UC4

From EERAdata Wiki
Revision as of 11:30, 3 June 2020 by Małgorzatam (talk | contribs) (Metadata assessments)
Jump to: navigation, search

Low carbon energy and energy efficiency policies

General description of use case

The motivation for this use case is the significant role of policies, laws, and regulations in catalyzing the transformation of the energy system towards greenhouse gas and energy efficiency. They provide the ground for accelerating research and innovation, incentivizing behavioral changes, and safeguarding the necessary transformation processes. Through their texts and specifications, policies, laws, and regulations are not only defining the space for the application of energy technologies and low carbon energy materials, but they also provide the framework for market activities in general. An example is the enabling of new actors to appear on the energy market (e.g. prosumers, community energy, and energy cooperatives). Currently, a new role for data on low carbon energy and energy efficiency policies is emerging. The need to provide documentation on compliance with regulations is starkly increasing in complexity as integrated monitoring and assessment across fields and economic sectors are increasing. This not only refers to international compliance requirements (e.g. National Greenhouse Gas Inventories, Intended Nationally Determined Contributions, Progress Reports for Sustainable Development Goals), but also to the level of companies whose produces have to adhere to given standards and documentation has to be provided for the entire supply chain (c.f. Ly et al. 2015 on a review of business process compliance approaches). Machine-actionability of relevant policy databases from local to global scale is therefore key for automated tracking, compilation, and inter-comparison with peers. Here, new business opportunities are arising. Overall, the state about the application of FAIR principles is still in its infancy. Openness is by nature less of an issue for this use case, but a specific challenge originates from mixed data formats, which include texts as well as number formats. Examples of databases from which EERAdata starts the use case activities include the IEA policy & measures databases, SETIS research, and innovation data, ResLegal, JRC in-house methodology for Monitoring R&I in Low-Carbon Energy Technologies, InnovationDB or activities, and tools developed in H2020 project ODYSSEE-MURE

List of selected databases

During the first workshop (see notes from Day 2), the following databases were selected to analyze and improve their compliance with FAIR and Open data principles:

Name of database Short description Reasoning of choice Current state of FAIR/O principles Target of FAIR/O to achieve within EERAdata
COMETS [1] Write a short description, e.g., "Database 1 is about XXX, containing XXX data, covering the period xxx." Summarize shortly the main reasons, why this DB was chosen. Link to the discussion page of WS1UC4. What is the current FAIR/O state for this database. Summarize here. In case more space is needed, link to a section of the discussion page of WS1UC4. What FAIR/O target was decided?
IEA Policy Database [2] Database of policies and measures thematically related to reduce greenhouse gas emissions, improve energy efficiency and support the development and deployment of renewables and other clean energy technologies. It contains data from IEA/IRENA Renewable Energy Policies and Measures Database, the IEA Energy Efficiency Database, the Addressing Climate Change database, and the Building Energy Efficiency Policies (BEEP) database, along with information on CCUS and methane abatement policies. Data are collected from governments, partner organizations and IEA analysis since 1999. • A popular, recognized, and world-wide database hosted by a reputable institution. • Since we are not able to analyze all the databases that we would like to - the selection of the IEA Policy database would indirectly allow us to take into account several other, selected databases because it contains data from: IEA/IRENA Renewable Energy Policies and Measures Database, the IEA Energy Efficiency Database, the Addressing Climate Change database, and the Building Energy Efficiency Policies (BEEP) database, • Cross-use case relevance, as it contains policies and measures also for buildings efficiency (UC1) and for power transmission and distribution networks (UC2). F - easy;

A - easy; I – quite ok (The database contains a description and metadata. Metadata are always available on IEA Policy database webside in English, but the document is linked to the page where it was published. So the language availability of a document depends on the publisher. Practically, many times the documents are available only in national language. Sometimes there is no link) R - it seems to be ok || Example

EUR-Lex [3] EUR-Lex is online database that provides the official and most comprehensive access to EU Law and legal documents such as treaties, legal acts from EU institutions, preparatory documents related to EU legislation, EU case-law, international agreements, EFTA documents, references to national case-law related to EU law. EUR-Lex has access to all editions of the Official Journal of the European Union (OJ) since the first of December 1952 • It is available in all of the EU’s 24 official languages • It is updated daily, which confirms the validity of the documents • Each document in EUR-Lex is supported by detailed information such as: relations with other legal documents, case-law interpretations, dates of adoption or entry into force etc. • It is the open and highly recognizable European Union’s database directly related to policy • Most documents in EUR-Lex, regardless of their language, receive a unique identifier - CELEX number, so all documents have a designed structure and each type of document corresponds to a so-called “a descriptor”. Example Example
JRC database hub [4] The JRC Science Hub aims to gradually integrate and aggregate all of the European Commission's science related activities, tools, laboratories, facilities, databases and networks. The inventory is wide range of the compilation of databases development of software and modelling tools. Published on the basis of open data principles with clear descriptions for each entry. The tools and databases are categorised by name and acronym, but can be filtered by research area, keyword and JRC institute responsible for the coordination of the particular entry. It contains, inter alia, databases related to energy and transport and climate • It’s the open and highly recognizable European Union’s database directly related to different related aspects also energy policy related • It’s data interpretation is highly dependent on changes in the legal and policy frameworks across European Union. • Enhances the transparency and openness of the JRC and further enables the open access policy of scientific research data. • The information and links provided in the metadata are maintained in distributed and heterogeneous information systems. Although the datasets are maintain and links and information are updated,* Sources of the database are coming in a variety of European languages, all brought together in an English database. • Is cross-use case relevant, as it contains policies and measures also for other use cases. Example Example Example
Example Example Example Example Example

Metadata assessments

Databases above were assessed with respect to their current meta practices. The table below summarizes the current state and issues identified during WS 1:

Name of database Type of metadata provided Extend of metadata provided Level of implementation of FAIR/O principles Frameworks for metadata used Technical implementation of metadata
Database 1 Which types of metadata are covered? Administrative, descriptive, structural, provenance of data, etc.? Summarize: Is it rich or basic metadata provided for each of the types? Check the Wilkinson criteria for metadata and summarize here. In case more space is needed, link to a section of WS1UC4. What framework is used, e.g., controlled vocabulary, taxonomy, thesaurus, ontology? How are metadata implemented? As xml, plain text, RDF, etc.
IEA Policy database administrative, descriptive, rights, structural Administrative - intristic; Descriptive - extrinsic; Rights - intristic; Structural - instristic F4; A2; I1; R1.2 thesaurus LOD and plain text
Example Example Example Example Example Example
Example Example Example Example Example Example
Example Example Example Example Example Example
Example Example Example Example Example Example