ERA-Net SG+ Project SmartLoad ¨C Smart Meter Data Analytics for Enhanced Energy Efficiency in the Residential Sector

The arising smart metering infrastructure generates large amounts of data about energy consumption in the residential sector. This data contains extensive (hidden) evidence of household characteristics such as saving potential, suitability for self-supply and storage.

Based on ordinary 15-min smart meter data and further external information (e.g. geographical, socio-economical, weather, statistics), we develop and test methods to automatically derive individual household characteristics in this project. We focus on household characteristics in the field of energy efficiency (e.g. interest on renewables like eco-tarrifs for electricity) and the suitability of households for self-supply and storage. Furthermore, we will identfiy atypical consumption patterns, estimate base load, and aim to discover individual saving and load shifting potential.

Together with our implementation partner BEN Energy, we develop algorithms with smart meter data from the utility CKW, our industry partner, and test them in field. The realiziation of the project will follow Swiss and European data protection regulations.

We expect validated and highly scalable methods as a project result that discover energy saving potential in the residential area that helps utilities to improve their sales strategy for green and sustainable products in line with national energy strategies.

Research staff at the University of Bamberg: Andreas Weigert, Dr. Konstantin Hopf

Duration: 01.06.2017 ¡ª 31.03.2020

Total Budget: 802'378 € (industry and public funding)

Project Partners:

• Centralschweizerische Kraftwerke (CKW) AG, CH
• BEN Energy AG, CH
• Information Systems and Energy Efficient Systems, University of Bamberg, DE

Funding:

• ERA-Net Smart Grids Plus (SG+), EU
• Federal Ministry for Economic Affairs and Energy (BMWi), DE
• Swiss Federal Office of Energy (SFOE), CH

The integration of renewable energy sources in the private sector is made possible in particular by coupling the consumption sectors of electricity, heat and mobility. In order to leverage the enormous potential, energy solutions for the private sector must be consistently thought through. However, sector coupling and the digitization required for it also increase the demands on the actors in the development, parameterization, optimization and marketing of the technologies. Comprehensive energy data (from systems, consumption, and behavior) and AI processes can help to enable new energy services, optimize grid operations, and promote greater dissemination of sustainable energy technologies. The project aims to leverage the potential from existing energy data for such applications. The project's field-tested Big Data Analytics (BDA) toolbox will support households and utilities with machine learning technology to drive sector coupling.

Funded by the Bayerische Verbundforschungsprogramm, F?rderlinie Digitalisierung ¨C Informations- und Kommunikationstechnologie

Project duration: 01.07.2021 ¨C 31.06.2024

Research staff at the University of Bamberg: Konstantin Hopf (Principal Investigator), Felix Haag (Project Associate)

Project Partners:

• Friedrich-Alexander-Universit?t Erlangen-N¨¹rnberg
• BEN Energy GmbH
• Consolinno Energy GmbH
• Stadtwerk Ha?furt
• Hoval GmbH

Total project budget: € 1'486'731 (funding and industry contribution), € 218'500 of the total budget for the University of Bamberg

Utilities have a large customer base, yet their knowledge about individual households is small. This adversely affects both the development of innovative, household specific services and the utilities¡¯ monetary KPIs. Our software solutions help utility companies to engage their customers in energy saving campaigns and support them in selling respective services.

In this project, we develop further and test in field experiments machine learning algorithms that infer household characteristics (apartment size, number of inhabitants and appliances, etc.) and predict the willingness to participate in efficiency or load shifting campaigns from load profiles, location information, and other existing customer data. Our tools provide customer insights at low cost and at scale, thereby solving an eminent business problem, improving the effectiveness of energy conservation campaigns, and ultimately increasing the customer value and adoption of related services.

Funded by the EU Eurostars Programme

Research staff at the University of Bamberg: Konstantin Hopf

Project duration: 01.11.2015 - 30.10.2018

Project Partners:

• BEN Energy AG

Total Budget: 818'840 € (industry and public funding)

Smart electricity meters allow capturing consumption load profiles of residential buildings. The goal of the project is to develop methods of machine learning that will automatically infer energy efficiency relevant household characteristics (e.g., type of heating, living area, number of inhabitants per dwelling, etc.) from the power load traces. The gained information can be used by utilities as a starting point for developing energy consulting services, and for optimisation of sales channels.

The project will result to a new methodology and a software that will be employed by the customers of our partner BEN Energy already in 2016.

Funded by Commission for Technology and Innovation, Switzerland

Research staff at the University of Bamberg: Konstantin Hopf, Ilya Kozlovskiy, Dr. Mariya Sodenkamp

Project duration: 01.05.2014 - 30.04.2016

Project Partners:

• Chair of Information Management, Departement of Management, Technology, and Economics, ETH Z¨¹rich
• BEN Energy AG

Budget: CHF 442'560

Smart electricity meters allow for capturing consumption data of individual households at a high resolution in time (typically with 15-minute intervals). The key objective of this project is to develop further and evaluate feature extraction and machine learning techniques for automatic identification of household properties based on electricity load profiles. The gained information shall render highly targeted and scalable energy efficiency services possible.

Funded by Swiss Federal Office of Energy and Arbon Energie AG, Switzerland

Research staff at the University of Bamberg: Konstantin Hopf, Ilya Kozlovskiy, Dr. Mariya Sodenkamp

Project duration: 01.04.2014 - 31.01.2016

Project Partners:

• Arbon Energie AG, Schweiz
• Chair of Information Management, Department of Management, Technology, and Economics, ETH Zurich
• Department of Computer Science, Institute for Pervasive Computing, ETH Zurich

Budget: CHF 353'450

The EU Project DAIAD deals with the structure and the testing of an IT infrastructure in order to capture and analyze the consumption of (warm) water in private households. In association with Amphiro AG (CH), WaterWise (UK), the Athena Research (GR), the Frauenhofer Institute for ¡°Systems and Innovation Research¡± and the City of Athens, the research group from Bamberg tests concepts for motivating sustainable consumer behavior.

Funded by EUs  Seventh Framework Programme for Research

Project coordinator: Prof. Dr. Thorsten Staake ; Dipl.-Kffr. Anna Kupfer

Project duration: 01.03.2014 - 31.08.2017

Project Partner:

• Athena Research Center 
• Amphiro AG
• Fraunhofer ISI
• Waterwise
• EYDAP AS

 Budget: EUR 3'202'288

Customer satisfaction and confidence are the corner stones of long-term, successful and sustainable relationships between utility companies and energy consumers.  The goal of the project is to develop methods for analysis of consumption and behavioral data that enable segmentation of end energy consumers in the residential sector. The derived information serves utility companies as a basis for targeted efficiency interventions and confidence building dialog with customers by intelligent linking of customer data.

Funded by RWE AG

Research staff at the University of Bamberg: Ilya Kozlovskiy, Dr. Mariya Sodenkamp

Project duration: 01.10.2013 - 31.03.2015

Projektpartner: BEN Energy AG

The project Sense4EN is funded by the European Union and part of the European ClimateKIC initiative. The Energy Efficient Systems Group elaborates concepts for reducing heat consumption (especially warm water) by means of Smart Metering systems in association with ETH Zurich, TU Berlin and Vattenfall.