Versionen

Plattform-Kompatibilität

Windows macOS Linux

Tags Tags hinzufügen

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

@jbarisk

Versionen, die den GitHub-Standardzweig verwenden, können nicht heruntergeladen werden

Version	Veröffentlicht	Versionshinweise
1.0.0	15. Apr 2024

Um Probleme in diesem GitHub Add-On anzuzeigen oder zu melden, besuchen Sie das GitHub Repository.