Skip to main content
European Commission logo
polski polski
CORDIS - Wyniki badań wspieranych przez UE
CORDIS
CORDIS Web 30th anniversary CORDIS Web 30th anniversary

Green Awareness in Action

Rezultaty

Applications Final Release

Final complete version of the applications. All software components will be available for download from public website and easily accessed via market places (e.g., Google Play, Apple Store, etc.). We will provide a complete set of technical documentation and manuals for the installation and use of the applications. Updated versions of the documentation will be included.

Applications Prototypes

Initial prototype versions of the applications. All software components will be available for download from public website.

Applications Initial Release

First complete version of applications. All software components will be available for download from public website and easily accessed via market places (e.g., Google Play, Apple Store, etc.). We will provide a complete set of technical documentation and manuals for the installation and use of the applications. Quick-installation guides, short tutorials and hands-on videos will be provided.

Final Infrastructure Software

The final release of the infrastructure software will be described and fully documented. All tasks will present their final result of a complete, integrated system. An emphasis will be given on the work conducted since the previous deliverable and changes to the initial design will be justified.

Initial Infrastructure Software

Initial Infrastructure Software (Month 18) – The initial release of the infrastructure will be described, this will include an overview over the software architecture, the state of the unified data acquisition framework (T2.1), the data profiling service (T2.2) a description of the “microscopic” level of the recommendation system (T2.3) and first results on automatic recommendations such as the developed visualizations (T2.4). Implementation decisions will be set in relation to the design produced in D1.1. The deliverable will point out the interfacing of the different components within WP2 and, where relevant, to WP3 and project the further work for the final version of the software.

Final Trial Documentation

For each trial, the complete experimental process will be described in detail. The deliverable will give a chronological description of all actions and corresponding data regarding energy efficiency, indoor environmental qualities, use of applications, social activities and user feedback.

Sustainability Plan & Innovation Roadmap

As the GAIA project progresses there are bound to be new and exciting forms of knowledge that will need to be managed among the partners. The Management Board will deliver its final assessment of knowledge gained, as well as determine the extent to which the outcomes may be exploited for future use or development.

First year report on Dissemination Activities

Packages of prepared course materials will be available for use within classrooms across Europe in order for teachers to use our tools and techniques within their classrooms to promote the changing of students energy usage behaviors. We will also monitor the activity and usage of these materials not only for our project partners, but also other institutions as well as promote the establishment of a long-lasting group of entities that are interested in these goals.

Second year report on Network of Stakeholders & Dissemination Activities

Packages of prepared course materials will be available for use within classrooms across Europe in order for teachers to use our tools and techniques within their classrooms to promote the changing of students energy usage behaviors. We will also monitor the activity and usage of these materials not only for our project partners, but also other institutions as well as promote the establishment of a long-lasting group of entities that are interested in these goals.

Final Pedagogical and Education Design

Final Pedagogical and Education Design (Month 24) – This deliverable will provide the basic pedagogical requirements for designing the GAIA educational approach. It will focus on identifying, for each country involved, a number of requirements: (a) the particular learners/audiences (school, university) targeted by the GAIA project and their pedagogical needs in each country; (b) the relevant topics/areas of the school curriculum in each country for the science, energy saving and environmental protection topics/areas that are addressed to the target audiences; (c) a preliminary list of intended learning objectives and outcomes that could be covered from the designed games; and (d) a preliminary list of the already existing use-cases that are applied in schools around the EU and in the GAIA participating countries in particular. This deliverable will also offer the outcomes of the design process, carried out for T1.2, in the form of specific energy efficiency scenarios (e.g., heating, electricity, micro-generation, transportation, and the collaborative use of resources, e.g., collaborative cooking) that educate the students/learners on smart energy consumption, and will provide the learners with all the tools needed to act as regulators of their energy consumption. It will also include characteristics that were taken into consideration for the design of the serious games/scenarios, such as the elements of social networking between different schools - e.g., comparison of energy consumption between different schools, game-based learning and use of ICT. This deliverable will also cover the development of the social media, apps and profiles. The most important of these is expected to be the GAIA Facebook app. These will be built according to the requirements collected for T1.2. It will also design the GAIA mobile app that is to be made accessible via mobile phones and tablets. The mobile app will be used during the experimentation events, and will be revisited and updated accordingly based on the evaluation process findings. Finally, it will develop handbooks for the implementation of the GAIA educational scenarios, and the use of the mobile and social apps. A working version will be developed that will be delivered to be tested during the projects experimentation activities. Based on the evaluation and validation results, a final version will be produced for public adoption and use, available in at least 4 languages (English, Italian, Greek and Swedish).

GAIA Design

This deliverable will summarize the work of task T1.1 by describing the trial sites, the buildings, their building services and existing metering technologies. A unified set of KPIs with precise formulas will be defined. The deliverable will describe the necessary metering technology including interfaces to the GAIA data platform. For each trial, the deliverable will describe all necessary additional sensors and metering devices that might have to be installed. Within the project, the deliverable will serve as a guideline for the technical implementation of the trials in T4.1 and as a controlling mechanism for the validation of the trials in T4.4.

Initial Trial Documentation

The deliverable will compile a general design for all trials and detailed designs for all individual trials set up ready to use. The deliverable builds on the guideline created in WP1 by adding documentations of all technical installations, GAIA applications, workshops and other relevant activities. As a basis of evaluation for all KPIs, the deliverable will document historic data and data of reference buildings for the trials.

Trial & Educational Evaluation

The overall results of all trials will be compiled in this deliverable. It will give a short description of all trials, a summary of the major findings of each trial and the overall technical, ecologic, socio-economic and educational evaluation of each trial as well as a cross evaluation of all trials.

Project Handbook, Quality Plan and Risk Management

This document will include a list of rules for everyday activities of the project, communication and file tools, email lists, formal file naming and quality plan. It will also include a Risk Management considering potential scientific, technical and management risks, their severity and the respective consistency plan.

Final report on Network of Stakeholders and Dissemination activities

Packages of prepared course materials will be available for use within classrooms across Europe in order for teachers to use our tools and techniques within their classrooms to promote the changing of students energy usage behaviors. We will also monitor the activity and usage of these materials not only for our project partners, but also other institutions as well as promote the establishment of a long-lasting group of entities that are interested in these goals.

Public website

A portal website will serve as both a repository and clearinghouse for information that has been gathered, as well as for data that has been shared. Additionally, the website will serve as the starting point for all of our dissemination activities via social networks.

Private repository and Mailing Lists

This will be email lists for the project needs. One email list per WP will be created; yet, during the project lifecycle, additional email reflectors may be created/or merged for the efficient consortium communication. A private repository will be setup for project file and source code exchange purposes.

Publikacje

A Comparative Study of LoRa and IEEE 802.15.4-Based IoT Deployments Inside School Buildings

Autorzy: Lidia Pocero Fraile; Stelios Tsampas; Georgios Mylonas; Dimitrios Amaxilatis
Opublikowane w: IEEE Access, Numer 29, 2020, Strona(/y) 160957 - 160981, ISSN 2169-3536
Wydawca: Institute of Electrical and Electronics Engineers Inc.
DOI: 10.1109/access.2020.3020685

Open source IoT meter devices for smart and energy-efficient school buildings

Autorzy: Lidia Pocero, Dimitrios Amaxilatis, Georgios Mylonas, Ioannis Chatzigiannakis
Opublikowane w: HardwareX, Numer 1, 2017, Strona(/y) 54-67, ISSN 2468-0672
Wydawca: Elsevier
DOI: 10.1016/j.ohx.2017.02.002

An IoT-Based Solution for Monitoring a Fleet of Educational Buildings Focusing on Energy Efficiency

Autorzy: Dimitrios Amaxilatis, Orestis Akrivopoulos, Georgios Mylonas, Ioannis Chatzigiannakis
Opublikowane w: Sensors, Numer 17/12, 2017, Strona(/y) 2296, ISSN 1424-8220
Wydawca: Multidisciplinary Digital Publishing Institute (MDPI)
DOI: 10.3390/s17102296

An Augmented Reality Prototype for supporting IoT-based Educational Activities for Energy-efficient School Buildings

Autorzy: Georgios Mylonas, Christos Triantafyllis, Dimitrios Amaxilatis
Opublikowane w: Electronic Notes in Theoretical Computer Science, Numer 343, 2019, Strona(/y) 89-101, ISSN 1571-0661
Wydawca: Elsevier BV
DOI: 10.1016/j.entcs.2019.04.012

Enabling Sustainability and Energy Awareness in Schools Based on IoT and Real-World Data

Autorzy: Georgios Mylonas, Dimitrios Amaxilatis, Ioannis Chatzigiannakis, Aris Anagnostopoulos, Federica Paganelli
Opublikowane w: IEEE Pervasive Computing, Numer 17/4, 2018, Strona(/y) 53-63, ISSN 1536-1268
Wydawca: IEEE Computer Society
DOI: 10.1109/MPRV.2018.2873855

An educational IoT lab kit and tools for energy awareness in European schools

Autorzy: Georgios Mylonas, Dimitrios Amaxilatis, Lidia Pocero, Iraklis Markelis, Joerg Hofstaetter, Pavlos Koulouris
Opublikowane w: International Journal of Child-Computer Interaction, Numer 20, 2019, Strona(/y) 43-53, ISSN 2212-8689
Wydawca: Elsevier BV
DOI: 10.1016/j.ijcci.2019.03.003

Green Awareness in Action—How Energy Conservation Action Forces on Environmental Knowledge, Values and Behaviour in Adolescents’ School Life

Autorzy: Michaela Maurer, Pavlos Koulouris, Franz X. Bogner
Opublikowane w: Sustainability, Numer 12/3, 2020, Strona(/y) 955, ISSN 2071-1050
Wydawca: MDPI Open Access Publishing
DOI: 10.3390/su12030955

Energy efficiency tools for residential users

Autorzy: Emmanouil Zacharioudakis, Helen C. Leligou, Aikaterini Papadopoulou
Opublikowane w: MATEC Web of Conferences, Numer 125, 2017, Strona(/y) 02066, ISSN 2261-236X
Wydawca: EDP Sciences
DOI: 10.1051/matecconf/201712502066

Green Awareness via Embedded Sensors and Games in the School Environment: the GAIA case

Autorzy: Mylonas G., Hofstaetter J., Mavrommati I., Tziortzioti Ch.
Opublikowane w: Arguing on the Holodeck: Designing Immersive Interactive Entertainment with Persuasive Intent, CHI Play 2017 Workshop, 2017, ISBN 978-1-4503-5111-9
Wydawca: ACM

Scenarios for Educational and Game Activities using Internet of Things Data

Autorzy: Chrysanthi Tziortzioti, Irene Mavrommati, Georgios Mylonas, Andrea Vitaletti, Ioannis Chatzigiannakis
Opublikowane w: 2018 IEEE Conference on Computational Intelligence and Games (CIG), 2018, Strona(/y) 1-8, ISBN 978-1-5386-4359-4
Wydawca: IEEE
DOI: 10.1109/cig.2018.8490370

A Methodology for Saving Energy in Educational Buildings Using an IoT Infrastructure

Autorzy: Georgios Mylonas, Dimitrios Amaxilatis, Stelios Tsampas, Lidia Pocero, Joakim Gunneriusson
Opublikowane w: 2019 10th International Conference on Information, Intelligence, Systems and Applications (IISA), 2019, Strona(/y) 1-7, ISBN 978-1-7281-4959-2
Wydawca: IEEE
DOI: 10.1109/iisa.2019.8900707

On Mining IoT Data for Evaluating the Operation of Public Educational Buildings

Autorzy: Na Zhu, Aris Anagnostopoulos, Ioannis Chatzigiannakis
Opublikowane w: 2018 IEEE International Conference on Pervasive Computing and Communications Workshops (PerCom Workshops), 2018, Strona(/y) 278-283, ISBN 978-1-5386-3227-7
Wydawca: IEEE
DOI: 10.1109/percomw.2018.8480226

Using an Educational IoT Lab Kit and Gamification for Energy Awareness in European Schools

Autorzy: Georgios Mylonas, Dimitrios Amaxilatis, Lidia Pocero, Iraklis Markelis, Joerg Hofstaetter, Pavlos Koulouris
Opublikowane w: Proceedings of the Conference on Creativity and Making in Education - FabLearn Europe'18, 2018, Strona(/y) 30-36, ISBN 9781-450353717
Wydawca: ACM Press
DOI: 10.1145/3213818.3213823

Micro-accounting for Optimizing and Saving Energy in Smart Buildings

Autorzy: Daniele Sora, Massimo Mecella, Francesco Leotta, Leonardo Querzoni, Roberto Baldoni, Giuseppe Bracone, Daniele Buonanno, Mario Caruso, Adriano Cerocchi, Mariano Leva
Opublikowane w: Advanced Information Systems Engineering Workshops. CAiSE 2016., Numer June 13-17, 2016, 2016, Strona(/y) 143-154, ISBN 978-3-319-39564-7
Wydawca: Springer International Publishing
DOI: 10.1007/978-3-319-39564-7_15

Addressing behavioral change towards energy efficiency in European educational buildings

Autorzy: Georgios Mylonas, D. Amaxilatis, H. Leligou, T. Zahariadis, E. Zacharioudakis, J. Hofstaetter, A. Friedl, F. Paganelli, G. Cuffaro, Jimm Lerch
Opublikowane w: 2017 Global Internet of Things Summit (GIoTS), Numer June 6-9, 2017, 2017, Strona(/y) 1-6, ISBN 978-1-5090-5873-0
Wydawca: IEEE
DOI: 10.1109/GIOTS.2017.8016258

A resource-based rule engine for energy savings recommendations in educational buildings

Autorzy: Giovanni Cuffaro, Federica Paganelli, Georgios Mylonas
Opublikowane w: 2017 Global Internet of Things Summit (GIoTS), Numer June 6-9, 2017, 2017, Strona(/y) 1-6, ISBN 978-1-5090-5873-0
Wydawca: IEEE
DOI: 10.1109/GIOTS.2017.8016275

Designing Effective Playful Experiences for Sustainability Awareness in Schools and Makerspaces

Autorzy: Georgios Mylonas; Joerg Hofstaetter; Andreas Friedl; Michail N. Giannakos
Opublikowane w: FabLearn Europe / MakeEd 2021 - An International Conference on Computing, Design and Making in Education (FabLearn Europe / MakeEd 2021), 2021, Strona(/y) 1-9
Wydawca: Association for Computing Machinery
DOI: 10.1145/3466725.3466755

IoT-based Big Data Analysis of School Buildings Performance

Autorzy: Chatzigiannakis, Ioannis; Mylonas, Georgios; Mavrommati, Irene; Amaxilatis, Dimitrios
Opublikowane w: Big Data-Enabled Internet of Things, 2019
Wydawca: IET

Wyszukiwanie danych OpenAIRE...

Podczas wyszukiwania danych OpenAIRE wystąpił błąd

Brak wyników