Aplicación unidad didáctica “distancia entre dos puntos”

En el desarrollo de la Maestría en Educación Matemática (MAD3) de la Universidad de Los Andes, un grupo conformado por cuatro profesores de matemáticas diseñamos, implementamos y evaluamos la unidad didáctica denominada “Cálculo de la distancia entre dos puntos”. El diseño de la unidad didáctica se enmarca desde el análisis didáctico que se divide en cinco partes. Para el diseño tuvimos en cuenta el análisis de contenido que permite la elegir el tema, determinar la estructura conceptual, establecer los sistemas de representación, la fenomenología y documentos curriculares nacionales e institucionales en los que se involucra el tema. En segundo lugar, encontramos el análisis cognitivo mediante el cual realizamos las previsiones para el desarrollo de la unidad didáctica teniendo en cuenta la dimensión cognitiva y afectiva. En tercer lugar, tenemos el análisis de instrucción que corresponde al diseño de cada una de las tareas de aprendizaje para que se ajusten a los objetivos propuestos, a las expectativas de aprendizaje de nivel superior, las expectativas de tipo afectivo y se entrelacen por medio de la secuencia de tareas. En cuarto lugar, encontramos el análisis de actuación en el cual diseñamos los instrumentos que permiten evaluar el desarrollo de la unidad didáctica, estos instrumentos son diario del estudiante y diario del profesor. Finalmente, la evaluación de la implementación de la unidad didáctica por medio del sistema ACE4 que se alimenta de la información que se recopila de la implementación de cada una de las tareas de aprendizaje. La implementación de la unidad didáctica se llevó a cabo en el Colegio Santa Bárbara ubicado en la localidad de Ciudad Bolívar con estudiantes de grado octavo

The metadata catalogue of the Spanish Institute of Oceanography: a tool to implement the EU Marine Strategy Framework Directive (MSFD)

The Spanish Institute of Oceanography (IEO-CSIC) is responsible, among other aspects, for scientific and technical advice for the Government's fisheries policy as well as for the protection and sustainability of the marine environment. Thus, the IEO-CSIC plays a key role in the implementation of the Marine Strategy Framework Directive (MSFD), an EU legislative act that seeks to achieve a good environmental status of European marine waters and protect the resource base on which sustain economic and social activities related to the sea. Under this commission, the IEO-CSIC generates a large amount of marine data characterized by its spatial dispersion during acquisition as well as by its different typology. One of the main tasks is to safeguard data and to disclose what data exists and where, how and when it has been acquired and, in addition, to provide access to that data through the collaboration with different national and international organizations. To this end, the data and metadata are subjected to quality control and formatted for integration into a national Spatial Data Infrastructure (SDI). This SDI has a GeoNetwork catalogue (http://datos.ieo.es) with ~ 2800 oceanographic campaigns. The metadata of the campaigns known as Cruise Summary Report (CSR) follow the ISO 19139, and although similar to those reported to the pan European SeaDataNet infrastructure, here they have been adapted following an XSL transformation to facilitate the data discovery to the Spanish community. CSRs constitute the parent metadata for ~ 250 layers associated with the implementation of the MSFD. Thus, the INSPIRE-compliant layers with biological, geological and physical resource data can be found through the catalogue and are linked to the corresponding map services. Finally, relevant metadata for the implementation of the MSFD are harvested in other national infrastructures, as the InfoMar catalogue (http://www.infomar.miteco.es/), promoted by the Ministry for the Ecological Transition and the Demographic Challenge and maintained by the CEDEX

Contribution of EMODNET Batrymetry Project to Marine Strategy Framework Directive (MSFD). Case of use:IEO.

With this work we want to highlight that all data collected in EMODnet is essential information in order to have a database with reference information about the marine environment to achieve the objectives of MSFD. In the case of EMODnet bathymetry, on the one hand, the researchers of IEO are participating as partners on the development of the EMODnet bathymetry data (continous DTMs for all european seas), and in the other hand, the IEO researchers are involved in the development of research in the framework of MSFD in Spain and they are using this bathymetry as important element of reference. For the MSFD works is essential to have a continuos DTM bathymetry in order to the stablishment of indicators for each descriptor, for instance in the biodiversity descriptor It is essential to know the seadbed relief in order to know the habitat distribution, it is very important to define bathymetrical thresholds to identify the bentonic habitats domain as infralitoral, circalitoral, etc. Moreover the bathymetry it is very important in the indicators as spatial extent of loss of seabed, spatial extent of physical disturbance to seabed, distribution of habitat adversely altered by physical disturbance. Other utilities of bathymetry are to know the marine current and therefore in order to know species distribution.EMODNET BATHYMETR

Standardized Symbology for MSP, delivered Styled Layer Descriptor for MSP INSPIRE Data model

Es una presentación oral sobre los trabajos realizados por personal del IEO, en relación a la elaboración de una "Style Layer Descriptor" SLD, que permite asociar una simbología común a los objetos existentes en el MSP INSPIRE Data model, desarrollado por ECOACUA.Se trata de una comunicación oral presentada en el Workshop MS11: Ready to use MSP products, enmarcado en el proyecto MSP-OR. Advancing Maritime Spatial Planning in Outermost Regions. En este workshop se muestras productos generados en otros proyectos de MSP que son de utilidad. En esta presentación se exponen los trabajos de elaboración de una SLD (Style Layer Descriptor) con el objetivo de estandarizar la simbología para el MSP INSPIRE Data model, realizados en el proyecto MARSP.MINISTERIO DE CIENCIA E INNOVACIÓN. CSIC. CN INSTITUTO ESPAÑOL DE OCEANOGRAFÍA. UNION EUROPEA

Maritime Spatial Planning INSPIRE data model

Poster para CongresoThe Maritime Spatial Planning (MSP) INSPIRE data model concept has been developing from 2014, applying Infrastructure for spatial information in Europe Directive 2007/2/EC (INSPIRE) data management concepts for marine planning, through the Marine Pilot project (EC Joint Research Centre 2014-2016) and continuing with the PLASMAR project (INTERREG–V 2017-2020). The results and findings delivered have been published in the paper “Maritime spatial planning supported by infrastructure for spatial information in Europe (INSPIRE)” (Abramic et al., 2018). Currently, there are difficulties in harmonising products, visions, maps and frameworks of maritime spatial plans delivered by countries sharing the same marine (sub)region. This is mainly due to the fact that maritime plans do not use a common symbology and data structure to describe maritime activities. A solution for this issue is to apply on a marine spatial plans, INSPIRE standards for data sets, layers and portrayals. The MarSP project was a perfect opportunity to finalise conceptual data model development and, what is more important, to test results applying it on the real use cases, developed in the Macaronesia (Azores, Madeira, Canaries) MSP process. Initially, the INSPIRE data model for terrestrial planning (Planned Land Use, Figure 1) was tested to see if it could be applied for MSP. Tests pointed out that the terrestrial data model is robust, and can map MSP’s, but it tends to lose detail and specific information on marine uses. To be applied for MSP, the Planned Land Use data model needs to be adapted for planning of the maritime activities in the marine space. Conceptual model was analyzed, adapted, applying data modeling techniques, adjusting for MSP requirements: 1. Developed conceptual MSP data model, extending Planned Land use, using Unified Model Language (Figure 2); 2. Extending spatial scope of the data model - from two-dimensional land planning to the three dimensions planning. Extended structure includes maritime activities within the sea surface, water column, seabed and subsoil, when land model consists mainly of land surface planning; 3. Developed specific maritime uses classification (including register), extending Hierarchical INSPIRE Land Use classification (HILUCS); 4. Developed MSP data model templates, using simplified and feature complex spatial data architectures. Different type of codification templates, for advanced, standard and rookie GIS users (gml, GeoPackage, Shapfile, available at Canaries MSP platform); 5. Styled Layer Descriptor (color & simbology layout) for MSP, based on International Hydrographic Organization standards. 6. Data specification document v1.0 for Maritime Spatial Planning INSPIRE data model MarSP 2nd capacity building workshop was a great opportunity to test MSP data model results. Participants were trained on how to apply MSP data model on selected use case (Madeira MSP draft), during the “hands on” session, discussing potential issues and technical solutions.MarS

Web Visor – MarSP Atlas report. Deliverable - D.6.10., under the WP6 of MarSP: Macaronesian Maritime Spatial Planning project

Macaronesian Maritime Spatial Planning - MarSPMAMAR-S

Promoting FAIRness in marine data at Centro Nacional Instituto Español de Oceanografía

The Spanish Institute of Oceanography is responsible, among other aspects, for scientifc and technical advice for the Government’s fsheries policy as well as for the protection and sustainability of the marine environment. In this task, it generates a large amount of oceanographic data characterized by its spatial dispersion during acquisition as well as by its diferent typology. The purpose of both the National Oceanographic Data Center and the GIS team is to safeguard data and to disclose what data exists and where, how and when it has been acquired and, in addition, to provide access to that data through the collaboration with diferent international data infrastructures like EMODnet or SeaDataNet. To this end, the data and metadata are subjected to quality control and formatted for integration into a national Spatial Data Infrastructure (SDI). This SDI has a GeoNetwork catalogue with ~ 1750 oceanographic campaigns, together with (meta)data and services that are continuously being revised and incorporated. All this with the ultimate goal of making the data increasingly FAIR.Peer Reviewe

Promoting FAIRness in marine data at Centro Nacional Instituto Español de Oceanografía

The Spanish Institute of Oceanography is responsible, among other aspects, for scienti c and technical advice for the Government's sheries policy as well as for the protection and sustainability of the marine environment. In this task, it generates a large amount of oceanographic data characterized by its spatial dispersion during acquisition as well as by its di erent typology. The purpose of both the National Oceanographic Data Center and the GIS team is to safeguard data and to disclose what data exists and where, how and when it has been acquired and, in addition, to provide access to that data through the collaboration with di erent international data infrastructures like EMODnet or SeaDataNet. To this end, the data and metadata are subjected to quality control and formatted for integration into a national Spatial Data Infrastructure (SDI). This SDI has a GeoNetwork catalogue with ~ 1750 oceanographic campaigns, together with (meta)data and services that are continuously being revised and incorporated. All this with the ultimate goal of making the data increasingly FAIR