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Modelling Optimization of Energy Efficiency in Buildings for Urban Sustainability

Deliverables

MOEEBIUS Dissemination and Communication Plan and Associated Material Third version

The deliverable consists in the detailed and well targeted dissemination plan that will uptake all possible and appropriate dissemination channels and means also exploiting the immense collaboration and open deliberation capabilities provided by contemporary social networking. The deliverable will report on the dissemination and communication activities of the previous period.

MOEEBIUS Dissemination and Communication Plan and Associated Material Final version

The deliverable will report on the dissemination and communication activities of the previous period.

MOEEBIUS Branding, Website and Social Media Channels

The deliverable consists in the MOEEBIUS Logo and Associated Dissemination Mock-ups, the project website and social media channels.

MOEEBIUS Dissemination and Communication Plan and Associated Material First version

The deliverable consists in the detailed and well targeted dissemination plan that will uptake all possible and appropriate dissemination channels and means also exploiting the immense collaboration and open deliberation capabilities provided by contemporary social networking.

MOEEBIUS Dissemination and Communication Plan and Associated Material Second version

The deliverable consists in the detailed and well targeted dissemination plan that will uptake all possible and appropriate dissemination channels and means also exploiting the immense collaboration and open deliberation capabilities provided by contemporary social networking. The deliverable will report on the dissemination and communication activities of the previous period.

MOEEBIUS Dissemination and Communication Plan and Associated Material Fourth version

The deliverable consists in the detailed and well targeted dissemination plan that will uptake all possible and appropriate dissemination channels and means also exploiting the immense collaboration and open deliberation capabilities provided by contemporary social networking. The deliverable will report on the dissemination and communication activities of the previous period.

MOEEBIUS International Conference

The deliverable refers to the proceedings and relevant material of the MOEEBIUS International Conference organized at the end of the project.

MOEEBIUS Predictive and Sanitary Maintenance advisor module development and VR Environment Final version

The deliverable refers to the Predictive and Sanitary Maintenance module for HVAC loads in buildings. A 3D Virtual Reality Environment will comprise a complementary interface for Maintenance Managers.

MOEEBIUS Retrofitting advisor and investment evaluation module development First version

The deliverable refers to the development of a Retrofitting Evaluation Module (and User Interface) to be used for holistically assessing energy performance improvements offered by alternative retrofitting scenarios.

MOEEBIUS Retrofitting advisor and investment evaluation module development Final version

The deliverable refers to the development of a Retrofitting Evaluation Module (and User Interface) to be used for holistically assessing energy performance improvements offered by alternative retrofitting scenarios.

Models of DER devices

The deliverable consists in the detailed models of DER devices (Generation and Consumption) and District Heating Systems incorporated in the MOEEBIUS framework.

MOEEBIUS District-Level Middleware

The deliverable refers to the detailed design and development of the MOEEBIUS District-level middleware module (sub-modules, interfaces, data flows etc) in line with the overall project specifications defined in D3.1.

MOEEBIUS Integrated DSS First version

The deliverable consists in the integrated MOEEBIUS decision support tool (incorporating appropriate User Interfaces) to assist ESCOs and Aggregators in optimizing both energy performance of their portfolio, as well as, their business performance on the basis of the MOEEBIUS business models.

MOEEBIUS Building-Level Middleware

The deliverable refers to the detailed design and development of the MOEEBIUS Building level middleware module (sub-modules, interfaces, data flows etc) in line with the overall project specifications defined in D3.1.

MOEEBIUS Indoor Air Quality Assessment Models

The deliverable consists in detailed models for assessing the Indoor Air-Quality of the Built Environment, focusing on the operation of HVAC loads and the impact of their operation in air-quality and health parameters.

Local and Global Energy performance models

The deliverable comprises Core Energy Performance and Additional Indicators (following the provisions and metrics defined in the MOEEBIUS Energy Performance Assessment Methodology – e.g. comfort, health) on a local and global level underlying the overall Energy Performance Optimization approach introduced in MOEEBIUS.

Holistic and Context-Aware Flexibility Profiles

The deliverable consists in the Multi-Dimensional and Context Aware Load Flexibility Profiles for specific demand-side loads, resulting from the integration of occupants’ comfort models (T3.4) and respective DER models (as developed in task T3.3).

MOEEBIUS Comfort Profiling Models

The deliverable consists in the Occupants’ Thermal (incorporating occupancy flows) and Visual Dynamic Comfort Models, to be used both for simulation and automation purposes.

Validated MOEEBIUS-QUEST

The deliverable reports the findings of the validation in KUBIK and includes the fine-tuning of all WP6 deliverables.

MOEEBIUS Predictive and Sanitary Maintenance advisor module development and VR Environment First version

The deliverable refers to the Predictive and Sanitary Maintenance module for HVAC loads in buildings. A 3D Virtual Reality Environment will comprise a complementary interface for Maintenance Managers.

MOEEBIUS DER Flexibility Analysis, Aggregation and Forecasting Module

The deliverable consists in the development of the main Visual Analytics platform for the Aggregator, which will allow for multi-parameter criteria Analysis over consumer portfolios, addressing technical as well as market potential. The tool will allow for the historical analysis of demand elasticity data (as acquired from the MOEEBIUS pilot sites) in combination with variable pricing data generated by a Dynamic Price Simulation Engine used during the project pilot trials. This will subsequently allow for High-level Demand Elasticity Profiling based on price variations and incentives/ rebates schemes.

MOEEBIUS Integrated DSS Final version

The deliverable consists in the integrated MOEEBIUS decision support tool (incorporating appropriate User Interfaces) to assist ESCOs and Aggregators in optimizing both energy performance of their portfolio, as well as, their business performance on the basis of the MOEEBIUS business models.

New Business Models and Associated Energy Management Strategies

The deliverable will examine and evaluate current business models and energy management strategies and will introduce the MOEEBIUS human-centric business models for ESCOs and Aggregators.

3rd MOEEBIUS Living Lab Activities Evaluation Report

The deliverable consists in the reporting, evaluation and re-design of the MOEEBIUS Living Lab Activities.

2nd MOEEBIUS Living Lab Activities Evaluation Report

The deliverable consists in the reporting, evaluation and re-design of the MOEEBIUS Living Lab Activities.

MOEEBIUS Living Lab Activities Planning

The deliverable aims to ensure the effective planning of activities needed for ex-ante analysis, validation, dissemination and exploitation, the latter in synergy with the DCP developed in WP8.

MOEEBIUS Common Information Model

The deliverable consists in the high level domain model comprising the basic elements (semantic concepts, events, relations and respective data models etc.) underlying the MOEEBIUS Holistic Energy Performance Optimization Framework.

MOEEBIUS Living Lab Framework Definition

The deliverable aims to establish early in the project an efficient communication, awareness and engagement framework for all stakeholders involved in the MOEEBIUS value chain.

MOEEBIUS Validation Framework – Validation Scenarios and Deployment Plan

The deliverable aims at providing the necessary pilot validation framework (use cases, data flows, actors and roles) towards assessing the fulfilment of the MOEEBIUS framework to its original objectives.

Functional and Non-functional requirements of the MOEEBIUS framework and individual components

The deliverable will align and further detail the overall requirements of MOEEBIUS (D2.1) to the distinct components and modules of the framework and will provide their functional and non-functional requirements.

End-user & business requirements

This deliverable will focus on the definition of the MOEEBIUS Business Scenarios and Use Cases and will end-up to the extraction of respective high-level user requirements for the Integrated MOEEBIUS Framework.

Wireless Sensor/Actuator Network Specification for Accurate, Complete and Non-Intrusive Sensing

The deliverable consists in detailed specifications for Non-Intrusive and Accurate sensing of indoor ambient conditions (types of sensors, sensor topologies on MOEEBIUS pilot sites, communication specs, etc) in line with the overall project specifications defined in D3.1.

MOEEBIUS Energy Performance Assessment Methodology

The deliverable will focus on the definition of the MOEEBIUS Measurement and Verification Protocol, considering also base-lining approaches, and will introduce the MOEEBIUS Key Performance Indicators to be modelled in T3.6.

MOEEBIUS DER Flexibility Analysis, Aggregation and Forecasting Module specifications

The deliverable consists in the design of the main Visual Analytics platform for the Aggregator, which will allow for multi-parameter criteria Analysis over consumer portfolios, addressing technical as well as market potential. The tool will allow for the historical analysis of demand elasticity data (as acquired from the MOEEBIUS pilot sites) in combination with variable pricing data generated by a Dynamic Price Simulation Engine used during the project pilot trials. This will subsequently allow for High-level Demand Elasticity Profiling based on price variations and incentives/ rebates schemes.

1st MOEEBIUS Living Lab Activities Evaluation Report

The deliverable consists in the reporting, evaluation and re-design of the MOEEBIUS Living Lab Activities.

MOEEBIUS Framework Holistic Performance Evaluation and Lessons Learnt

The deliverable comprises the overall evaluation of the MOEEBIUS framework, considering User Experience (ESCOs, Aggregators, Building Occupants, etc), evaluation of impact of the MOEEBIUS framework and cost-benefit analysis of the MOEEBIUS solution.

Validated MOEEBIUS-PIPE

The deliverable reports the findings of the validation in KUBIK and includes the fine-tuning of all WP4 deliverables.

Publications

A Platform for Automated Technical Building Management Services Using Ontology

Author(s): Georg Ferdinand Schneider, Yashar Kalantari, Georgios D. Kontes, Gunnar Grün, Simone Steiger
Published in: Lean and Computing in Construction Congress - Volume 1: Proceedings of the Joint Conference on Computing in Construction, 2017, Page(s) 321-328
DOI: 10.24928/JC3-2017/0279

Simulation-time Reduction Techniques for a Retrofit Planning Tool

Author(s): Georgios I. Giannakis, Georgios D. Kontes, Ivan Korolija, Dimitrios V. Rovas
Published in: Proceedings of Building Simulation 2017: 15th Conference of IBPSA, Issue Bi-annually, 2017

A Holistic Demand Flexibility Profiling Framework for the Energy Management Environment

Author(s): Konstantinos Tsatsakis, Tasos Tsitsanis
Published in: "Proceedings of 6th International Conference ""ENERGY in BUILDINGS 2017"" (EinB2017),", 2017
DOI: 10.5281/zenodo.1299100

Modelling and prediction of buildings energy consumption using Machine Learning techniques

Author(s): Kontes, Georgios; Rovas, Dimitrios
Published in: 2016

The development of new ESCO business models within the Horizon 2020 project Moeebius

Author(s): Bojan Bogdanović, Radmilo Savić, Beogradske Elektrane; Ricardo Rato, Cláudia Mafra, Sustainable Innovation Centre; Petar Vasiljević, Beogradske Elektrane; Miodrag Zdravković, City of Belgrade - Secretariat for Energy
Published in: International Conference on District Energy 2017, Issue Annually, 2017, Page(s) 64-65

Visual Comfort and Energy Efficiency for User Centric Lighting Control

Author(s): Tsatsakis, K.; Papanikolaou, A.; Malavazos. C.
Published in: ENERGY in BUILDINGS, Issue Annual, 2016
DOI: 10.5281/zenodo.817500

INNOVATIVE MOEEBIUS HYBRID BUSINESS MODELS FOR DEMAND RESPONSE AND ENERGY EFFICIENCY

Author(s): Claudia Mafra, Ricardo Rato, Chara Zografou, Konstantinos Tsatsakis, Melina Lazaropoulou, Tasos Tsitsanis, Javier Biosca, Javier Royo, Jon Martinez, Akshat Kulkarni, Mircea Bucur, Yoav Zingher, Bojan Bogdanovic, Radimilo Savic, Dário Jacinto, Joaquim Sardinha, Jiri Rojicek, Marek Sikora, Petr Stluka, Dawid Krysiński
Published in: Energy for Sustainability 2017, Issue Annualy, 2017

Multiscale building modelling and energy simulation support tools

Author(s): Romero, Ander; Izkara, Jose Luis; Mediavilla, Asier; Prieto, Iñaki; Pérez, Juan
Published in: eWork and eBusiness in Architecture, Engineering and Construction. Proceedings of the 11th European Conference on product and process modelling (ECPPM2016), Issue Annually, 2016, Page(s) 315-322

MOEEBIUS ENERGY PERFORMANCE OPTIMIZATION FRAMEWORK IN BUILDINGS FOR URBAN SUSTAINABILITY

Author(s): Romero, Ander; Tellado, Borja; Tsitsanis, Tasos
Published in: 41st IAHS World Congress on Housing, Sustainability and Innovation for the Future, Issue Annually, 2016, Page(s) 176

Using Thermostats for Indoor Climate Control in Office Buildings: The Effect on Thermal Comfort

Author(s): Georgios Kontes, Georgios Giannakis, Philip Horn, Simone Steiger, Dimitrios Rovas
Published in: Energies, Issue 10/9, 2017, Page(s) 1368, ISSN 1996-1073
DOI: 10.3390/en10091368

Find the Gap: Project MOEEBIUS, a Holistic Energy Performance Optimization Framework

Author(s): Rui Martins, Filipe Silva, Muriel Iten, Ricardo Rato
Published in: Proceedings, Issue 1/7, 2017, Page(s) 1102, ISSN 2504-3900
DOI: 10.3390/proceedings1071102

An Integrated Behavioural Model towards Evaluating and Influencing Energy Behaviour—The Role of Motivation in Behaviour Demand Response

Author(s): Julia Blanke, Christian Beder, Martin Klepal
Published in: Buildings, Issue 7/4, 2017, Page(s) 119, ISSN 2075-5309
DOI: 10.3390/buildings7040119

Towards Integrating Behaviour Demand Response into Simulation Based Heat Production Optimisation

Author(s): Christian Beder, Julia Blanke, Martin Klepal
Published in: Proceedings, Issue 2/15, 2018, Page(s) 1125, ISSN 2504-3900
DOI: 10.3390/proceedings2151125

Simulation-Based Evaluation and Optimization of Control Strategies in Buildings

Author(s): Georgios Kontes, Georgios Giannakis, Víctor Sánchez, Pablo de Agustin-Camacho, Ander Romero-Amorrortu, Natalia Panagiotidou, Dimitrios Rovas, Simone Steiger, Christopher Mutschler, Gunnar Gruen
Published in: Energies, Issue 11/12, 2018, Page(s) 3376, ISSN 1996-1073
DOI: 10.3390/en11123376

Multiradio, multiboot capable sensing systems for home area networking


Published in: ISSN 1942-2644

A new era in the energy performance of buildings

Author(s): Ander Romero, Pablo de Agustin, Dawid Krysiński
Published in: Eu Research Magazine, Issue Winter 2017 vol, 2017, Page(s) 42-43

Plotting a path to reduce the energy performance gap

Author(s): Ander Romero, Pablo De Agustin, Agnieszka Kowalska
Published in: Research EU, Issue Spring 2019, 2019, Page(s) 28-30