Abstract
Software is the key enabling technology (KET) as digitalization is cross-cutting future energy systems spanning the production sites, distribution networks, and consumers particularly in electricity smart grids. In this paper, we identify systematically what particular software competencies are required in the future energy systems focusing on electricity system smart grids. The realizations of that can then be roadmapped to specific software capabilities of the different future ‘software houses’ across the networks. Our instrumental method is software competence development scenario path construction with environmental scanning of the related systems elements. The vision of future software-enabled smart energy systems with software houses is mapped with the already progressing scenarios of energy systems transitions on the one hand coupled with the technology foresight of software on the other hand. Grounding on the Smart Grid Reference Architecture Model (SGAM), it tabulates the distinguished software competencies and attributes them to the different parties—including customers/consumers (Internet of People, IoP)—involved in future smart energy systems. The resulting designations can then be used to recognize and measure the necessary software competencies (e.g., fog computing) in order to be able to develop them in-house, or for instance to partner with software companies, depending on the future desirability. Software-intensive systems development competence becomes one of the key success factors for such cyber-physical-social systems (CPSS). Further futures research work is chartered with the Futures Map frame. This paper contributes preliminarily toward that by identifying pictures of the software-enabled futures and the connecting software competence-based scenario paths.
Highlights
The user’s Human data model (HDM) instances communicate and exchange information directly with the user’s other instances which may ensure from the user if the detected demand or free capacity is correct and the system is allowed to perform buying/selling actions based on this interpretation
We have identified some pictures of the software-enabled electricity system smart grid futures and the connecting software competence-based scenario paths
In this paper, we have discerned future smart energy systems focusing on electricity smart grids with respect to software
Summary
On the other hand, modern software architecture expertise brings necessary new competence for the overall systems engineering and management of the entire smart grids as CPSes. From our software point of view, we can see the SGAM framework overall as follows: Electrical process domains: embed software Power system information management zones: use software Interoperability layers: incorporate software. The above-mentioned emerging paradigms, technologies, networking infrastructures, and software paradigms form the basis for the modernization of the electricity networks, since these can be considered as a concrete Fog computing infrastructure Such infrastructure will help to enable new types of multi-directional connections and digital services that can only be constructed with (third-party) software that operates on various decentralized nodes and local computations in the smart grids as well as in other network nodes.
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