Urban sustainability

Innovative simulation tools

Real-life models

Modelling Optimization of Energy Efficiency in Buildings for Urban Sustainability

MOEEBIUS introduces a Holistic Energy Performance Optimization Framework that enhances current modelling approaches and delivers innovative simulation tools which deeply grasp and describe real-life building operation complexities in accurate simulation predictions that significantly reduce the “performance gap” and enhance multi-fold, continuous optimization of building energy performance as a means to further mitigate and reduce the identified “performance gap” in real-time or through retrofitting.


The goal of this document is to provide the final list of system components that consist of the overall MOEEBIUS framework and further map the already defined end users and business requirements to the main functionalities supported by the components of the system.    

More specifically, this task defines the distinct technological components that needs to be included in the MOEEBIUS framework, in order to address the needs of end-users as well as the constraints set by the identified business models and the energy performance assessment methodology. This document breaks down the list of requirements defined in “End-user & business requirements” report into functional and non-functional requirements of the identified individual components and subsequently guides the work to be performed under “MOEEBIUS Architectural Design and Technological/Functional Specifications - Communication interfaces and protocols definition”. Therefore, this document screens the landscape towards the definition of the different system components that will further enable the detailed specification analysis and architectural design of the MOEEBIUS framework.

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Thursday, May 23, 2019


EU  This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 680517.