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====Process overview====
Updating or adding a data layer in an MSP Challenge Simulation Platform edition is a three-step process:
Updating or adding a data layer in an MSP Challenge Simulation Platform Edition is a two-fold process. On the one hand, the dataset needs to be prepared to integrate the platform; on the other hand, the server needs to know that the new dataset needs to be added to that specific Edition of the MSP Challenge. The so-called “configuration file” has the role of defining which layers, visualisation options, and models are used in each Edition of the MSP Challenge. To update or add a new data layer in an MSP Challenge edition, both the data layer and the configuration file containing that data layer’s definitions are uploaded in a web-tool specially designed for the effect – GeoImport [1].


How to deal with the configuration file is covered in [[Customise your session]]. In this section we will cover how to prepare your geo-data to integrate it in the MSP Challenge Simulation Platform.
# First, you need to store all the geodata on a single installation of GeoServer, under a single Workspace, with its Web Map Service (WMS) and Web Feature Service (WFS) enabled.
# Second, through a server configuration file, you need to tell the MSP Challenge server what the names of the geodata layers are and under which GeoServer Workspace those layers should be available.
# Third, when using the server configuration file in the Server Manager to create a new session with it, you need to specify which single GeoServer WMS/WFS installation should be called to actually obtain the geodata layers.


====Formats accepted====
== Adding geodata to a GeoServer installation ==
The MSP Challenge accepts both vector and raster formats. For vector data, the platform uses shapefiles[2], and for raster data GeoTIFF[3] (Geographic Tagged Image File Format).
A basic explanation of how to use GeoServer is beyond the scope of this page. There are good manuals on the GeoServer website about how to install and configure a new GeoServer installation. It's important you understand that GeoServer organises geodata through Workspaces, under which you can add Data Stores, and under which you can add Layers.


To use shapefiles in the platform only the files with extension .shp, .dbf, and .shx are needed. The .TIFF file is enough in case of raster files.  
Once you have a GeoServer installation at your disposal, you can start adding geodata to it. GeoServer supports many different geodata standards. You can, for example, manually upload ESRI ShapeFiles of your vector geodata as well as raster TIFF or PNG files into GeoServer. At the end of this page, we provide some notes about manually creating geodata.  


====Data preparation====
Often this won't be what you'll want to do. We know that a lot of geodata is already 'out there', available for anyone to reuse freely. The following two paragraphs explain how to pull such pre-existing geodata into your GeoServer installation.


=====General=====
=== Connecting to a pre-existing <u>WMS</u> in your GeoServer: ===
Some of the data preparation aspects apply to both vector and raster data and are explained here. For specifics on vector or raster data please refer to the respective sub-sections below.
* Go to your GeoServer management web interface (usually accessible through /geoserver), logging in with a full administrator-privileged user.
* Click on Stores > Add new Store to start the process of adding a new data store.
* In the New data source options list, choose the WMS cascade option under Other Data Sources.[[File:Geoserver add wms cascade.png|border|600x600px]]
* In the form that shows up, you'll first need to select a Workspace for this data store. For MSP Challenge, all your geodata (vector or raster) will need to be in the same Workspace. If you like, you can first create a new Workspace first by going to Workspaces > Add new Workspace, as long as you then reuse that newly created Workspace for all the geodata you want to pull in through your MSP Challenge configuration file (explained further below).
* Under WMS Source Name, enter a name for this new data store. You will need to use this name when you add a new data layer later on.
* A Description is optional. Write anything you like or need.
* Make sure the Enabled box is checked.
* Under Capabilities URL, enter the WMS base URL of the service you are accessing. An example of a fully-qualified WMS base URL is: https://ows.emodnet-bathymetry.eu/wms This is the Web Map Service of EMODnet Bathymetry.
* All other fields in the form are optional and can be left as is. This includes things such as username, password, and connection parameters. '''We do recommend switching <u>off</u> connection pooling by removing the checkbox at Use HTTP Connection Pooling.'''
* Click on Save.


*'''Coordinate Reference System and Projection'''
=== Connecting to a pre-existing <u>WFS</u> in your GeoServer: ===


Always save your geodata files using the coordinate reference system and projection used in the platform: ETRS89 and Lambert Azimuthal Equal Area (EPSG:3035).
* Go to your GeoServer management web interface (usually accessible through /geoserver), logging in with a full administrator-privileged user.
* Click on Stores > Add new Store to start the process of adding a new data store.
* In the New data source options list, choose Web Feature Server (NG) under Vector Data Sources. [[File:Geoserver add web feature server.png|800x800px]]
* In the form that shows up, you'll first need to select a Workspace for this data store. For MSP Challenge, all your geodata (vector or raster) will need to be in the same Workspace. If you like, you can first create a new Workspace first by going to Workspaces > Add new Workspace, as long as you then reuse that newly created Workspace for all the geodata you want to pull in through your MSP Challenge configuration file (explained further below).
* Under Data Source Name, enter a name for this new data store. You will need to use this name when you add a new data layer later on.
* A Description is optional. Write anything you like or need.
* Make sure the Enabled box is checked.
* Under WFS GetCapabilities URL, enter the WFS base URL of the service you are accessing. An example of a fully-qualified WFS base URL is: https://ows.emodnet-seabedhabitats.eu/geoserver/emodnet_open/wfs This is the Web Feature Service of EMODnet Seabed Habitats.
* All other fields in the form are optional and can be left as is. This includes things such as username, password, and connection parameters. '''We do recommend switching <u>off</u> connection pooling by removing the checkbox at Use Connection Pooling.'''
* Click on Save.


*'''Geographical area coverage'''
=== Adding the geodata layer from the pre-existing WMS or WFS: ===


'''''Are you working on an existing edition of the MSP Challenge?'''''  
* Now you need to retrieve an actual geodata layer from the new WMS or WFS data stores. So make sure you are still in your GeoServer management web interface (usually accessible through /geoserver), as a full administrator-privileged user.
* Go to Layers > Add a new layer.
* In the drop-down list, select the name of the data store, as you provided a couple of steps up under WMS/Data Source Name.
* If the WMS/WFS base URL was correct, GeoServer will query it now immediately and provide a list of layers that this source actually provides.
* Select the layer you actually want, and click on the Publish button to the right of it.
* Check the native coordinate reference system of this data layer, and select the declared coordinate reference system to whatever is required for the particular MSP Challenge configuration file. Usually this is [https://epsg.io/3035 EPSG:3035 (ETRS89 and Lambert Azimuthal Equal Area)], but do check with the projection variable in the configuration file at hand. Either way, make sure the coordinate reference system handling is selected as "reproject native to declared".
* Under Bounding Boxes, you can press  Compute From Data and Compute From Native Bounds to automatically retrieve the appropriate values. If you only want a part of the image you can enter the bounds of the box you want to retrieve, using of course the coordinate reference system at hand (e.g. EPSG:3035). [[File:Geoserver wms layer crs.png|800x800px]]
* In case of a WFS (vector data) ...
** Setting the linearization tolerance option might be useful for lines or polygons. This is up to you.
** Under 'Restrict the features on layer by CQL filter', add a CQL-based filter to the edition's overall bounding box (the play area) at hand using the format:
*** BBOX(ATTR1, 10,20,30,40)
** Note that the bounding box extent likely has to be expressed using the ''source's original'' coordinate reference system / projection system (e.g. in EPSG:4326) and goes [https://docs.geoserver.org/latest/en/user/services/wms/basics.html Ymin, Xmin, Ymax, Xmax for WFS/WMS version 1.3.0. or Xmin, Ymin, Xmax, Ymax for version 1.1.0]
** An example CQL filter using version 1.3.0 for the Eastern Mediterranean Sea: 
*** BBOX (the_geom, 30,21,42,37)
** If you also want to filter from any of the feature properties like we did for the bathing water state:
*** BBOX (the_geom, 10,20,45,45) AND "year"='2022'
** You will need to see if the variable at hand, in this case the year, should be an integer or a string (in case of the latter, use '2022' as shown). For more information, check out this documentation:
*** http://udig.github.io/docs/user/concepts/Constraint%20Query%20Language.html
*** https://docs.geoserver.org/stable/en/user/styling/ysld/reference/filters.html
* Go to the next Publishing tab.
* In case of a WMS (raster data), select PNG extension to ensure MSP Challenge can obtain the raster as a PNG file. You may also save an attribution text and set up a logo, etc. but this is all optional.
* In case of a WFS (vector data), select an appropriate style under Available Styles. The options are set by your WFS provider, so you'll have to find out from there what style options are available and which one you'll want to use. You'll probably only need one.
* Click on Save.


== Configuring MSP Challenge to get the geodata from GeoServer ==
=== Setting up your session configuration file ===
How to deal with the configuration file is covered in [[Customise your session]]. The [[Configuration data schema|full configuration file schema documentation]] might also be of interest.
In the end, you'll need to do the following to your configuration file:
* Enter the name of your chosen GeoServer Workspace for all the data layers under [[Configuration data schema|datamodel > region]].
* Enter the names of each of your layers as stored on GeoServer under [[Meta configuration data schema|datamodel > meta > layer_name]].
* And if relevant, make sure the chosen coordinate reference system, or projection system, for all your data layers, is set under [[Configuration data schema|datamodel > projection]], in the required PROJ.4 format.
=== Selecting the right GeoServer installation ===
When you want to use your configuration file in the Server Manager web application to actually [[Setting up your own server|create a new server session]] with it (e.g., a new North Sea edition session), make sure you select the right GeoServer. The default is BUas' own GeoServer, which we offer for all the default editions we ship with the server software (North Sea, Baltic Sea, etc). If you have set up your own GeoServer, then first add it to the Server Manager by going to the GeoServers tab, and clicking on Add. Then, when you create a new session, select that newly created GeoServer from the list.
== Notes about manual vector and raster geodata creation ==
=== Are you working on an existing edition of the MSP Challenge? ===
Make sure that the data layer you are adding to the platform only covers the geographical area of the respective edition, check the table below for each edition's detail on the area covered.
Make sure that the data layer you are adding to the platform only covers the geographical area of the respective edition, check the table below for each edition's detail on the area covered.


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'''''Are you creating a new MSP Challenge Edition?'''''
When creating a new MSP Challenge Edition the first step is to define the "play area". The play area is the total geographical area that will be shown in the platform, it works like a bounding box for all the geodata the MSP Challenge Edition will have. This step is crucial for the whole project. Take into account the coutries involved in the project and their respective planning areas at sea, make sure to include them. The play area needs to follow the naming convention:  _PLAYAREA_XX, where XX are the first letters of the region corresponding to that Edition. For example, the Adriatic Edition’s play area is “_PLAYAREA_AS”. The figure below shows the countries and planning areas considered when defining the play area for the MSP Challenge Adriatic Edition. In this case, the play area is much bigger than needed for the Adriatic Sea. This is to make it easier to expand the Adriatic Edition in the future to include the Ionian Sea (South of the Adriatic Sea).
[[File:Adriatic play area.png|frameless|400x400px|alt=]]<br />
====='''Vector'''=====
*'''Geometry'''


The shapefile itself can’t have invalid geometries; the platform cannot deal with invalid geometries. Remove duplicated geometries. If possible, avoid subtractive polygons as this can originate problems in the platform. Simplify geometries for use in the platform; aim for files (.shp) to have less than 100 KB.
=== Are you creating a new MSP Challenge Edition? ===
When creating a new MSP Challenge Edition the first step is to define the "play area". The play area is the total geographical area that will be shown in the platform, it works like a bounding box for all the geodata the MSP Challenge Edition will have. This step is crucial for the whole project. Take into account the countries involved in the project and their respective planning areas at sea, make sure to include them. The play area needs to follow the naming convention:  _PLAYAREA_XX, where XX are the first letters of the region corresponding to that Edition. [[Configuration data schema|See also the configuration file documentation.]]


*'''Categories'''
For example, the Adriatic Edition’s play area is “_PLAYAREA_AS”. The figure below shows the countries and planning areas considered when defining the play area for the MSP Challenge Adriatic Edition. In this case, the play area is much bigger than needed for the Adriatic Sea. This is to make it easier to expand the Adriatic Edition in the future to include the Ionian Sea (South of the Adriatic Sea).


If the dataset has categories, for instance, in a data layer about pipelines, we can have different categories, such as “active” or “inactive”. These are mapped in the platform by using “types”. A field named “type” (all low caps) needs to be introduced in the attributes table; this field needs to store integer values from 0 to n; each value will correspond to a type. It is good practice to also add a “type_1” field with the category description. The type’s name(s) and visualisation options are defined in the Edition’s configuration file ([[Customise your session|see Customise your session]]). Check if the types in the configuration file correspond to the types used in the new dataset and update if needed.
[[File:Adriatic play area.png|frameless|600x600px|alt=]]<br />


*'''Naming convention'''
=== Vector ===


Use the following name convention for vector layers: “RR_Layer_Name”, in which RR are the first letters of the region, for instance, AS for the Adriatic Sea.
==== Geometry ====
When working with ESRI ShapeFiles, it can’t have invalid geometries; the platform cannot deal with invalid geometries. Remove duplicated geometries. If possible, avoid subtractive polygons as this can originate problems in the platform. Simplify geometries for use in the platform; aim for files (.shp) to have less than 100 KB.


====='''Raster'''=====
==== Naming convention ====
We recommend using the following name convention for vector layers: “RR_Layer_Name”, in which RR are the first letters of the region, for instance, AS for the Adriatic Sea.


*'''Raster values'''
=== Raster ===


==== Raster values ====
In the MSP Challenge, the rasters’ cells values range from 0 (minimum or no data) to 255 (maximum). To make sure a raster file is displayed correctly in the platform, you need to know the minimum and maximum values in the raster file and optimise its visual settings before saving it as a tiff (rendered image). In the saved image, verify if the “no data” or zero values correspond to black and the maximum values to white. In the configuration file, the layers’ types need to be defined to correspond to the interval values that we want to show in the platform (see configuration file).
In the MSP Challenge, the rasters’ cells values range from 0 (minimum or no data) to 255 (maximum). To make sure a raster file is displayed correctly in the platform, you need to know the minimum and maximum values in the raster file and optimise its visual settings before saving it as a tiff (rendered image). In the saved image, verify if the “no data” or zero values correspond to black and the maximum values to white. In the configuration file, the layers’ types need to be defined to correspond to the interval values that we want to show in the platform (see configuration file).


*'''Naming convention'''
==== Naming convention ====
 
We recommend using the following name convention for raster layers: “RR_Layer_Name_raster”, in which RR are the first letters of the region, for instance, AS for the Adriatic Sea.
Use the following name convention for raster layers: “RR_Layer_Name_raster”, in which RR are the first letters of the region, for instance, AS for the Adriatic Sea.
 
<br />
 
====Upload the data in MSP Challenge's GeoServer====
Do not forget to update the configuration file before this step. See how to download the default configuration file and update it at [[Customise your session]] (Sections 1, 1.1 and 1.3.4 are the most relevant in this case).
 
To upload a layer in MSP Challenge's GeoServer use the geoimport tool created by BUas, accessible from [https://auth.mspchallenge.info/geoimport mspchallenge.info/geoimport]. You do need to log-in with your MSP username and password. If you don't have an account yet, you can create one by clicking on "register" on the top menu.
 
Browse or drag the raster file(s) or shapefile(s) - you need the files with the extensions .shp, .shx and .dbf,  and the configuration file in the "actions" box (highlighted in figure below).
 
The web tool guides you through the process and makes a series of verifications to make sure the dataset complies with the requirements. For instance, the use of multi-polygons, multi-lines, or multi-points is not supported, geoimport will warn you that it has broken all multi-polygons features into single polygon features. Geoimport will also assign an identification number to each feature (in case of shapefiles); those are needed to track changes in geometries during planning in the platform and for the simulations to run. 
 
After GeoImport has loaded the layers in the GeoServer, one more step is needed before users can access the changes in the updated Edition of the Platform. The configuration file needs to be added to the server manager and a new server needs to be set up. Section 1.5 of [[Customise your session]]  guides you through that process.
[[File:Geoimport.png|left|thumb|Geoimport - step 1]]
[[File:Geoimport step 2.png|thumb|Step 2 of geoimport|alt=]]<br /><br />
 
<br />
[[File:Geoimport step 3.png|left|thumb|Step 3 of geoimport]]
<br />
<br />
 
 
[[File:Geoimport step 4 BUas Server.png|thumb|Step 4 of geoimport|alt=]]
 
 
<br />
<br />
 
====Upload the data in your own GeoServer====
If you prefer to use your own GeoServer to store the geodata layers you should follow all steps mentioned above to prepare your data.
 
Once the data is prepared you only need to use the geoimport for the vector layers. Geoimport will check automatically if the layer is ready for MSP Challenge usage and will get the right features' identifier. The only '''difference''' in the geoimport process if you want to use your own server is on "'''Step 4''' - review and select files for upload", '''do NOT press''' "'''Send selected files to BUas' public Geoserver'''". Instead, download all shapefile's files to your computer (see image below) and push them to your own geoserver. 
 
For raster layers you do not need to use geoimport.
[[File:Geoimport step 4 2.png|left|thumb|Download your layer for MSP Challenge from Geoimport]]
 
 
 
<br />
 
Another thing that will be different is when you create a session. There are tutorials regarding how to create a new session [[Setting up your own server|here]]. To use your own server, you will have to add the server details in the server manager first, and then create the session. See the image gallery below.<gallery mode="packed-hover">
File:Set up own server 2.png
File:Set up own server create session details.png
File:Set up own server create session overview.png
</gallery>
 
<br />
----[1] <nowiki>https://auth.mspchallenge.info/geoimport</nowiki>
 
[2] <nowiki>https://doc.arcgis.com/en/arcgis-online/reference/shapefiles.htm</nowiki>


[3] <nowiki>https://www.ogc.org/standards/geotiff</nowiki>


[4] <nowiki>https://epsg.io/3035</nowiki>
We finally recommend looking at the [[Meta configuration data schema|meta part of the configuration file documentation]], particularly the parts explaining how you can map geodata properties to layer types.
<br />

Latest revision as of 22:22, 3 May 2024

Updating or adding a data layer in an MSP Challenge Simulation Platform edition is a three-step process:

  1. First, you need to store all the geodata on a single installation of GeoServer, under a single Workspace, with its Web Map Service (WMS) and Web Feature Service (WFS) enabled.
  2. Second, through a server configuration file, you need to tell the MSP Challenge server what the names of the geodata layers are and under which GeoServer Workspace those layers should be available.
  3. Third, when using the server configuration file in the Server Manager to create a new session with it, you need to specify which single GeoServer WMS/WFS installation should be called to actually obtain the geodata layers.

Adding geodata to a GeoServer installation

A basic explanation of how to use GeoServer is beyond the scope of this page. There are good manuals on the GeoServer website about how to install and configure a new GeoServer installation. It's important you understand that GeoServer organises geodata through Workspaces, under which you can add Data Stores, and under which you can add Layers.

Once you have a GeoServer installation at your disposal, you can start adding geodata to it. GeoServer supports many different geodata standards. You can, for example, manually upload ESRI ShapeFiles of your vector geodata as well as raster TIFF or PNG files into GeoServer. At the end of this page, we provide some notes about manually creating geodata.

Often this won't be what you'll want to do. We know that a lot of geodata is already 'out there', available for anyone to reuse freely. The following two paragraphs explain how to pull such pre-existing geodata into your GeoServer installation.

Connecting to a pre-existing WMS in your GeoServer:

  • Go to your GeoServer management web interface (usually accessible through /geoserver), logging in with a full administrator-privileged user.
  • Click on Stores > Add new Store to start the process of adding a new data store.
  • In the New data source options list, choose the WMS cascade option under Other Data Sources.Geoserver add wms cascade.png
  • In the form that shows up, you'll first need to select a Workspace for this data store. For MSP Challenge, all your geodata (vector or raster) will need to be in the same Workspace. If you like, you can first create a new Workspace first by going to Workspaces > Add new Workspace, as long as you then reuse that newly created Workspace for all the geodata you want to pull in through your MSP Challenge configuration file (explained further below).
  • Under WMS Source Name, enter a name for this new data store. You will need to use this name when you add a new data layer later on.
  • A Description is optional. Write anything you like or need.
  • Make sure the Enabled box is checked.
  • Under Capabilities URL, enter the WMS base URL of the service you are accessing. An example of a fully-qualified WMS base URL is: https://ows.emodnet-bathymetry.eu/wms This is the Web Map Service of EMODnet Bathymetry.
  • All other fields in the form are optional and can be left as is. This includes things such as username, password, and connection parameters. We do recommend switching off connection pooling by removing the checkbox at Use HTTP Connection Pooling.
  • Click on Save.

Connecting to a pre-existing WFS in your GeoServer:

  • Go to your GeoServer management web interface (usually accessible through /geoserver), logging in with a full administrator-privileged user.
  • Click on Stores > Add new Store to start the process of adding a new data store.
  • In the New data source options list, choose Web Feature Server (NG) under Vector Data Sources. Geoserver add web feature server.png
  • In the form that shows up, you'll first need to select a Workspace for this data store. For MSP Challenge, all your geodata (vector or raster) will need to be in the same Workspace. If you like, you can first create a new Workspace first by going to Workspaces > Add new Workspace, as long as you then reuse that newly created Workspace for all the geodata you want to pull in through your MSP Challenge configuration file (explained further below).
  • Under Data Source Name, enter a name for this new data store. You will need to use this name when you add a new data layer later on.
  • A Description is optional. Write anything you like or need.
  • Make sure the Enabled box is checked.
  • Under WFS GetCapabilities URL, enter the WFS base URL of the service you are accessing. An example of a fully-qualified WFS base URL is: https://ows.emodnet-seabedhabitats.eu/geoserver/emodnet_open/wfs This is the Web Feature Service of EMODnet Seabed Habitats.
  • All other fields in the form are optional and can be left as is. This includes things such as username, password, and connection parameters. We do recommend switching off connection pooling by removing the checkbox at Use Connection Pooling.
  • Click on Save.

Adding the geodata layer from the pre-existing WMS or WFS:

  • Now you need to retrieve an actual geodata layer from the new WMS or WFS data stores. So make sure you are still in your GeoServer management web interface (usually accessible through /geoserver), as a full administrator-privileged user.
  • Go to Layers > Add a new layer.
  • In the drop-down list, select the name of the data store, as you provided a couple of steps up under WMS/Data Source Name.
  • If the WMS/WFS base URL was correct, GeoServer will query it now immediately and provide a list of layers that this source actually provides.
  • Select the layer you actually want, and click on the Publish button to the right of it.
  • Check the native coordinate reference system of this data layer, and select the declared coordinate reference system to whatever is required for the particular MSP Challenge configuration file. Usually this is EPSG:3035 (ETRS89 and Lambert Azimuthal Equal Area), but do check with the projection variable in the configuration file at hand. Either way, make sure the coordinate reference system handling is selected as "reproject native to declared".
  • Under Bounding Boxes, you can press  Compute From Data and Compute From Native Bounds to automatically retrieve the appropriate values. If you only want a part of the image you can enter the bounds of the box you want to retrieve, using of course the coordinate reference system at hand (e.g. EPSG:3035). Geoserver wms layer crs.png
  • In case of a WFS (vector data) ...
  • Go to the next Publishing tab.
  • In case of a WMS (raster data), select PNG extension to ensure MSP Challenge can obtain the raster as a PNG file. You may also save an attribution text and set up a logo, etc. but this is all optional.
  • In case of a WFS (vector data), select an appropriate style under Available Styles. The options are set by your WFS provider, so you'll have to find out from there what style options are available and which one you'll want to use. You'll probably only need one.
  • Click on Save.

Configuring MSP Challenge to get the geodata from GeoServer

Setting up your session configuration file

How to deal with the configuration file is covered in Customise your session. The full configuration file schema documentation might also be of interest.

In the end, you'll need to do the following to your configuration file:

  • Enter the name of your chosen GeoServer Workspace for all the data layers under datamodel > region.
  • Enter the names of each of your layers as stored on GeoServer under datamodel > meta > layer_name.
  • And if relevant, make sure the chosen coordinate reference system, or projection system, for all your data layers, is set under datamodel > projection, in the required PROJ.4 format.

Selecting the right GeoServer installation

When you want to use your configuration file in the Server Manager web application to actually create a new server session with it (e.g., a new North Sea edition session), make sure you select the right GeoServer. The default is BUas' own GeoServer, which we offer for all the default editions we ship with the server software (North Sea, Baltic Sea, etc). If you have set up your own GeoServer, then first add it to the Server Manager by going to the GeoServers tab, and clicking on Add. Then, when you create a new session, select that newly created GeoServer from the list.

Notes about manual vector and raster geodata creation

Are you working on an existing edition of the MSP Challenge?

Make sure that the data layer you are adding to the platform only covers the geographical area of the respective edition, check the table below for each edition's detail on the area covered.

Bounding boxes of each existing MSP Challenge Edition (using EPSG:3035)

MSP Challenge Edition South North West East
North Sea 2835279 4500000 2921000 4801000
Baltic Sea 3767500 3327500 3767500 6120600
Clyde Marine Region 3627000 3790000 3256000 3478000
Adriatic Sea 1503000 2700000 4040000 5730450

Are you creating a new MSP Challenge Edition?

When creating a new MSP Challenge Edition the first step is to define the "play area". The play area is the total geographical area that will be shown in the platform, it works like a bounding box for all the geodata the MSP Challenge Edition will have. This step is crucial for the whole project. Take into account the countries involved in the project and their respective planning areas at sea, make sure to include them. The play area needs to follow the naming convention: _PLAYAREA_XX, where XX are the first letters of the region corresponding to that Edition. See also the configuration file documentation.

For example, the Adriatic Edition’s play area is “_PLAYAREA_AS”. The figure below shows the countries and planning areas considered when defining the play area for the MSP Challenge Adriatic Edition. In this case, the play area is much bigger than needed for the Adriatic Sea. This is to make it easier to expand the Adriatic Edition in the future to include the Ionian Sea (South of the Adriatic Sea).


Vector

Geometry

When working with ESRI ShapeFiles, it can’t have invalid geometries; the platform cannot deal with invalid geometries. Remove duplicated geometries. If possible, avoid subtractive polygons as this can originate problems in the platform. Simplify geometries for use in the platform; aim for files (.shp) to have less than 100 KB.

Naming convention

We recommend using the following name convention for vector layers: “RR_Layer_Name”, in which RR are the first letters of the region, for instance, AS for the Adriatic Sea.

Raster

Raster values

In the MSP Challenge, the rasters’ cells values range from 0 (minimum or no data) to 255 (maximum). To make sure a raster file is displayed correctly in the platform, you need to know the minimum and maximum values in the raster file and optimise its visual settings before saving it as a tiff (rendered image). In the saved image, verify if the “no data” or zero values correspond to black and the maximum values to white. In the configuration file, the layers’ types need to be defined to correspond to the interval values that we want to show in the platform (see configuration file).

Naming convention

We recommend using the following name convention for raster layers: “RR_Layer_Name_raster”, in which RR are the first letters of the region, for instance, AS for the Adriatic Sea.


We finally recommend looking at the meta part of the configuration file documentation, particularly the parts explaining how you can map geodata properties to layer types.

This page was last edited on 3 May 2024, at 22:22. Content is available under GPLv3 unless otherwise noted.